Patent Grant
11232655
The present invention relates to the field of telematics, and more particularly to a system and method for communicating with and through a controller area network of a vehicle with a local server and a remote server.
All of the patents and patent applications, and other references described below and listed in Table 1 are hereby explicitly incorporated by reference in the description of the present invention in their entirety.
There are a number of known telematics technologies. Typically, these involve cars and land vehicles, and integrate navigational functions, though some such systems do not require location or navigational information. Marine use of telematics and electronic engine controls is well developed.
U.S. Pat. No. 6,273,771 discloses a control system for a marine vessel incorporates a marine propulsion system that can be attached to a marine vessel and connected in signal communication with a serial communication bus and a controller. A plurality of input devices and output devices are also connected in signal communication with the communication bus and a bus access manager, such as a CAN Kingdom network, is connected in signal communication with the controller to regulate the incorporation of additional devices to the plurality of devices in signal communication with the bus whereby the controller is connected in signal communication with each of the plurality of devices on the communication bus. The input and output devices can each transmit messages to the serial communication bus for receipt by other devices.
The control of a marine vessel, such as a pleasure craft used for fishing, water skiing, or other leisure activities, requires the implementation of many different input and output devices. For example, input signals are provided by speedometers, tachometers, depth finders, and various temperature and pressure sensors. Engine control units (ECU's) provide output signals to control the operation of various components related to the internal combustion engine of the marine propulsion system used to provide thrust for the marine vessel. In marine vessels that use transducers as input devices, such as speed sensors, temperature sensors, and pressure sensors, it is typical for each transducer to be separately and individually connected in signal communication with an appropriate gauge located on the control panel at the helm of the vessel. For example, a speed measuring transducer (e.g. paddlewheel) may be connected by a pair of wires to a speedometer gauge on a control panel of the marine vessel. Similarly, a pressure transducer disposed in pressure sensing relation with an oil system or a cooling system would typically be connected by a pair of wires to a separate gauge on a control panel at the helm of the marine vessel. Similarly, temperature transducers and other sensors would be connected to their associated gauges on a control panel. If the marine propulsion system is provided with actuators to cause the propulsion system to trim or tilt relative to the marine vessel, switches would typically be provided at the helm to activate the trim and tilt cylinders and position transducers would be attached to the marine propulsion system and connected, by appropriate wires, to gauges on the control panel to inform the marine vessel operator of the actual position of the marine propulsion system.
The Controller Area Network (CAN) communication system has been used in many types of automotive and industrial applications. The basic principle of a CAN communication system is that data messages transmitted from any node on a CAN bus do not contain addresses of either the transmitting node or of any intended receiving node. Instead, the content of the message is labeled by an identifier that is unique throughout the network. All other nodes on the network receive the message and each performs an acceptance test on the identifier to determine if the message, and thus its content, is relevant to that particular node. If the message is relevant, it will be processed. Otherwise, it is ignored. A two-wire bus is usually provided and consists of a twisted pair of conductors. CAN is able to operate in extremely harsh environments and its extensive error checking mechanisms ensure that any transmission errors are detected. The National Marine Electronic Association (NMEA) has developed an international standard intended to permit ready and satisfactory communication between electronic marine instruments, navigation equipment, and communications equipment when interconnected via an appropriate system. The interconnection is intended to be by means of a two-conductor, shielded, twisted pair of wires.
U.S. Pat. No. 5,469,150 discloses a sensor actuator bus system. A four-wire bus is provided with a two-wire power bus and a two-wire signal bus and a plurality of sensors and actuators attached to both two-wire busses. A modification is provided to the standard CAN protocol, in which the standard CAN header, of a data packet, is modified to incorporate a shortened device identifier priority. By shortening the identifier field of the CAN header three bits are made available for use as a short form protocol data unit which can be used to contain binary information representing both the change of status of an identified device and the current status of the device. The same three-bit PDU can be used to acknowledge receipt of the change of status information. In order to retain all of the beneficial capabilities of the standard CAN protocol, the three-bit short form PDU can also be used to identify the use of additional bytes of a data field so that a device can take advantage of the more complex capabilities of the standard CAN protocol. However, in situations where a mere change of status report is sufficient, the length of a message is reduced from a minimum of three bytes to a length of two bytes to obtain the significant benefits of increased speed of message transmission.
In certain systems, such as large industrial control systems, it may be sufficient to create a control system in which no new devices are expected to be added to the system after its initial design and manufacture. Alternatively, if the original manufacturer of the industrial control system retains control of all additional equipment added to the system, appropriate regulation of the signal exchanges can be retained. However, when one manufacturer originally creates a control system using CAN and other manufacturers add components to the system, without the knowledge of the original manufacturer, the orderly processing of signals and messages maybe compromised by the added components. The Can Kingdom system addresses several problems inherent in a standard controller area network system (CAN) when used in circumstances in which subsequent suppliers and users provide components that are later connected to an existing controller area network system and which are not under the control of the original manufacturer and supplier of the system. U.S. Pat. No. 5,383,116 describes a device for controlling a member in a system. The apparatus or manufacturing system in which a first member executes a desired function or action which is controllable as a function of at least one parameter characteristic for a second member is provided by this system. A first detector detects signals corresponding to values of the at least one parameter of the second member. At least one transmitter receives the detected signals and assigns coded/numbered messages for each value of the parameter. The apparatus further includes at least one receiver with a control module for controlling the desired action of the first member. The signal transmission between the transmitter and the receiver occurs over a connection bus and the signals are transmitted in the form of the coded/numbered messages in a predetermined order, with well-defined transmission times between the first detector and the transmitter and between the transmitter and the receiver. A control unit controls operation of the receiver module and sends thereto at least information regarding a desired parameter value at which a corresponding desired function or action is to be executed by the first member, or a desired message number to be selected. The receiver obtains the requested desired message number or, based on the desired parameter value and the time information for the desired action or function of the first member selects itself and receives a corresponding message number containing the parameter value. Based on the message number, the receiver generates an activation signal for the first member.
U.S. Pat. No. 5,446,846 describes a distributed computer system arrangement, having interconnected module units which perform logical operations at different locations. A serial data bus interconnects all of the modules units through a connecting device which enables the module to communicate over the serial bus. Identification information is stored in a memory to identify the module unit to other module units communicating over the bus. A logic circuit transfers the identification information to the module unit during an initialization phase of the system. Each module need not know where it is being connected along the serial bus, as all information for communicating over the bus is provided by the connecting device.
A marine vessel control system according to U.S. Pat. No. 6,273,771 comprises a marine propulsion system attached to the marine vessel. The propulsion system can comprise one or more outboard motors, jet drives, a sterndrive system, or an inboard propulsion system. The control system further comprises a communication bus which is a serial communication bus on which all messages relating to the control of the marine vessel and its various systems are transmitted. The system further comprises a controller connected to the communication bus. The controller can be a microprocessor associated directly with the marine propulsion system or, alternatively, can be a centrally located microprocessor or a plurality of microprocessors associated in signal communication with each other for control of the marine vessel. A plurality of devices may be connected in signal communication with the communication bus. The plurality of devices comprises input devices and output devices. The input devices provide signals to the controller which are representative of various parameters detected and measured by the input devices. The output devices comprise various actuators that respond to commands from the controller to maintain or change certain physical conditions relating to the marine vessel. These output devices can be pumps, stepper motors associated with the engine's throttle plate, hydraulic cylinders or electric servo motors associated with trim tabs or with the propulsion system to change the trim and tilt of the system, hydraulic actuators used to change the position of the marine propulsion system relative to the marine vessel to affect steering, or any other output device necessary to control the operation of the marine vessel or its various systems. A bus access manager regulates the incorporation of additional devices to the plurality of devices in signal communication with the communication bus, which may be a CAN Kingdom network. The use of a bus access manager addition of components on the bus which were not part of the originally configured system. The controller is effectively connected in signal communication with each of the plurality of devices, both input devices and output devices, that are connected to the communication bus. The prioritization and interpretation of the various signals received by the plurality of devices on the communication bus are regulated by the bus access manager which comprises a CAN Kingdom network. The plurality of input devices connected to the communication bus can comprise a global positioning system (GPS), a weather information source, pitch and yaw sensors, wind speed sensors, light sensors, an internet source, various manual inputs such as switches and levers, a speedometer, a fluid level sensor for sensing the fluid level of fuel and lubrication, motion sensors, smoke detectors, depth sensors, heat sensors, target acquisition radar systems, and a chart plotter. Other input devices capable of providing a signal that is representative of a monitored parameter can also be connected to the communication bus. Individual sensors can alternatively be connected as inputs to one or more microprocessors which, in turn, are connected to the communication bus. In this way, the intermediate microprocessors can receive data from the individual sensors and reformulate the date prior to transmitting the reformulated data to the communication bus for eventual receipt by a primary controller which is connected to the communication bus. Output devices connected in signal communication with the communication bus can comprise a propeller blade pitch control mechanism, running lights, a speed control mechanism such as throttle plate control systems and fuel per cycle control systems, trim tabs, climate control systems, steering mechanisms, lighting fixtures, drive trim mechanisms, and a transmission gear selecting mechanism. Other output devices can also be connected in signal communication with the communication bus, either directly or through an intermediate microcontroller.
Typical propulsion systems for small marine vessels under 1000 horsepower are disjointed and fragmented in terms of integrating all of the engine, drive, and vessel specific functions into the system that can provide the full benefit of such integration. Typically, throttle control, shifting control, and steering control, are individual and separate systems that are not directly related to each other. A propulsion control system can utilize an engine with a controller, or engine control unit, that has full control over engine running conditions in terms of the generated torque and speed provided by the engine. In larger marine vessels, the boat can have two or even three helms instead of just a single helm location. In addition, the marine vessel can be powered by two, three, or four engines, requiring coordination.
Modern marine engines are equipped with a variety of sensors that can be used for the purpose of diagnostics in order to monitor and detect existing or future problems. These sensors can provide valuable information on the state of the health of fuel injectors, spark plugs, lubrication systems, temperature, water and oil pressure, vibration, voltage, electrical power consumption, and many other parameters that can be monitored for the purpose of predicting the onset of a future component failure. The data may be provided by the various sensors and conversion of the data via a serial bus integrated into a display unit placed at the helm of the vessel. The user can obtain automated indication of existing and potential problems and also be provided with information on how to service the engine if such an option is available. Alternatively, the information can be transferred, via a form of wireless link, to a service response center where software can analyze the signatures collected from the variety of sensors and, based on this analysis, determine a diagnostic assessment. The communication can be from the boat to another remotely located device or from a remote device to the boat. This feature can be used to implement a true predictive maintenance system or a “just-in-time” maintenance system and, as a result, reduce the overall cost of the ownership of the marine vessel. The possibility to rerun remote diagnostics will allow the owner or operator of a marine vessel to perform the diagnostic test without actually visiting a repair or maintenance facility. It will also allow a marine repair facility to be prepared for the marine vessel when it is eventually brought to the facility for maintenance or service. This can also be expanded to include not only engine diagnostics, but other vessel subsystems such as electrical motors for hydraulic pumps, bilge pumps, fresh water pumps, trim tabs, and electrical systems on the vessel. With these features, the overall ease of maintenance and operation of the marine vessel will be significantly enhanced and will allow the marine vessel operator to operate the diagnostic systems of the boat subsystems without having to visit a service center.
In
US 2015/0326488, 2016/0198485, 2016/0134562, U.S. Pat. Nos. 9,088,454, 9,031,073, 9,143,384, 9,225,581, 9,258,173, and 9,332,261 disclose a network management module, having a network interface module, memory, and a processing module, which couples to a vehicle communication network.
A multimedia processing module may provide audio, video, text, and/or graphics processing for the vehicle. For instance, the multimedia processing module may support a GPS navigation system, provide rendered video and/or graphic images to displays, processes digital images received by cameras, and/or provides images to other audio/video equipment within the vehicle. The multimedia processing module may be a single processing device or a plurality of processing devices. Such a processing device may be a microprocessor, micro-controller, digital signal processor, microcomputer, central processing unit, field programmable gate array, programmable logic device, state machine, and/or any device that manipulates signals (analog and/or digital) based on hard coding of the circuitry and/or operational instructions. The multimedia processing module may have an associated memory and/or memory element, which may be a single memory device, a plurality of memory devices, and/or embedded circuitry of the processing module. Such a memory device may be a read-only memory, random access memory, volatile memory, non-volatile memory, static memory, dynamic memory, flash memory, cache memory, and/or any device that stores digital information. Note that if the multimedia processing module includes more than one processing device, the processing devices may be centrally located (e.g., directly coupled together via a wired and/or wireless bus structure) or may be distributedly located (e.g., cloud computing via indirect coupling via a local area network and/or a wide area network). When the multimedia processing module implements one or more of its functions via a state machine, analog circuitry, digital circuitry, and/or logic circuitry, the memory and/or memory element storing the corresponding operational instructions may be embedded within, or external to, the circuitry comprising the state machine, analog circuitry, digital circuitry, and/or logic circuitry. In an example of operation, a vehicle control module (e.g., a sensor) generates a packet in accordance with the global vehicle network communication protocol (e.g., formats the packet in accordance with the information regarding a network fabric formatting of the packets. The vehicle control module then transmits the packet via the network fabric in accordance with the global vehicle network communication protocol. For instance, the network fabric routes the packet based on content type of the packet (and the destination address) to another vehicle control module and/or to the multimedia processing module. The unified network fabric may have an Ethernet bus structure (or other packet/frame structure) that enables packet/frame-based communication among the plurality of electronic devices within a vehicle. In addition, the vehicle communication network may be a semi-static network thereby allowing preconfigured spanning trees to be utilized for fast reconfiguration of the network; have configured dedicated bandwidth allocation for at least some of the devices to ensure a particular level of data throughput for mission critical and some non-mission critical applications; support virtualized local area networks; support a centralized and/or distributed bus monitoring system; support security and authentication of device replacement and or new device installment; support lossless Ethernet transmissions through redundant paths; support a low latency protocol for mission-critical packets; and/or support fast link fail-over.
Each processing module may perform one or more functions. For instance, a processing module may perform the electronic control functions for the engine, which include, but are not limited to, engine management, vehicle system operations, engine control, and engine diagnostics. Another processing module may perform user environment electronic control functions, which include, but are not limited to, climate control. Yet another processing module may perform safety related electronic control functions. Still another processing module may perform vehicle operation electronic control functions, which include, but are not limited to, by-wire operations, transmission control, etc.
The wireless coupling between the same modules may be in accordance with one or more standardized wireless communication protocols in the 2.4 GHz frequency band, the 5 GHz frequency band, the 60 GHz frequency band, etc. or a may be a proprietary wireless communication protocol. Standardized wireless communication protocols includes, but are not limited to, IEEE 802.11, Bluetooth, advanced mobile phone services (AMPS), digital AMPS, global system for mobile communications (GSM), code division multiple access (CDMA), local multi-point distribution systems (LMDS), multi-channel-multi-point distribution systems (MMDS), radio frequency identification (RFID), Enhanced Data rates for GSM Evolution (EDGE), General Packet Radio Service (GPRS), WCDMA, LTE (Long Term Evolution), WiMAX (worldwide interoperability for microwave access), and/or variations thereof. For example data may be converted to or from one or more symbol streams in accordance with one or more wireless communication standards (e.g., GSM, CDMA, WCDMA, HSUPA, HSDPA, WiMAX, EDGE, GPRS, IEEE 802.11, Bluetooth, ZigBee, universal mobile telecommunications system (UMTS), long term evolution (LTE), IEEE 802.16, evolution data optimized (EV-DO), etc.) and/or a proprietary communication protocol. Such a conversion includes one or more of: scrambling, puncturing, encoding, interleaving, constellation mapping, modulation, frequency spreading, frequency hopping, beamforming, space-time-block encoding, space-frequency-block encoding, frequency to time domain conversion, and/or digital baseband to intermediate frequency conversion. Note that the module(s) converts the data into or from a single outbound symbol stream for Single Input Single Output (SISO) communications and/or for Multiple Input Single Output (MISO) communications and converts the outbound data into or from multiple outbound symbol streams for Single Input Multiple Output (SIMO) and Multiple Input Multiple Output (MIMO) communications.
US 2016/0112216 discloses a “black-box” gateway device implemented in a vehicle and configured to interface with an engine computer and a plurality of wireless sensors installed in the vehicle. The gateway device can include a transceiver comprising input ports in communication with conductors that interface with the engine computer installed in an engine of the vehicle; radio frequency communications components comprising dual wireless functionality, including a first functionality for communicating wirelessly within the vehicle and a second functionality for communicating wirelessly over a cellular network disposed outside the vehicle; and one or more antennae that receive wireless signals from the radio frequency components. The transceiver can be configured to wirelessly receive sensor data from the wireless sensors disposed within the vehicle, the sensor data providing information associated with functionality of components of the vehicle. The gateway device can include digital logic circuitry programmed with executable instructions that configure the digital logic circuitry to identify one of the wireless sensors associated with the received sensor data; determine whether to transfer the sensor data over the cellular network to a remote vehicle management system based, at least in part, on a comparison of the sensor data to a threshold associated with the identified sensor; and based on a determination that the sensor data satisfies the threshold, transmit at least a portion of the data to a vehicle management system.
In some configurations, the identification of the sensor is based, at least in part, on header information received with the sensor data. In some configurations, the sensor data comprises at least one of a sensor identity, a location of the sensor, or a type of sensor data. In some configurations, the processor is further configured to determine whether to transfer the sensor data by comparing the received sensor data to previous sensor data. In some configurations, the digital logic circuitry is further configured to determine whether to transfer the sensor data to a vehicle management system based, at least in part, on a determination that a difference between the on a comparison between the received sensor data to the previous sensor data satisfies a change threshold. In some configurations, the digital logic circuitry is further configured to determine whether to transfer the sensor data to the vehicle management system based, at least in part, a defined period of time has elapsed since transmission of previous sensor data. In some configurations, the transceiver is configured to receive the sensor data at periodic intervals. In some configurations, the digital logic circuitry is further configured to filter the sensor data received from the sensor to remove entries where a designated portion of the sensor data is the same. In some configurations, the transceiver is configured to receive sensor data from a plurality of sensors disposed within the vehicle. In some configurations, the gateway module is configured to receive vehicle data from a vehicle communication bus and transmit at least a portion of the vehicle data to the vehicle management system. In some configurations, the vehicle communication bus is a Controller Area Network (CAN) bus. The real-time vehicle diagnostic and prognostic analysis features can be used to perform preventive diagnostic analysis of the engine and vehicle. This analysis can be used to identify potential problems within the vehicle and provide a recommended treatment or service before a failure occurs. Any of the systems and processes described herein can be performed in real time or near-real time.
The vehicle data collected by the onboard vehicle analysis module can include vehicle condition information and engine data, such as vehicle year, make, model, engine/drive train, mileage, engine hours, start cycles, and other information related to vehicle condition. The vehicle data can also include check engine lights, fault codes, DTC codes, engine events, service intervals and other data collected from the engine computer. As mentioned above, the vehicle data collected by the onboard vehicle analysis module can also include sensor data obtained from other sensors in the vehicle, such as tire pressure sensors, accelerometers, gyroscopes, temperature sensors, driver identification sensors (for example, that communicate with an ID badge of a driver via RFID or the like), combinations of the same, or the like.
The onboard vehicle analysis module and the vehicle management system can provide or analyze additional data that can be used for diagnostic analysis. For example, such data can include data provided by the manufacturer regarding diagnostic conditions, data obtained by crowd sourcing or otherwise analyzing data provided by a community of fleet vehicles (including, for example, predictive diagnoses based on community analysis of diagnostic trends), or the like. The vehicle diagnostic functionality performed in the vehicle by the onboard vehicle analysis module or at the vehicle management system by the offboard vehicle analysis module can include, among other things, comparing collected vehicle data to a set of conditions in order to perform preventative diagnostic analysis of the vehicle before a failure occurs. For example, the vehicle analysis module can analyze one or more fault codes in combination with data from the engine, such as mileage, engine hours, number of starter cycles, manufacturer data, or other data to determine whether an engine component should be replaced. The vehicle analysis module can further assess the severity or level of a predicted failure, such as whether it may be a catastrophic failure, a moderate failure, or other less serious failure. The vehicle analysis module can also take into account the predictive cost of the effects of the failure in determining whether to recommend repair or replacement. For example, the vehicle analysis module can determine whether the failure would strand a vehicle or driver, and if so, recommend urgent repair or replacement, while recommending less urgent repair or replacement for less catastrophic failures. Thus, the vehicle analysis module can categorize diagnoses by the severity of predicted events, such as catastrophic events requiring immediate attention, major events requiring attention within specified number of days, minor events that can be evaluated at a next maintenance interval, and/or other categorizations. In one example, the vehicle analysis module may determine that a starter engine should be replaced at the next scheduled service interval.
The offboard vehicle analysis module can output the analysis and prognostic information obtained from the onboard vehicle analysis module to a management device operated by a fleet administrator or the like (which may be a mobile device), or any other device configured to receive notifications and updates from the offboard vehicle analysis module. The output can include, for example, diagnostic codes or other diagnoses of vehicle problems, driver warnings, a list of proposed corrective actions, alarms, and/or other information provided by the onboard vehicle analysis module to the system. Similarly, the onboard vehicle analysis module can provide such outputs directly to the driver via an onboard computer (for example, on a display thereof) or a driver's computing device or phone. The outputs to the driver can include any of the outputs described above, as well as optionally navigation directions to dispatch the driver to a repair facility (for example, a nearest repair facility). The output could include a list of options of available service centers to perform the identified services, from which the driver can select and then be navigated to. Depending on the severity of the predicted failure, the outputs to the driver may, for more severe problems, provide rerouting to a nearest approved maintenance facility and navigate the driver to that location. For less severe problems, the outputs to the driver can indicate that maintenance should be performed soon or the like.
The output can also provide information and alerts to vehicle management system or other fleet management personnel. The onboard vehicle analysis module can analyze diagnostic data against one or more thresholds that are to be met prior to proceeding with changes to the vehicle route and/or recommending repairs. The thresholds can be machine-based and/or human-based thresholds. Machine-based thresholds could be determined by algorithms based on factors such as cost, time, energy usage, disruptive effect, and others. Human-based thresholds can include one or more approvals from the driver, vehicle maintenance personnel, management personnel, or others.
In some embodiments, the onboard vehicle analysis module can filter data received from the engine computer and send a subset of the engine computer data (or other in-vehicle sensor data) to the offboard vehicle analysis module. In some embodiments, the onboard vehicle analysis module monitors the data received by the engine computer for changes. In one embodiment, when a change is detected, the updated data can be sent to the offboard vehicle analysis module. For example, if the onboard vehicle analysis module receives data from the engine computer continuously or substantially continuously, the onboard vehicle analysis module may solely send data that was different from a previous set of data to the offboard vehicle analysis module to conserve bandwidth. In another embodiment, the onboard vehicle analysis module sends data periodically, such as once every hour or once every few hours, or even once a day or at longer intervals for measured parameters that change slowly.
The gateway module can be in communication with a radio transceiver via a wireless or a wired connection (for example, with a serial cable or the like). The radio transceiver can include a GPS module. The GPS module can detect vehicle position. In some embodiments, the radio transceiver and/or GPS module can be incorporated into the gateway module. The radio transceiver can communicate with the vehicle management system using various generation cellular air interface protocols (including, but not limited to, air interface protocols based on code division multiplex access (CDMA), time division multiple access (UEMA), global system for mobile communications (GSM), wireband code division multiplex access (WCDMA), code division multiplex access 3rd generation (CDMA2000), time division synchronous code division multiple access (UE SCDMA), wavelength and time division multiple access (WUEMA), long term evolution (LTE), orthogonal frequency division multiple access (OFDMA), and similar technologies). The radio 240 can also communicate with the vehicle management system using TCP/IP protocols and using various communication protocols including, but not limited to, the family of IEEE 802.11 technical standards (“WiFi”), the IEEE 802.16 standards (“WiMax), and short message service (“SMS”). More recent standards include LTE, LTE Advanced, UTMS, 3GPP, 4G, 5G, etc.
The radio transceiver can transmit data received from the gateway module to the vehicle management system. The radio transceiver can communicate vehicle positioning data received from the GPS module to the vehicle management system. The radio transceiver can communicate frequently with the vehicle management system. In some instances, the radio can keep the connection to the vehicle management system open, which can guarantee or attempt to guarantee data reliability. The radio transceiver can transmit data periodically, and/or on an as-needed basis with the vehicle management system. In one embodiment, the radio transceiver is a mobile phone and communicates with the vehicle management system by placing a cellular phone call to a server of the vehicle management system.
The gateway module can include sensors. The sensors can be used to monitor operation of the vehicle. The incorporation of sensors within the gateway module can enable vehicle data to be gathered from the sensors without adding additional wires or optical connections to the vehicle. One example of a sensor that may be included in the gateway module is an accelerometer. An accelerometer can be used to detect hard braking, cornering and acceleration. In some instances, the accelerometer data can be used to update vehicle position data without using GPS data or triangulation technology. For example, the accelerometer can provide for short-term vehicle position reporting that operates without resorting to GPS signals.
At least some of the in-vehicle sensors can communicate with the engine computer or other engine hardware configured to receive and process the data. The in-vehicle sensors can be located remotely and can transmit data wirelessly to the engine computer, the gateway module, and/or other data processing hardware.
At least some sensors can communicate with the gateway module. Some sensors can be used that are provided by third party manufacturers. Thus, the sensors may be aftermarket sensors installed on or in the vehicle after manufacture of the vehicle or may be sensors that are installed with the vehicle at manufacture. The sensors can include wireless adapters for communicating with the gateway module. In some embodiments, the sensors include a wireless transmitter and do not include a wireless receiver. Thus, the sensors may be mere transmitters or may instead be transceivers. Some sensors can broadcast data within a specified vicinity of the sensor, which can be received by the gateway module. The sensors can be powered by a power source independent of the vehicle, such as a battery. Some sensors can use long-life batteries such as lithium-ion batteries that can, in some instances, operate for years without replacement. The sensors can include identification information that can be used by the gateway module for identification of the sensor. In one embodiment, the identification information can be a 12-bit (or other length) address associated with the sensor. The sensor identification information can also include additional information such as the type of sensor, the location of the sensor, and other information associated with the sensor. In some embodiments, the gateway device can use the identification information to form a pairing with the sensor, for example, by reading the identification information in a header of a packet transmitted wirelessly by each sensor to the gateway device.
The gateway module can be in communication with some or all of the in-vehicle sensors. For example, the gateway module can be coupled to an OBDII or CAN bus in the vehicle to thereby receive in-vehicle sensor information from the engine computer. In some embodiments, one or more in-vehicle sensors can be directly coupled to the gateway module, or the gateway module can communicate wirelessly with the in-vehicle sensors. For example, the gateway module could receive cargo bay temperature data from a temperature sensor wirelessly transmitting the data. The wireless sensors can use point-to-point transmission using wireless transmission standards such as Bluetooth or Zigbee.
In some embodiments, the gateway module can receive communications from the sensors using a lightweight communication protocol. The communication protocol can be configured so that the sensor can transmit information to the gateway module without requiring a handshake or acknowledgment. The communication protocol can use various techniques to ensure or attempt to ensure the transmission of uncorrupt data from the sensor to the gateway module. The sensors can communicate on Industrial, Scientific, and Medical (ISM) bands using, for example, ISM protocols. The sensors can communicate using different frequencies from each other in order to help reduce collisions between packets at the gateway device and to help ensure that the sensor data is received at the gateway module intact. The sensors (or the gateway device) may employ error correction coding techniques, such as Reed Solomon coding or checksums to ensure or attempt to ensure that packets are properly sent or received at the gateway device.
The sensors can transmit data at low frequency. For example, the sensors can transmit data on a periodic basis (for example, every minute, every few seconds, or some other interval), on an event basis (for example, when data changes), on a pseudo-random or random basis or a combination of different methods. The sensors can transmit the same sensor data multiple times with an interval between each transmission. The interval between the transmissions can be constant or can vary. Sending the same data more than once can help ensure that uncorrupted data is received by the gateway module. For example, a sensor can send data three times in a row to the gateway module. The intervals between each transmission can be a determined amount of time or at pseudo-random intervals. Even if one of the transmissions of data is corrupted, there is a low likelihood that each of the each of the plurality of transmissions will be corrupted. The sensor data can be transmitted in a determined format, including a header and payload. In some embodiments, the sensor data includes a small amount of information, such as less than 100 bytes of information or even a few bytes in each packet. The header can identify the sensor, location of the sensor, type of sensor data and other information associated with the measurement. Some sensors may transmit multiple types of data, the header can identify the type of data that being transmitted by the sensor. Other information can also be included, such as sensor status information. The sensor status information can identify the operational mode, such as active or sleep mode, low battery, or other types of status information that is unrelated to the data being monitored by the sensor. In some instances, some or all of the data can be included in the header. The payload can include the data associated with the sensor, such as video data, temperature data, pressure data, etc. The gateway module can format and process prior to transmitting the data to the vehicle management server. For example the gateway module can covert the received data to a data format that is compatible with the transmission format used to transmit the data to the vehicle management system via the radio transceiver.
The processor and memory of the gateway module can implement various features. Among others, the processor of the gateway module can perform the operations associated with the vehicle analysis module and the vehicle profiling module described above. The gateway module can act as an intermediary processing platform for the vehicle management system. The gateway module can process the data received from the in-vehicle sensors and send a subset of the total data collected to the vehicle management system. The gateway module can collect hundreds or thousands or more data points from sensors, in-vehicle sensors, and the engine computer. The gateway module can, among other things, analyze, categorize, compress, or otherwise process the data before transmitting it to the vehicle management system. By preprocessing the data prior to sending the information to the vehicle management system, the gateway module can determine what data to send to the vehicle management system, which can reduce redundant processing and bandwidth used to continually transmit vehicle data.
The gateway module can monitor several vehicle characteristics. The sensors can provide information to the gateway module at a specific frequency for each vehicle characteristic; however, the sensors may generally be recording data at a faster rate than the monitored vehicle characteristic is changing. As such, sending all of the data to the vehicle management system every time a sensor provides data can waste bandwidth and provide redundant data points for the vehicle management system to process. Advantageously, in certain embodiments, instead of sending all of this data to the vehicle management system, the gateway module processes the data and selectively updates the vehicle management system. The gateway module can also compress the data that is received. The gateway module can selectively compress portions of the data using wavelet transforms or other compression techniques, including any lossy or lossless compression techniques. For example, the data relating to vehicle characteristics that are slowly changing can be compressed.
The gateway module can process vehicle characteristics according to the rate at which the characteristics change. For example, engine characteristics can range from relatively slower changing characteristics, such as tire pressure or average fuel consumption, to relatively faster changing characteristics, such as engine RPM and speed. The gateway module can provide updates to the vehicle management system using different update approaches for each vehicle characteristic, including periodic updates, threshold-based updates, event-based updates, user-specified updates, and/or a combination of methods.
The protocols used for different applications and by different manufacturers can allow for multi module operation on a single bus. While the Controller Area Network (CAN) bus electrical interface is the prevailing standard, other interface and protocol standards have been adopted by standards committees and manufacturers. These protocols include: J1962; ISO 9141; ISO 14230; ISO 15765-4; SAE J 1939; SAE J1850. These are open standards with prescribed electrical (transceiver) operation and defined protocols.
In the computing environment, one or more in-vehicle devices and management devices communicate with the vehicle management system over a network. The in-vehicle devices can include computing devices installed in fleet vehicles. These devices can include navigation functionality, routing functionality, and the like. The in-vehicle devices can receive route information and other information from the vehicle management system. In addition, the in-vehicle devices can report information to the vehicle management system, such as driver location, vehicle sensor data, vehicle status (for example, maintenance, tire pressure, or the like), and so forth. The management devices can be computing devices used by dispatchers, fleet managers, administrators, or other users to manage different aspects of the vehicle management system. For example, a user of a management device can access the vehicle management system to generate routes, dispatch vehicles and drivers, and perform other individual vehicle or fleet management functions. With the management devices, users can access and monitor vehicle information obtained from one or more of the in-vehicle devices by the vehicle management system. Such vehicle status information can include data on vehicle routes used, stops, speed, vehicle feature usage (such as power takeoff device usage), driver behavior and performance, vehicle emissions, vehicle maintenance, energy usage, and the like. In some embodiments, the management devices are in fixed locations, such as at a dispatch center. The management devices can also be used by administrators in the field, and may include mobile devices, laptops, tablets, smartphones, personal digital assistants (PDAs), desktops, or the like. The vehicle management system can be implemented by one or more physical computing devices, such as servers. These servers can be physically co-located or can be geographically separate, for example, in different data centers. In one embodiment, the vehicle management system is implemented as a cloud computing application. For instance, the vehicle management system can be a cloud-implemented platform hosted in one or more virtual servers and/or physical servers accessible to users over the Internet or other network. The vehicle management system may include a fleet management module, a mapping module, a telematics module, a routing module, a dispatch module, and an integration module. These components can, but need not, be integrated together on a common software or hardware platform.
The fleet management module can include functionality for generating, rendering, or otherwise displaying a vehicle management user interface. The vehicle management user interface can include a map or list of vehicles that depicts symbols or other data representative of vehicles. As used herein, the terms “output a user interface for presentation to a user,” “presenting a user interface to a user,” and the like, in addition to having their ordinary meaning, can also mean (among other things) transmitting user interface information over a network, such that a user device can actually display the user interface.
The system may provide remote vehicle prognostics. The system can use vehicle data for real-time pattern recognition. The vehicle data can include in-vehicle data and other vehicle data accessed over a network. The system can compare a single vehicle's data against other like vehicles to determine exceptional condition, behaviors, and potential failures. A system running remote vehicle prognostics to collect data at a configurable rate (such as 1 Hz) could monitor for out-of-threshold conditions to determine exceptional events based on patterns that match. Vehicles equipped with a remote vehicle prognostics system could provide data to network-based data repository of “community” data that could help supplement the external data pattern recognition. The system can utilize external and vehicle profile data sources to compare against vehicle data. The external data can include databases with OEM/factory (or other derivative) vehicle specifications and operating thresholds. The external data can also include vehicle profile data from vehicles that participate in the RVP community would supplement external data sources. Vehicle profile data could include historical data of operating thresholds deemed normal. Environmental data could also be applied to determine like conditions of vehicles and provide further context of recognized patterns. Combined data could relate to potential failure based on like-vehicle configurations and information which led up to breakdown events, safety concerns. For example, based on a pattern identified for starter seizures, the remote vehicle prognostics could look for operating and environmental conditions that matched a pattern. The Maintenance profile could use real time engine data. Additionally, preventative maintenance schedules and alerts could be provided to the operator and the network based system. The available data sources could include external sources, such as OEM specifications. Vehicles equipped with remote vehicle prognostics could provide additional detail to supplement the “community” data and add to pattern recognition. A vehicle can provide self-profiling information that would also be used to identify operating characteristics outside of defined ranges to provide alerts for the maintenance profile. The environmental profile relates to providing information about environmental conditions, such as driving in rain, snow, ice, and operational characteristics associated with the conditions, such as excess speed, traction control system is disabled, etc. Combined conditions could be analyzed to provide real time indicators to operators (and back to the network-based system) of unsafe operation. Combined conditions could also be applied to the Mechanical, Maintenance and Safety profiles as a factor in pattern identification. Data sources can include external data (weather, road, etc.), vehicle engine data, and additional on-vehicle sensors.
U.S. Pat. No. 9,014,906 discloses a data acquisition device that may detect the particular type of communications protocol employed by ECM, and automatically adapt to the detected protocol in order to communicate with ECM. In these circumstances, data acquisition device may be installed in any one of a number of different types of vehicles, e.g., a class 8 large truck, a class 1 car, or the like, and the installer's act of connecting cable to the vehicle's ECM may prompt the control circuitry of data acquisition device to automatically recognize the type of vehicle in which it is installed. As such, some examples of data acquisition device need not be manufactured or preprogrammed in a vehicle-specific manner. For example, in some implementations, ECM may implement a controller area network (CAN), a local interconnect network (LIN), a vehicle area network (VAN), FlexRay, J1939, ISO-11783, domestic digital bus (D2B), IDB-1394, SmartWireX, MOST, J1850, ISO-9141, J1708, J1587, SPI, IIC, or any other communications protocol for communicating with data acquisition device through data bus. These communications may be further passed on to a portable wireless data transfer and display device. The data acquisition device may detect the combination and/or signal levels implemented over data bus, may analyze incoming data traffic, and/or may query ECM using various protocols and receive corresponding responses in order to determine the protocol in use by ECM.
The data acquisition device may be configured to simultaneously communicate via multiple protocols at once of one or more engine control modules. For instance, data acquisition device may be configured to communicate via the J1939 and J1708 protocols at the same time. This feature may be useful, for example, for a vehicle in which ECM communicates in two different protocols, e.g., communicates some information (braking information) on one engine bus and other information, e.g., fuel information, on another engine bus. Also, this feature may be useful when a single vehicle includes multiple ECMs that employed different protocols. Thus, data acquisition device may to gather some vehicle information appears on one engine bus, and to gather other vehicle information on another engine bus.
U.S. Pat. No. 8,914,170 discloses a railway telematics system. Data communicated between the vehicles may be network data. In some embodiments, “network data” includes data packets that are configured in a designated packet format. For example, data may be packaged into a data packet that includes a set of data bits that are arranged to form a control portion and a payload portion. The control portion of the data bits may correspond to addresses (e.g., source, destination), error detection codes (e.g., checksums), and sequencing information. The control portion may be found in packet headers and trailers of the corresponding data packet. The payload portion of the data bits may correspond to the information that was requested and/or is used by the vehicle system for a designated purpose, such as for making operational decisions and/or for controlling operations (e.g., tractive efforts, braking efforts, and the like) of the vehicle system. The payload portion may include operating data. Operating data may include different types of data from various components of a vehicle system that are used to control operation of the vehicle system. For example, the operating data may include information from sensors that indicates a performance level or state of a component of the vehicle system. For instance, pressure sensors may be configured to transmit signals indicative of a performance of a braking system (e.g., current brake line pressure). Fuel sensors may be configured to transmit signals that are indicative of a current fuel level or current fuel efficiency. In rail vehicle systems, sensors coupled to the engine or motors may transmit data that indicates a notch (or throttle) level of the rail vehicle system. Sensors may also be coupled to various elements of mechanical systems (e.g., motors, engines, braking systems) and transmit signals when a corresponding element is properly operating and/or has failed. Operating data may also include information from data radios and global positioning system (GPS) units. GPS units may transmit information describing or indicating a position of the vehicle system. Data radios may transmit information regarding one or more different vehicles of the vehicle system.
The payload portion, however, may include other types of data. For example, the payload portion may include planning data that is used by a controller of the vehicle system to generate and/or modify a trip or mission plan. The trip or mission plan may designate operations of the vehicle system over the course of a trip along one or more routes (e.g., tracks, roads, waterways, or the like) in order to achieve some goal, such as to reduce fuel consumption, emissions generation, required shift changes between different teams of operators of the vehicle system, and the like. For example, a trip plan may designate tractive output (e.g., tractive effort, power output, speed, acceleration, and the like) and/or braking effort as a function of time elapsed during the trip and/or distance along a route of the trip such that, if the vehicle system actually operates according to the designated operations (e.g., designated operational settings), the vehicle system will reduce the amount of fuel consumed, reduce the amount emissions generated, reduce the number of times that the vehicle system must stop to change out one or more human operators of the vehicle system, or the like, relative to another, different trip plan that designates one or more different operations of the vehicle system.
The planning data that is used to generate and/or modify a trip plan can include at least one of vehicle data, route data, or trip data to generate the trip plan and may also include the operating data described above. Vehicle data may include information on the characteristics of the vehicle. For example, when the vehicle system is a rail vehicle, the vehicle data may include a number of rail cars, number of locomotives, information relating to an individual locomotive or a consist of locomotives (e.g., model or type of locomotive, weight, power description, performance of locomotive traction transmission, consumption of engine fuel as a function of output power (or fuel efficiency), cooling characteristics), load of a rail vehicle with effective drag coefficients, vehicle-handling rules (e.g., tractive effort ramp rates, maximum braking effort ramp rates), content of rail cars, lower and/or upper limits on power (throttle) settings, etc.
Route data may include information on the route, such as information relating to the geography or topography of various segments along the route (e.g., effective track grade and curvature), speed limits for designated segments of a route, maximum cumulative and/or instantaneous emissions for a designated segment of the route, locations of intersections (e.g., railroad crossings), locations of certain track features (e.g., crests, sags, curves, and super-elevations), locations of mileposts, and locations of grade changes, sidings, depot yards, and fuel stations.
Trip data may include information relating to a designated mission or trip, such as start and end times of the trip, start and end locations, route data that pertains to the designated route (e.g., effective track grade and curvature as function of milepost, speed limits), upper cumulative and/or instantaneous limits on emissions for the trip, fuel consumption permitted for the trip, historical trip data (e.g., how much fuel was used in a previous trip along the designated route), desired trip time or duration, crew (user and/or operator) identification, crew shift expiration time, lower and/or upper limits on power (throttle) settings for designated segments, etc.
U.S. Pat. No. 9,092,914 discloses a system and method used to recognize a vehicle defect or a vehicle inefficiency based on a comparison of the vehicle's operation at a given location with previous records of the vehicle's operation at the same location. A comparison to similar vehicles may also be used to detect a defect or determine vehicle inefficiency. As a vehicle travels along a route, measurements of the vehicle's operating parameters are recorded along with the vehicle location that corresponds with each recorded measurement. In this way, a log of the vehicle's performance at a known location is created. Entries in the log may be compared with a log or a series of logs for the same vehicle for previous trips along the same route. Alternatively, or additionally, the log may be compared with a log or a series of logs for other vehicles that have previously travelled the route. The other vehicles may be the same make, model, and type as the vehicle. Or, the other vehicles may be comprised of different makes, models, and types. In the latter case, the measurements in the logs may be compensated or adjusted for a more accurate comparison between the two vehicles.
A comparison of current measurements with previous measurements recorded at a given location may show that the vehicle has suffered a malfunction, defect, or other issue that is diminishing vehicle efficiency. For example, if the speed of an automobile is fifteen percent lower at a given location on a current trip versus a previous trip, then the automobile's engine may be damaged. The comparison may take into account, for example, the vehicle's weight and throttle position, and external factors, such as wind speed and direction, to reduce the likelihood of a false positive detection of a deficiency. An indication may be made to the vehicle operator that there may be a defect in the vehicle that is causing the apparent deficiency. The indication may also be transmitted via a network to a remote server that may be monitored by the vehicle's owner or maintainer. The vehicle may take any number of forms, including, as examples, a bus, truck, van, mini-van, sports utility vehicle (SUV), helicopter, airplane, construction vehicle, boat, trailer, all-terrain vehicle (ATV), motorcycle, moped, tractor, hybrid vehicle, electric vehicle, ambulance, marine vessel, boat, submarine, or other vehicle.
On-board device may communicate with any number of communication networks, including communication network, which may take any number of forms such as a cellular network. On-board device may communicate according to any number of communication protocols, standards, networks, or topologies. As examples, on-board device may communicate across cellular networks or standards (e.g., 2G, 3G, Universal Mobile Telecommunications System (UMTS), GSM Association, Long Term Evolution (LTE), or more), WiMAX, Bluetooth, WiFi (including 802.11a/b/g/n/ac/ad/ax or others), WiGig, Global Positioning System (GPS) networks, and others available at the time of the filing of this application or that may be developed in the future. On-board device 120 may include processing circuitry, data ports, transmitters, receivers, transceivers, or any combination thereof to communicate across any of the above-listed protocols, standards, networks, or topologies. The on-board device may also collect any vehicle data, such as performance statistics, route information, position data, traffic data, and others. In one example, on-board device may include telemetry functionality to collect and/or send vehicle data. These telemetry functions may include measurements or records of speed, direction, acceleration, pitch, yawl, and roll, and measurements or records of rate of change for speed, direction, acceleration, pitch, yawl, and roll. On-board device includes a sensor interface that may interface with one or more sensors in the vehicle. These sensors may include pressure sensors, gyroscopes, temperature sensors, voltage and current monitors, magnetic sensors, microelectromechanical sensors, mechatronic sensors, position sensors, and compass sensors. These sensors are merely exemplary and the embodiments are not limited to those sensors listed herein. Via sensor interface, on-board device may collect various operating parameters that may be stored in a database, memory, or transmitted over a communication network and stored in a remote database. The database may be operated or maintained by the owner of vehicle. Alternatively, database may be operated or maintained by a third-party that may grant access to database to commercial or private operators and owners of vehicles. Database may be distributed, such as in a cloud of distributed, networked computer servers.
The various operating parameters of the vehicle operation may include, for example, speed, velocity, direction of travel, acceleration, throttle position, brake pedal position, temperature of components in the vehicle, ambient temperature, pressure and/or levels of vehicle fluids (both liquids and gases), vehicle weight, occupancy, measurements of the vehicle's electrical system, fuel efficiency, exhaust measurements, noise measurements, and wind speed. These operating parameters listed are merely exemplary. On-board device associates a location with the operating parameter measurement that was recorded when the vehicle was at that location. Thus, on-board device may create a log of locations and corresponding measurements as the vehicle travels along a route. This log is stored in database or memory, or is uploaded to database over communication network.
If a vehicle is traveling along a route that the vehicle previously travelled, the on-board device may retrieve the logs corresponding to that route for that vehicle. As the vehicle travels along the route for the nth time, the on-board device collects measurements of operating parameters and the corresponding location (e.g., in GPS coordinates) for each measurement. During this time, on-board device may compare the log for the current trip with those logs from previous trips. On-board device may perform an analysis of the data to determine whether there are any anomalies in the current log as compared to past logs. For example, if the fuel efficiency of the vehicle is suddenly far lower than on previous trips, the vehicle may have suffered a defect or malfunction. On-board device may compensate for certain factors, such as vehicle weight, throttle position, wind velocity (speed and direction), and vehicle speed, to prevent or reduce the occurrence of false positive identifications of defects or inefficiencies. Alternatively, on-board device may upload the relevant data via communication network to a remote server or processor to perform the analysis of the recorded operating parameters. The on-board device may also consider recorded operating parameters at locations along a given route of other vehicles. For example, if vehicle is traveling along a new route for which no logs exist for vehicle, on-board device may access logs for other vehicles that have travelled the route for comparison with the operating parameters of vehicle. On-board device may advantageously access logs for vehicles having, for example, the same make, model, type, and approximate mileage as vehicle. Alternatively, on-board device may access logs for broader groups of vehicles that include vehicles of a make, model, type, and/or approximate mileage that is different from those of vehicle. On-board device or some other device, such as a server or processor in communication with communication network, may perform a compensation calculation on the logs of other vehicles so that the comparison with the log from vehicle is more meaningful. For example, individual logs for vehicles of other types may be compensated based on the weight and horsepower of the vehicles. Heavier vehicles or vehicles with greater horsepower may have lower fuel efficiency. Fuel efficiency data from vehicles that are heavier than vehicle should be compensated given the weight difference. Such a comparison may be particularly useful for identifying defects when the fuel efficiency of a lighter vehicle is worse than the fuel efficiency of a heavier vehicle with greater horsepower. On-board device may perform a statistical analysis of the data collected for various operating parameters of vehicle. For example, on-board device may compute the mean, median, and standard deviation of a set of measurements for a given operating parameter. The set may be limited to measurements that were recorded when the vehicle weight was within a predetermined range. Other vehicle parameters may also be accounted for when computing such statistical values. For example, statistical values may be computed for a set of measurements recorded when vehicle is within ten percent of 300 kilograms. Other boundaries or thresholds, such as ambient temperature and wind speed and direction, may be used to limit the set of measurements from which statistical values are calculated. A set of forces acting on vehicle may be considered as predetermined boundaries for validating the statistical values.
When vehicle is operating under conditions that validate a set of statistical values, the current measured operating parameters may be compared against the statistical values to determine whether a defect or inefficiency exists in vehicle. For example, if the vehicle has a speed of 60 miles per hour with a throttle position of 40 degrees at its current location, then the vehicle's speed-to-throttle ratio may be compared against the mean speed-to-throttle ratio at the current location. If the speed-to-throttle ratio is greater than a predetermined number of standard deviations from the mean, then a defect or inefficiency caused by a defect may be recognized. Other statistical analyses may be performed to detect defects. For example, data may be adjusted, compensated, or normalized based on external and internal forces acting on vehicle to improve the accuracy of the comparison. The advantage of adjusting, compensating, or normalizing data and measurements based on such variables, for example, as vehicle weight or ambient temperature, is to make the comparison of prior logs to the current log more accurate and meaningful, i.e., so that the system is comparing “apples to apples” and “oranges to oranges.”
U.S. Pat. No. 9,311,670 discloses various aspects of communications systems and telematics systems, for example. In some cases, the technologies may advantageously be used to provide a protocol for efficient or optimized communications. In addition, telematics systems employing the protocols are disclosed, e.g., Third and Fourth Embodiments. Also discussed are data analysis technologies.
US 2016/0241699 discloses a device, system and method for providing wireless data transfer service for mobile devices by using the WWAN and WPAN communications capabilities of in-vehicle telematics systems. This invention will allow data transfer services in situations where the mobile device does not have WWAN capability and in situations where there is a desire not to use the WWAN capability of a mobile device, i.e., the mobile device is a non-secure personal device. This invention will enable businesses to allow its mobile workers to use a variety of mobile devices to run certain authorized, i.e. business-specific, applications to make the mobile workers and the business more efficient and effective. An in-vehicle telematics device is plugged into a diagnostic port of a vehicle, such as an OBD-II port or a J1939 port. Most personal vehicles have OBD-II ports located near the engine or the dashboard. Commercial vehicles will generally have a J1939 diagnostic port. In an embodiment, one component of the telematics device is the communications electronics to support a WWAN connection over one or more of the standard cellular data protocols that are available. Another component is the communications electronics to support a WPAN connection over standard wireless data protocols such as Bluetooth or Wi-Fi. Through these components, the in-vehicle telematics device is able to establish a WWAN connection to a remote server and a WPAN connection to a mobile device. An additional component or feature of the in-vehicle telematics device is software that supports a secure and authenticated WPAN connection between mobile devices running specified software applications that are designed and authorized to utilize such a connection and designed to refuse or disallow a connection from any other mobile devices and/or software. In this embodiment, an additional feature of the in-vehicle telematics device is a software application-programming interface (“API”) that provides low-level access to many of its components. In this embodiment, an authorized app on a mobile device, such as a business-specific app that is designed to use the API, has the ability to send commands to the in-vehicle telematics device via the WPAN connection and request a network connection from the WWAN component. In this example, once a WWAN connection has been provided to the authorized app, it can send and receive data to/from a remote server without a mobile device having or using its own WWAN capability. The in-vehicle telematics device includes components that support the electronics and associated software required to capture and log a variety of telematics data such as GPS information (e.g., location, speed, and heading); accelerometer & gyroscope data (e.g., acceleration, deceleration, yaw, cornering force); and vehicle data (e.g., vehicle identification, fuel level, fuel efficiency, active engine diagnostic codes, etc.). This data is captured, logged, and transmitted via the WWAN connection established through the in-vehicle telematics device to a centralized computer system for subsequent review and analysis. An app may be loaded on a mobile device wherein the app is designed and authorized to use the API for the in-vehicle telematics device and has the ability to make requests from specific components of the in-vehicle telematics device via the WPAN connection. Such requests may include real-time GPS information (e.g., location, speed, and heading) and real-time vehicle information (e.g., vehicle identifier, fuel level, active engine diagnostic codes, etc.). An app on the mobile device may be authorized and designed to use the API for the in-vehicle telematics device and has the ability to access previously logged vehicle telematics data via the WPAN connection. The app may be authorized to use the WPAN provided through the in-vehicle telematics device by making the connection through the API by providing a required security token.
Therefore, it is clear that land vehicle telematics systems are reasonably well developed. However, while previous disclosures seek to extrapolate to marine vessels, the fundamental issues differ, and therefore the proposed solutions may be ineffective. In a marine vessel environment, net fuel costs for a voyage may be a key parameter. In contrast to automotive propulsion, typical cruising speed is not limited by an arbitrary speed limit (except in defined coastal channels, for example) or safety per se, but rather the efficient design speed for the vessel under the load, conditions, etc. On the other hand, there is a range of speeds and some flexibility in route planning that is available to a mariner. In a commercial context, the operating costs of a vessel include not only the fuel, but also crew and mission constraints. Therefore, the optimization of a marine vessel using a telematics system is typically quite distinct from land vehicles.
US PATENTS AND PUB. APPS. INCORPORATED BY REFERENCE (37 CFR 1.57(C), (D), (E)) U.S. Pat. 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The present invention relates to a system and method for acquiring, managing, analyzing and using data obtained from components of a vehicle. The invention comprises various combinations, subcombinations, permutations and modifications of the various elements as disclosed herein. The various references cited herein are each expressly incorporated herein by reference in their entirety, and the various element and technologies disclosed therein are part of the disclosure of the invention, and can be used in place of or together with the various elements and technologies as consistent with the present disclosure and claims.
One aspect of the technology provides an interface to a controller area network within the vehicle, which, for example, provides messages regarding an engine state, fuel system state, and other information. The controller area network also permits control signals to be sent from a controller device to the vehicle components, though typically this option is not employed, due to potential safety and reliability issues. Further, the present technology may itself be implemented as a distributed network system, and advantageously may intercommunicate between subcomponents through the controller area network. The controller area network may itself be a CAN bus type system, implemented according to various industry standards or proprietary protocols. In such systems, a standard type electronic interface specification may be employed, though with different electrical connectors, messages, and protocol details.
Characteristic of controller area network messages is that they tend to be short, and therefore require context for interpretation, and are part of a real-time control system with asynchronous operation, that is, the messages on the bus require prioritization so that critical messages do not encounter congestion that would case the system to lapse from criteria for real-time response.
Therefore, a device according to the present technology that acquires information from the bus (without itself being the designated target or endpoint) can operate without materially adversely impacting the controller area network, but any messages or communications sent over the bus should comply with express or implied protocol constraints. Controller area networks tend to be implemented within proprietary systems, and the technology according to the present invention may be added to the controller area network aftermarket, so that the manufacturer which implemented the controller area network would typically not have tested and fully qualified the additional device for its system. Therefore, the technology may employ a learning system which monitors the controller area network bus to determine bus operation characteristics, and typically implement its functionality within the headroom of the network without competition or contention with native messages.
In some cases, the present technology will be implemented to add new critical functions to an existing “legacy” system, and these functions may be considered to have higher priority than certain native messages. Therefore, deference to native messages and communications is not a limiting constraint, rather a desirable design practice.
Further, in some cases, the present technology remediates defects of a “legacy” control system, and acts to override or suppress certain native messages. In that case, the technology may implement certain types of interference which prevent a message from being successfully communicated. For example, the technology may intentionally interfere with the message to prevent successful receipt, and then send a false acknowledgement to prevent retransmission. Typically, the technology will instead send a modified or alternate message, which might suppress any request for retransmission. Thus, the technology may be implemented as a “man in the middle”.
The present technology also provides an improvement and/or addition to a typical controller area network communication protocol, with cryptographic endpoint verification. That is, messages, acknowledgements, and requests for retransmission may be sent which are digitally signed by a verified sender or target, and thus more immune from “man in the middle” circumvention. In many cases, communications over the controller area network bus are not subject to acknowledgement, and for example may be broadcast over the bus. In this case, suppression of messages may be implemented by non-protocol-compliant interference designed to suppress any hardware or protocol based error or collision detection.
The present technology also provides a controller area network bridging and routing function, to permit the controller area network messages to be communicated beyond the physical limits of a single hardware bus. For example, in case of a physical failure of the bus, or a required extension of the bus, a bridge or extender function may be implemented in a wired or wireless network, without physically modifying the existing bus, with the exception of adding a new node. In this case, the technology would typically pass messages between portions of the bus, and therefore should comply with express and implied protocol constraints. Therefore, data from new sensors may be logically added to the bus, or new controlled actuators logically added to the bus. Advantageously, the additional functionality may be suppressed during conduct of a legacy diagnostic mode (that does not contemplate addition of new sensors or actuators), and incompatible communications and commands suppressed to ensure compatibility.
CAN bus is described in en.wikipedia.org/wiki/CAN_bus and www.can-wiki.info/doku.php, expressly incorporated herein by reference. NMEA 2000 is describe in en.wikipedia.org/wiki/NMEA_2000 and www.nmea.org/Assets/july %202010%20nmea2000_v1-301_app_b_pgn_field_list.pdf, expressly incorporated herein by reference.
The GPS system is generally described in en.wikipedia.org/wiki/Global_Positioning_System. More generally, there are a number of global navigation satellite systems. en.wikipedia.org/wiki/Satellite_navigation.
The system typically provides a database stored in non-volatile memory, such as flash memory. See, en.wikipedia.org/wiki/Flash_memory.
A remote data telecommunication interface may be implemented through cellular, satellite communications, wired network, wireless local area networks (e.g., IEEE-802.11 family), personal area networks (e.g., IEEE-802.15 family), VHF and maritime band radios, etc. In general, LAN and PAN radio frequency communications are ineffective for the remote data telecommunications due to range limitations, except when near shore.
A structured query language database interface may be provided. See, en.wikipedia.org/wiki/SQL, en.wikipedia.org/wiki/SQLite. The system may monitor the controller area network interface bus for messages. The system may further filter the messages, and extract information messages from the filtered messages. The system may store at least a portion of the extracted information in the database in conjunction with time information, and the geolocation information. The system may further generate a structured query to the structured query language database interface to retrieve the stored extracted information. The system may process the retrieved stored extracted information with respect to at least one statistical model. The system may execute at least one telecommunication rule with respect to a selective communication of at least a portion of the stored extracted information over the remote data telecommunication interface to a remote database. The telecommunication rule may be a telecommunications cost sensitive telecommunication rule.
The system may, in a local analysis mode, propose a change in a current operating parameter for the vehicle based on at least the statistical model, extracted information messages, the determined geolocation, a predicted fuel cost, and at least one of a mission constraint, a non-fuel cost of operations for the vehicle, and a non-fuel net benefit of operations of the vehicle.
The system may, in a remote analysis mode, receive a message through the remote data telecommunication interface of a proposed change in a current operating parameter for the vehicle based on at least a database of operational parameters for a plurality of vehicles, the extracted information messages in the remote database, the determined geolocation, a predicted fuel cost, and at least one of a mission constraint, a non-fuel cost of operations for the vehicle, and a non-fuel net benefit of operations of the vehicle. The vehicle may be a marine vessel. The device may further provide at least one of a personal area network interface, and a local area network interface, wherein the at least one automated processor receives sensor data through the at least one of the personal area network interface and the local area network interface, and includes the sensor data with the extracted information in the database in conjunction with the time information and the geolocation information. The remote data telecommunication interface may be a satellite radio communication system interface, and/or provide connectivity to or through the Internet.
The selective communication of the at least a portion of the stored extracted information over the remote data telecommunication interface may communicate the at least a portion of the stored extracted information to a cloud database. See, en.wikipedia.org/wiki/Cloud_computing. The cloud database may be accessible through the Internet.
The system may further include at least one of a personal area network interface (e.g., IEEE-802.15 family of standards, see en.wikipedia.org/wiki/Personal_area_network, en.wikipedia.org/wiki/IEEE_802.15) and a local area network interface (e.g., IEEE-802.11 family of standards, see en.wikipedia.org/wiki/Wireless_LAN, en.wikipedia.org/wiki/IEEE_802.11).
The system may have at least one automated processor configured to provide a human user interface to a portable interface device by communications through the at least one of the personal area network interface and the local area network interface. A human user interface is not strictly required, but may facilitate setup, diagnostics, and use, as well as provide additional functionality for a user. See, en.wikipedia.org/wiki/User_interface. Such user interfaces may be called “virtual user interfaces”, because the device presenting the user interface is distinct from the target of the interface communications. Indeed, the system that generates the user interface structures, which may be HTML, JAVA/Javascript, or other interface language or page description language, may itself be distinct from the target device.
The processor of the system may extract at least all engine and fuel information from the messages on the controller area network interface bus. That is, the system may selectively capture relevant or contextually relevant messages, which for a fuel management system comprise the engine and fuel messages, but for example, not entertainment system messages. Examples of context dependent messages are, for example, sewage tank level messages. Such messages may be important, especially when the vessel is near a sewage deposit facility, but are less relevant during a voyage where there are few if any action options. For the information which is acquired and filtered, the messages are typically aggregated over a period of time, which may be less than a second to minutes or hours. Typically, the messages are aggregated into a record, and stored periodically. For example, fuel and engine system messages may be generated asynchronously every 200 mS. The system may capture these messages, and every second, statistically process the aggregated messages to define a record which is stored in the database. If the data appears anomalous, or is indicative of operation outside of a normal or expected range, individual messages may be retained, though typically these would be recorded in an error or anomaly log, and not in the regular periodic message database. This is because the subsequent processing to the periodic message database may or may not be tolerant of potential artifacts in the data, while error processing and analysis typically would seek to analyze the raw message stream. Therefore, the processor analyzes the messages in real-time, and on one hand, filters potentially anomalous messages, through, for example, processing in accordance with a statistical data model, error detection and correction, etc., to define a “clean” database which can be accessed for normal operation purposes. Evidence of possible errors, artifacts, anomalies, and deviations, may trigger a raw data recording mode or alternate message processing and storage mode, separate from the statistical data filtering and storage of periodic records in the SQL database, and the messages may then be subject to non-statistical processing and perhaps uploaded to a remote server for detailed analysis. Assuming that the system is not aberrant, all engine and fuel information may be aggregated into periodic records, and stored as the extracted information in the database. If an aberrant condition is detected, the processor has various options with respect to the records to be stored in the database. Since early indications of such conditions may represent system noise or transient conditions, which are not indicative of problems, the records may be stored in the database with filtering and error correction in accordance with a statistical model of the normal range of operation, optionally with a flag indicating the synthesis. As further data is received, the processor may determine that a true problem is emerging. In that case, further records may be stored without an underlying presumption of normal operation, and the previously stored “error corrected” records may be reprocessed to indicate the onset of aberrancy. Alternately, the statistical filter may be used to detect the immediate onset of aberrant data, and immediately indicate the issues in the records in the database. In the former case, there will be a latency in the database reflecting the issues, but false positive indications will be low, and true positive indications reliable. In the latter case, ancillary processing and analysis systems and remote communications will better reflect current status, but may have a high false positive rate with relatively lower quality of qualitative determinations. Of course, the processor may provide both types of output concurrently, with the target device for the database selecting which set of records is most appropriate. It is noted that the statistical model implemented by the processor may be adaptive and finely tuned, such that the processor has high discrimination of emergence of aberrant conditions, and therefore the ancillary devices may rely on determinations made by the processor.
In typical operation, the remote database is limited to receipt of stored records from the database, and therefore this scheme places high reliance on the local processor to detect deviations from normal. Therefore, in an additional mode of operation, error/anomaly logs which include unfiltered/raw data and messages may also be uploaded to the remote server for analysis.
The system may be used to improve efficiency of the vessel, and in a commercial context, profits from use of the vessel. A key cost of operation is marine fuel and the cost of that fuel, e.g., the unit cost of fuel, such as dollars per gallon, may be manually or automatically input. In an automatic system, a remote database may store fuel prices at various locations, and guide the user to lowest cost fuel as may be appropriate, bearing in mind the travel cost and time incurred. Other costs of operation include manpower cost, and for longer voyages, vessel costs and opportunity costs for a selected use of the vessel. Beyond an optimum speed, fuel efficiency of a vessel (miles or knots per gallon) declines rapidly. However, other costs of operating the vessel are time sensitive, and faster speeds may reduce overall mission duration. On the other hand, in some cases, the duration is not dependent on speed. By factoring in both fuel costs and an economic equivalent of urgency, a target “optimum” speed and fuel consumption may be calculated. This may be conveyed to the vessel operator, or provided as a self-optimizing throttle control, especially for cruising. The operating cost (or urgency benefit, especially for leisure boating) of the vessel per unit time requires external input to the system since the manpower cost or benefits may not be available through calculations. The system then calculates an estimated mission cost as a function of at least an estimated total fuel cost and an estimated total time cost, as a function of operating conditions of the vehicle over an operating range. That is, over a range of available and feasible operating conditions (including navigational choices), how much fuel will be consumed and how long will it take? Then the operating conditions may be optimized using this information to achieve a lowest estimated mission cost within the operating range. Typically, the output is a suggestion and not an automatically implemented control output. However, the system may be integrated within an autopilot system within safe and reasonable constraints. Automated control may be used, for example, to optimize relationship of the craft to wind, currents, other vessels, sea conditions and weather, etc. For example, the optimum is often expressed in terms of an engine RPM. However, depending on wind and currents, and also navigational route, this does not have a direct correspondence to time, which is an independent variable that impacts a cost-benefit optimization. Since many of these conditions cannot be known in advance, the control system may perform a real-time optimization of engine speed, and perhaps navigational route and other ship systems.
In some cases, the vessel is not only a commercial vessel, but the benefits (e.g., revenues) from operation are variable. For example, a fishing vessel has an optimum route and speed dependent on fuel costs, manpower costs and vessel costs (though these may be fixed), as well as anticipated catch. For example, the highest yield fishing area may be further from harbor than an alternate, yet require additional cruising time and additional fuel consumption to reach the fishery. If the vessel is to go at all to the anticipated high yield region, how fast should the vessel go to optimize the profits of the vessel? Therefore, using an optimization criterion, or multiple optimization criteria, the costs may be optimized (minimized), or the cost-benefit optimized (profit maximized).
Thus, according to one embodiment, a per unit fuel cost is input or determined, along with an estimated time cost function (e.g., how much does it cost per hour to run the vessel), and an estimated revenue function (e.g., what are the independent variables associated with vessel revenues). The processor then calculates an estimated mission profit dependent on at least an estimated total fuel cost, an estimated total time cost, and an estimated revenue, as a function of operating conditions of the vehicle. This typically takes the form of an equation or graph, of estimated mission profits, with the estimated total fuel cost, estimated total time cost, and estimated revenue being dependent on the operating conditions. Based on this function or graph, the operating conditions may then be optimized to achieve a highest profit as a function of the estimated revenue, the estimated total time cost and the estimated total fuel cost at the optimized operating conditions.
According to another embodiment, fuel cost parameters and estimated time cost parameters are received, and a range of estimated mission costs calculated comprising an estimated total fuel cost, and an estimated total time cost, as a function of a range of operating conditions of the vehicle. The operating conditions may then be optimized with respect to an optimization parameter and the estimated mission cost at the optimized operating conditions. The calculated range of estimated mission costs may be calculated dependent on a record of actual historical operating cost parameters for the vehicle. The range of estimated mission costs comprising an estimated total fuel cost, and an estimated total time cost, may be calculated as a function of a range of operating conditions of the vehicle dependent on a record of actual historical operating cost parameters for other vehicles.
The remote data telecommunication interface comprises a cellular telecommunication system. See, en.wikipedia.org/wiki/Cellular_network, en.wikipedia.org/wiki/Mobile_broadband; en.wikipedia.org/wiki/3G, en.wikipedia.org/wiki/4G, en.wikipedia.org/wiki/5G.
The at least one telecommunication rule may comprise synchronizing the database with the remote database only over remote data telecommunication interface connections having a communication cost below a predetermined threshold. That is, complete synchronization preferably occurs where the communication costs are negligible or free. For example, shore WiFi, or wired Ethernet access typically has sufficiently low communications costs to permit a complete synchronization.
The at least one telecommunication rule may comprise transmitting a subset of the retrieved stored extracted information to the remote database over a metered remote data telecommunication interface connection, selectively in dependence on an estimated communication cost. That is, satellite data communications and metered cellular usage typically impose usage costs or caps that limit massive data communication usage, and therefore a communication mode is employed which incurs communication costs as required. See, en.wikipedia.org/wiki/Satellite_phone; en.wikipedia.org/wiki/Satellite_Internet_access.
The at least one telecommunication rule may comprise communicating portions of the retrieved stored extracted information with the remote database over one of a plurality of a remote data telecommunication interface connections in dependence a telecommunication cost and at least one of a connection speed, a connection reliability, and a connection availability. The at least one automated processor may be configured to communicate a quantity of data over the remote data telecommunication interface selectively dependent on a data communications cost. For example, where options such as cellular data access, satellite communications, and VHF data communications are available, the speed, cost and reliability of each option may be weighed, in determining which option to employ.
The at least one automated processor is configured to perform data compression and cryptographic processing of the retrieved stored extracted information. This permits secure connections, using SSL or VPN technology, or simply encrypted data files or packets, and minimizes communications burdens.
The system may receive at least one profile through the remote data telecommunication interface, and to propose the change in the current operating parameter based on at least the received profile. For example, the fuel formulation and volatility (especially for gasoline) may vary seasonally. The change in characteristics may be communicated from a remote central server to the device, so that the device can alter its processing based on the changed composition. Other types of profiles may be communicated, and used by the local processor accordingly.
The at least one automated processor may be configured to propose an optimum change in the current operating parameter. Typically, an optimum condition is with respect to an optimization criterion, which may be stated or implied. For example, a cost optimization typically strictly minimizes cost, while a cost-benefit optimization must consider benefits, which may be non-economic in nature or subject to some discretion or external inputs.
The system may communicate with another vehicle monitoring system through communications through the remote data telecommunication interface or by direct communications through a radio transceiver.
The system is not limited to being a listener on the controller area network, and may use the network for its own communications, and to emit control messages. For example, the system may communicate messages to other cooperative system components, may transmit the structured query to the structured query language database interface through the controller area network bus, transmit sensor data to the structured query language database interface through the controller area network bus, communicate with the remote data telecommunication interface through the controller area network bus, and/or communicate with a memory storing the at least one statistical model through the controller area network bus.
Similarly, the system may use a wireless network, e.g., a personal area network interface, and a local area network interface, to communicate with various system components, such as sensors and a memory storing the at least one statistical model. The at least one statistical model may comprise a statistical model configured to statistically filter outlier data. The system may receive input(s) representing at least one of a real-time water speed, a wind speed, and a load of the vehicle. Other sensors may also be provided. Likewise, actuators, both on the controller area network bus and off of it may communicate with the system.
It is therefore an object to provide a vehicle monitoring system, comprising: an interface configured to communicate with a vehicle communication bus configured for at least communicating real-time control and status messages to a vehicle propulsion system; a nonvolatile memory; a global navigation satellite system receiver configured to determine a geolocation of the vehicle; a remote data telecommunication interface; a database interface for access of a database stored in the nonvolatile memory; and at least one automated processor, configured to: monitor the vehicle communication bus for messages; filter the messages, and extract information from the filtered messages; store at least a portion of the extracted information in the database in conjunction with time information, and the geolocation information; generate a query to the database interface to retrieve the stored extracted information; execute at least one telecommunication rule with respect to a selective communication of at least a portion of the database over the remote data telecommunication interface to a remote system; and indicate at least one of: a predicted net fuel consumption, and a proposed change in a current operating parameter for the vehicle based on the determined geolocation, at least one of a mission constraint, the database, and a parameter selected from at least one of: a predicted fuel consumption, a predicted non-fuel cost of operations for the vehicle, and a predicted non-fuel net benefit of operations of the vehicle.
The at least one automated processor may be further configured to receive a remotely received proposed change in a current operating parameter for the vehicle through the remote data telecommunication interface, wherein the remotely received proposed change in a current operating parameter is dependent on a remote database of operational parameters for a plurality of vehicles.
The vehicle may be a marine vessel.
The system may further comprise a wireless interface comprising at least one of a personal area network interface, and a local area network interface, wherein the at least one automated processor is configured to receive sensor data through the wireless interface, and include the sensor data with the extracted information in the database in conjunction with the time information and the geolocation information.
The telecommunication rule may comprise a telecommunications cost-sensitive telecommunication rule. The remote system may comprise a cloud database. The at least one telecommunication rule may comprise communicating at least a portion of the database to the remote system dependent on a communication cost.
The at least one automated processor may be further configured to: extract engine and fuel information from the messages on the vehicle communication bus; aggregate the engine and fuel information into periodic records; and store the periodic records as the extracted information in the database.
The vehicle communication bus may comprise a CAN bus.
The system may further comprise an input configured to receive a fuel cost per unit and an estimated time cost, wherein the at least one automated processor is further configured to at least one of:
calculate an estimated mission cost as a function of at least an estimated total fuel cost and an estimated total time cost, as a function of operating conditions of the vehicle over an operating range, and optimize the operating conditions to achieve a lowest estimated mission cost within the operating range;
calculate an estimated mission profit based on at least an estimated total fuel cost, an estimated total time cost, and an estimated revenue, as a function of operating conditions of the vehicle, and optimize the operating conditions to achieve a highest mission profit as a function of the estimated revenue, the estimated total time cost and the estimated total fuel cost at the optimized operating conditions; or
calculate an estimate of a range of mission costs comprising an estimated total fuel cost, and an estimated total time cost, as a function of a range of operating conditions of the vehicle, and optimize the operating conditions with respect to an optimization parameter and the estimated mission cost at the optimized operating conditions. the calculated estimate may be dependent on a record of actual historical operating cost parameters for the vehicle. The calculated estimate may be dependent on a record of actual historical operating cost parameters for other vehicles.
The at least one automated processor may be further configured to communicate through the remote data telecommunication interface with a corresponding remote data telecommunication interface of another vehicle. The at least one automated processor may be further configured to transmit at least one message through the vehicle communication bus. The at least one automated processor may be further configured to communicate with the remote data telecommunication interface through the vehicle communication bus. The at least one automated processor may be further configured to process the extracted information with respect to at least one statistical model, to indicate the proposed change in the current operating parameter for the vehicle.
The database may comprise a structured query language database, and the query may comprise a structured query language query, and at least one automated processor is further configured to transmit at least one of the structured query language query and the extracted information to the database interface through the vehicle communication bus.
It is a further object to provide a vehicle monitoring method, comprising: communicating messages with a vehicle communication bus configured for at least communicating real-time control and status messages to a vehicle propulsion system; receiving a real-time geolocation of the vehicle; extracting information from the vehicle communication bus; storing records in a database representing extracted information, a time, and a geolocation associated with the extracted information; selectively communicating at least a portion of the database over a remote data telecommunication interface; and determining at least one of an operating parameter for the vehicle and a predicted net fuel consumption based on at least operating statistics of the vehicle derived from the database.
It is a still further object to provide a vehicle monitoring method, comprising: communicating with a vehicle communication bus configured for at least communicating real-time control and status messages to a vehicle propulsion system; determining a geolocation of the vehicle; monitoring the vehicle communication bus for messages; filtering the messages, and extracting information from the filtered messages; storing at least a portion of the extracted information in a database in conjunction with time information, and the geolocation; generating a query to the database to retrieve the stored extracted information; applying at least one telecommunication rule with respect to a selective communication of at least a portion of the database over a remote data telecommunication interface to a remote system; and indicating at least one of: a predicted net fuel consumption, and a proposed change in a current operating parameter for the vehicle based on the determined geolocation, at least one of a mission constraint, the database, and a parameter selected from at least one of: a predicted fuel consumption, a predicted non-fuel cost of operations for the vehicle, and a predicted non-fuel net benefit of operations of the vehicle. The data derived from the extracted information may be transmitted to a cloud server using secure reliable communications through the remote data telecommunication interface to provide a forensically reliable virtual black box.
It is also an object to provide a vehicle monitoring system, comprising: an interface configured to communicate with a controller area network bus; a nonvolatile memory; a global navigation satellite system receiver configured to determine a geolocation of the vehicle; a remote data telecommunication interface; a structured query language database interface for a database stored in the nonvolatile memory; and at least one automated processor, configured to: monitor the controller area network interface bus for messages; filter the messages, and extract information messages from the filtered messages; store at least a portion of the extracted information in the database in conjunction with time information, and the geolocation information; generate a structured query to the structured query language database interface to retrieve the stored extracted information; optionally process the retrieved stored extracted information with respect to at least one statistical model; execute at least one telecommunication rule with respect to a selective communication of at least a portion of the stored extracted information over the remote data telecommunication interface to a remote database; in a local analysis mode, propose a change in a current operating parameter for the vehicle based on at least the extracted information messages, the determined geolocation, a predicted fuel cost, optionally the statistical model, and at least one of a mission constraint, a non-fuel cost of operations for the vehicle, and a non-fuel net benefit of operations of the vehicle; and in a remote analysis mode, receive a message through the remote data telecommunication interface of a proposed change in a current operating parameter for the vehicle based on at least a database of operational parameters for a plurality of vehicles, the extracted information messages in the remote database, the determined geolocation, a predicted fuel cost, and at least one of a mission constraint, a non-fuel cost of operations for the vehicle, and a non-fuel net benefit of operations of the vehicle.
The vehicle may be a marine vessel. The telecommunication rule may comprise a telecommunications cost-sensitive telecommunication rule. The remote data telecommunication interface may comprise a satellite radio communication system interface. The remote data telecommunication interface may comprise an interface to the Internet. The cloud database may be accessible through the Internet. The remote data telecommunication interface may comprise a cellular telecommunication system. The at least one automated processor may be configured to perform data compression and cryptographic processing of the retrieved stored extracted information. The system may receive an input representing at least one of a real-time water speed, a wind speed, and a load of the vehicle.
The system may further comprise at least one of a personal area network interface, and a local area network interface, wherein the at least one automated processor receives sensor data through the at least one of the personal area network interface and the local area network interface, and includes the sensor data with the extracted information in the database in conjunction with the time information and the geolocation information.
The selective communication of the at least a portion of the stored extracted information over the remote data telecommunication interface may communicate the at least a portion of the stored extracted information to a cloud database.
The system may further comprise at least one of a personal area network interface, and a local area network interface, wherein the at least one automated processor is further configured to provide a human user interface to a portable interface device by communications through the at least one of the personal area network interface and the local area network interface.
The at least one automated processor may be further configured to: extract at least all engine and fuel information from the messages on the controller area network interface bus; aggregate the at least all engine and fuel information into periodic records; and store the periodic records as the extracted information in the database.
The system may further comprise an input configured to receive a fuel cost per unit and an estimated time cost, wherein the at least one automated processor is further configured to: calculate an estimated mission cost as a function of at least an estimated total fuel cost and an estimated total time cost, as a function of operating conditions of the vehicle over an operating range, and optimize the operating conditions to achieve a lowest estimated mission cost within the operating range.
The system may further comprise an input configured to receive a fuel cost per unit, an estimated time cost function, and an estimated revenue function, wherein the at least one automated processor is further configured to: calculate an estimated mission profit based on at least an estimated total fuel cost, an estimated total time cost, and an estimated revenue, as a function of operating conditions of the vehicle, and optimize the operating conditions to achieve a highest mission profit as a function of the estimated revenue, the estimated total time cost and the estimated total fuel cost at the optimized operating conditions.
The system may further comprise an input configured to receive fuel cost parameters and estimated time cost parameters, wherein the at least one automated processor is further configured to: calculate a range of estimated mission costs comprising an estimated total fuel cost, and an estimated total time cost, as a function of a range of operating conditions of the vehicle, and optimize the operating conditions with respect to an optimization parameter and the estimated mission cost at the optimized operating conditions. The calculated range of estimated mission costs comprising an estimated total fuel cost, and an estimated total time cost, as a function of a range of operating conditions of the vehicle may be dependent on a record of actual historical operating cost parameters for the vehicle. The calculated range of estimated mission costs comprising an estimated total fuel cost, and an estimated total time cost, as a function of a range of operating conditions of the vehicle may be dependent on a record of actual historical operating cost parameters for other vehicles.
The at least one telecommunication rule may comprise synchronizing the database with the remote database only over remote data telecommunication interface connections having a communication cost below a predetermined threshold. The at least one telecommunication rule may comprise transmitting a subset of the retrieved stored extracted information to the remote database over a metered remote data telecommunication interface connection, selectively in dependence on an estimated communication cost. The at least one telecommunication rule may comprise communicating portions of the retrieved stored extracted information with the remote database over one of a plurality of a remote data telecommunication interface connections in dependence a telecommunication cost and at least one of a connection speed, a connection reliability, and a connection availability.
The at least one automated processor may be further configured to communicate a quantity of data over the remote data telecommunication interface selectively dependent on a data communications cost. The at least one automated processor may be further configured to receive at least one profile through the remote data telecommunication interface, and to propose the change in the current operating parameter based on at least the received profile. The at least one automated processor may be further configured to propose an optimum change in the current operating parameter. The at least one automated processor may be further configured to communicate with another vehicle monitoring system through communications through the remote data telecommunication interface.
The system may further comprise a radio transceiver, wherein the at least one automated processor is further configured to communicate with another vehicle monitoring system by direct communications through the radio transceiver.
The at least one automated processor may be configured to transmit at least one message to an automated processor system through the controller area network bus, to communicate the structured query to the structured query language database interface, sensor data to the structured query language database interface, information with the remote data telecommunication interface through the controller area network bus, information to or from a memory storing the at least one statistical model through the controller area network bus, and/or information to or from a memory storing the at least one statistical model through at least one of a personal area network interface, and a local area network interface.
The at least one statistical model may comprises a statistical model executing on the at least one automated processor configured to statistically filter outlier data.
It is also an object to provide a vehicle monitoring system, comprising: an interface configured to at least communicate with a controller area network bus; an input configured to receive a determined real-time geolocation of the vehicle; a remote data telecommunication interface; a database; at least one automated processor, configured to: extract information from the controller area network bus; store records in the database representing the extracted information, a time, and the real-time geolocation; selectively communicate at least a portion of the database over the remote data telecommunication interface; and determine at least one of an operating parameter for the vehicle and a predicted net fuel cost based on at least the operating statistics and a fuel unit cost. The information in the database may be processed to determine operating statistics.
The vehicle may be a marine vessel. The determined real-time geolocation of the vehicle may comprise a global navigation satellite system receiver configured to determine a geolocation of the vehicle. The database may comprise a structured query language database interface for a database stored in nonvolatile memory. The at least one automated processor may be further configured to monitor the controller area network interface bus for messages, and to filter the monitored messages. The at least one automated processor may be further configured to generate a structured query to the structured query language database interface to access the stored extracted information. The at least one automated processor may be further configured to process the database with respect to at least one statistical model. The at least one automated processor may be further configured to execute at least one telecommunication rule with respect to a selective communication of at least a portion of the database over the remote data telecommunication interface to a remote database. The at least one automated processor may be further configured to, in a local analysis mode, propose a change in a current operating parameter for the vehicle based on at least a statistical model, extracted information, the determined real-time geolocation, a predicted fuel cost, and at least one of a mission constraint, a non-fuel cost of operations for the vehicle, and a non-fuel net benefit of operations of the vehicle. The at least one automated processor is further configured to, in a remote analysis mode, receive a message through the remote data telecommunication interface of a proposed change in a current operating parameter for the vehicle based on at least a database of operational parameters for a plurality of vehicles, the extracted information in the remote database, the determined real-time geolocation, a predicted fuel cost, and at least one of a mission constraint, a non-fuel cost of operations for the vehicle, and a non-fuel net benefit of operations of the vehicle. The telecommunication rule may comprise a telecommunications cost-sensitive telecommunication rule. The at least one automated processor may be further configured to selectively communicate a portion of the stored extracted information over the remote data telecommunication interface to a cloud database. The cloud database may be accessible through the Internet. The remote data telecommunication interface may comprise a cellular telecommunication system. The at least one automated processor is configured to perform data compression and cryptographic processing of the extracted information. The at least one automated processor may be further configured to receive an input representing at least one of a real-time water speed, a wind speed, and a load of the vehicle. The at least one automated processor may be further configured to statistically filter outlier information from the controller area network bus dependent on a statistical data model.
The system may further comprise at least one of a personal area network interface, and a local area network interface, wherein the at least one automated processor is configured to receive sensor data through the at least one of the personal area network interface and the local area network interface, and to include the received sensor data with the extracted information in the database in conjunction with the time information and the real-time geolocation information.
The remote data telecommunication interface may comprise a satellite radio communication system interface. The remote data telecommunication interface may comprise an interface to the Internet.
The system may further comprise at least one of a personal area network interface, and a local area network interface, wherein the at least one automated processor is further configured to provide a human user interface to a portable interface device by communications through the at least one of the personal area network interface and the local area network interface.
The at least one automated processor may be further configured to: extract at least all engine and fuel information from the messages on the controller area network interface bus; aggregate the at least all engine and fuel information into periodic records; and store the periodic records as the extracted information in the database.
The system may further comprise an input configured to receive a fuel cost per unit and an estimated time cost, wherein the at least one automated processor is further configured to: calculate an estimated mission cost as a function of at least the estimated total fuel cost and the estimated total time cost, over an operating range of operating conditions of the vehicle, and optimize the operating conditions to achieve a lowest estimated mission cost within the operating range. The system may further comprise an input configured to receive a unit fuel cost, an estimated time cost function, and an estimated revenue function, wherein the at least one automated processor is further configured to: calculate an estimated mission profit function representing an estimated total fuel cost, an estimated total time cost, and an estimated revenue, as a function of operating conditions of the vehicle, and optimize the operating conditions to achieve a highest mission profit as a function of the estimated revenue, the estimated time cost, and the estimated total fuel cost at the optimized operating conditions. The system may further comprise an input configured to receive fuel cost parameters and estimated time cost parameters, wherein the at least one automated processor is further configured to: calculate an estimated mission cost function comprising an estimated total fuel cost, and an estimated total time cost, responsive to a range of operating conditions of the vehicle, and optimize the operating conditions with respect to an optimization parameter and the estimated mission cost at the optimized operating conditions. The calculated estimated mission cost may be dependent on a record of actual historical operating cost parameters for the vehicle and/or for other vehicles.
The at least one automated processor may be further configured to control communication through the remote data telecommunication interface in dependence on at least one communication-cost dependent telecommunication rule. The at least one automated processor may be further configured to control communications through the remote data telecommunication interface selectively in dependence a telecommunication cost and at least one of a connection speed, a connection reliability, and a connection availability. The at least one automated processor may be further configured to selectively communicate a quantity of data over the remote data telecommunication interface based on a data communications cost. The at least one automated processor may be further configured to determine an optimum state for the operating parameter.
The at least one automated processor may be further configured to receive at least one profile through the remote data telecommunication interface, and to determine the at least one of an operating parameter for the vehicle and the predicted net fuel cost further based on at least the received profile.
The at least one automated processor may be further configured to communicate with another vehicle monitoring system through communications through the remote data telecommunication interface or to communicate with another vehicle monitoring system by direct communications through a radio transceiver.
The at least one automated processor may be further configured to transmit at least one message to an automated processor system through the controller area network bus, to transmit a request for information from the database through the controller area network bus, to transmit sensor data to the database through the controller area network bus, and/or to communicate with the remote data telecommunication interface through the controller area network bus.
It is another object to provide a vehicle monitoring method, comprising: communicating messages with a controller area network bus; receiving a real-time geolocation of the vehicle; extracting information from the controller area network bus; storing records in a database representing extracted information, a time, and the real-time geolocation; selectively communicating at least a portion of the database over a remote data telecommunication interface; and determining at least one of an operating parameter for the vehicle and a predicted net fuel cost based on at least the operating statistics and a fuel unit cost. The database may be processed to determine operating statistics.
The software system may be distributed across a number of software units i.e. fronts, database servers, application servers, and a master. The software units may be executed on the same physical hardware, and/or distributed across hardware in combinations and sub-combinations as required. The distributed hardware may communicate over a high-speed data backbone. The high-speed data backbone may be secured from external networks. The distributed hardware may communicate with further groups of hardware, distributed or otherwise. Groups of inter-communicating hardware may have one or more remote telecommunication interface, and may communicate with a remote server via the at least one remote telecom interface. The fronts may communicate with external networks, sensors, actuators/controller, and/or telecom devices, over wired or wireless networks. In one embodiment, such communications is limited to the fronts, and other devices are restricted from direct access to the communication network. The fronts therefore may act as proxy servers, routers or firewalls.
The processor may be further programmed to execute applications based on a known framework, which may include database access functions, user alerts, notification functions, a web server, and/or web based data access functions (webservices API). In a vessel-based implementation, the application framework can access remote servers' databases and/or processing units. The application framework may include a protocol for synchronization between a local and remote database. This synchronization may be prioritized, and may have configurable data priority for higher or lower importance data.
The at least one automated processor may comprise a plurality of processors, each provided with a separate respective interface configured to communicate with the vehicle communication bus, and intercommunicating with each other through the vehicle communication bus. Similarly, in a method according to the invention, said determining at least one of the operating parameter for the vehicle and the predicted net fuel consumption based on at least operating statistics of the vehicle derived from the database may be performed by a plurality of automated processors, each having a respective interface to the vehicle communication bus, and communicating with each other through the vehicle communication bus. The various steps, and aspects of a single step, of the method may be distributed across a plurality of separate automated processors, each having a respective interface to the vehicle communication bus, the plurality of separate automated processors intercommunicating through the vehicle communication bus. A plurality of processors may also be provided which intercommunicate using a separate communication network, which may be isolated from the vehicle communication bus.
The software system may be used to provide a remote virtual “black box” for storage of forensically valuable information which may be analyzed to determine the state of the system at the time of an incident. This requires real-time communication of data, since in event of a catastrophic event, the latency before the software system becomes unavailable to transmit data may be short. Therefore, a reliable communication modality, such as satellite data communications may be used. However, such communications have limited bandwidth, and have metered data charges. Therefore, the transmitted data is preferably compressed and may be pre-processed by a filter, analyzer, machine learning algorithm, statistical process or model, neural network, etc., to extract and prioritize communication of useful information. Full database synchronization and replication may be deferred in some cases until lower cost and/or higher bandwidth communications are available. In some cases, fault tolerant communications may be used, such as mesh networks and mobile ad hoc communication networks, which can bypass expensive or unavailable infrastructure. When communicating across non-private networks, encryption and various web technologies may be employed.
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A preferred implementation of the technology provides an enclosure having connectors which electrically interface with a controller area network of a marine vessel, having an embedded computer which executes an operating system, such as Linux, having a sufficient amount of flash storage to store a database and programs, and having power requirements supported by a vessel based power supply. Such an embedded computing system, known in the art as a gateway or Edge device, will be referred to here as a DataHub.
It is noted that the preferred implementation is not limited to maritime applications, and may be used in cars, trucks, light and heavy industrial equipment, rail, aircraft, robotics, and other systems. As such, the various features of such systems disclosed in the incorporated reference may advantageously be combined with the additional features, combinations and sub-combinations of features provided herein.
In the preferred embodiment, data collection, aggregation, analysis, storage, and communication is accomplished by one or more DataHubs.
In an embodiment, an Ethernet interface 235 communicates with a Programmable Logic Controller (PLC) or similar real-time or near real-time device(s) 210, which may incorporate, act upon, or interface with its own inputs and/or outputs 215. Communication with such a real-time or near real-time system(s) may occur via MODBUS TCP, Ethernet/IP, EtherCat, BACnet, or another Ethernet based protocol(s). Since the DataHub 225 may interface with multiple real-time or near real-time systems and is not necessarily constrained to real-time performance, in an embodiment, the DataHub 225 may act as a high level interface, configuration store, analysis processor, or task executor etc. for one or multiple, disparate or connected real-time or near real-time systems.
In an embodiment, the integrated Bluetooth interface 230 communicates with additional sensors, for example bilge level 200 and battery voltage sensors 205. A LAN/PAN interface 250 (e.g. Bluetooth, Wi-Fi, Ethernet, etc.) may also allow for interaction with a user interface device 245, which may be a tablet or other computer interface.
In an embodiment, a multitude of input sources transmit data to the DataHub, which collects, aggregates, processes, and/or stores that data or an appropriate subsection thereof.
In an implementation, the Database 350 and associated Database Access Function(s) 325 act as the storage and retrieval mechanism for both raw and processed sensor data as well as historic, partitioned, and predicted data. The Database 350 may or may not be partitioned and can consist of separate historic, current, and analysis databases as needed. User and vessel metadata, configuration data, alert and notification data, and other types of data and metadata as applicable may also be stored. In an embodiment, a variety of computing resources, including the embedded computer 360 or other vehicle-based computer resources 310 may request data from the local Database 350 via the Database Access Function(s) 325. That data may then be analyzed, processed, or further manipulated locally (i.e. on the vehicle) or transmitted, using a multitude of telecommunication interfaces 330 (e.g. Wi-fi, cellular, satellite, etc.) to a remote server 335 (e.g. a cloud database) through the local 305 and remote 375 Protocol Service.
In an implementation, the Protocol Service 305, 375 provides secure communications between a Datahub(s) 300 and a remote server(s) 335 or between a Datahub(s) 300 and an additional Datahub(s) 300 as necessary. The transmitted data may be compressed to save bandwidth. Transport security may be implemented via software encryption protocols such as the Secure Sockets Layer (SSL) and/or Transport Layer Security (TLS) and/or an application specific integrated circuit (ASIC) or other circuitry implementing encryption and/or other cryptographic functionality.
In an embodiment, the Protocol Service 305, 375 may enable application level, bi-directional communication and synchronization of a Database(s) 350 between a DataHub(s) 300 and a remote database(s) 365. The Protocol Service 305, 375 may provide synchronization of device metadata such as DataHub 300 configuration changes initiated from one of a remote or a local user interface(s) and DataHub 300 performance statistics. The Protocol Service 305, 375 may enable message passing, be they alerts, digital input state changes, control messages etc., between a Datahub(s) 300 and a remote server(s) 335 or between a Datahub(s) 300 and an additional Datahub(s) 300 as necessary.
In an embodiment, the Protocol Service 305, 375 is a service executed on DataHubs 300 and remote servers 335, functioning as both a client and a server. In a client role, the service queries a local Database 350 for data, commands, or messages to be communicated to a remote server(s) 335 and attempts to send until successful. In a server role, the service listens for data, commands, or messages and if received, stores them and responds to the client with success or failure status for each data, command, or message. The client service updates its local Database 350 to indicate which records were successfully communicated to the server. Since the relationships between devices and cloud is bi-directional, DataHubs 300 and remote servers 335 can act as Protocol Service 305, 375 clients or servers simultaneously and communicate messages between one or many, potentially disparate systems.
In an embodiment, the Protocol Service 305, 375 enables a human or automated system to issue functional or diagnostic commands to be executed on a remote DataHub(s) 300. In the case of commands or data to be sent to remote assets, which may have intermittent connectivity, these commands or data may be queued and retried until such time as the remote system becomes connected. An expiration time may be configured after which attempts to send certain commands or data would cease.
In an implementation, data priority may or may not be configured in the Protocol Service 305, 375. As an example, raw sensor data may be deemed low priority and transmitted to a remote server(s) 335 over a low-cost cellular network when and as connectivity becomes available; alert and/or notification data, however, may be deemed high priority and transmitted to a remote server(s) 335 as soon as feasible using a high-cost, high-availability satellite network.
In an implementation, data stored in a remote database(s) 365 can enable web services 355 such as workflow automation, vehicle reporting, long-term storage of vehicle data or multiple vehicles' data, and a real-time data access from an Internet connected computer.
In an embodiment, the DataHub provides or has access to a multitude of telecommunications interfaces 330, and thus may be used as a remote communications hub for the vehicle as a whole. Communication routing rules may be stored in the local Database 350 or generally in non-volatile memory on the Embedded Computer 360 or elsewhere. The execution of these routing rules by the Datahub(s) 300 enables communication of engine and other vehicle critical data as well as pictures, speed, location, and other data as applicable, both for functional and social purposes, over a cost or other-parameter optimized channel.
In an embodiment of an Edge Fog 400, a number of software units may exist: a master 410, a communication front(s) 435, a database server(s) 420, and an application server(s) 415. A master 410 stores and provides access to system-wide metadata for example sensor configuration data and the configuration, either static or dynamic, of the Edge Fog 400 system topology. The master 410 also coordinates time synchronization of RTCs and/or other parameters of the units in the Edge Fog 400.
In an embodiment, the database server(s) 420 store and run a partitioned or non-partitioned database(s) consisting of historical, current, and/or analysis data. The application server(s) 415 access data stored on a database server(s) 420 and then may execute analysis applications and/or serve data via an output communications front 435 for consumption by a local user interface(s) or other local or remote compute resources as needed. The communication front(s) 435 may be configured as any or all of an input communication front (e.g. wired 450 or wireless 455 network interfaces or direct sensor inputs 445 for data input), output communication front 435 (e.g. wired 450 or wireless 455 network interfaces such as an Ethernet interface 450 for connection to a user interface or digital outputs 445), or a remote communication front 435 (e.g. satellite or cellular telecommunication interfaces 430 for transferring data to a remote database 405).
In an implementation, any combination of these software units can be executed on the same or separate physical servers. For example, a master 410, a database server 420, an application server 415, and a communication front(s) 435 may be run on a single physical unit, which may or may not be a DataHub. Additionally, a master 410 and a database server 420 may run on a single unit with an application server 415 and a communication front(s) 435 running on a separate unit or in any combination or permutation as necessary.
In an implementation, the communication front(s) 435 has at least two communication interfaces: at least one interface communicates with the internal Edge Fog data bus 425 and at least one interface communicates with any of a variety of sensors, real-time or non-real-time computing systems, user interfaces, etc. external to the Edge Fog 400. The communication fronts also define the security boundary between the secured Edge Fog 400 and any external networks, sensors, etc. 445, 450, 455. The master 410, database server(s) 420, and application server(s) 415 need at least one network interface to connect to the internal Edge Fog data bus 425.
In an embodiment, the Virtual Edge Fog 480 can contain one or more Edge Fogs 466, DataHubs 464, or other Virtual Edge Fogs 478 in any combination or sub-combination as needed, using a data backbone 474 such as 1 Gbps Ethernet. A Virtual Edge Fog 480 may have one or more wired or wireless connections 462A, B, C, D, E to a cloud server(s) 460. While at least one connection 462A is required to move data from a Virtual Edge Fog 480 to a cloud server(s) 460, further connections 462B, C, D, E may or may not be implemented to, for example, decrease connection latency or increase connection throughput as needed. Additionally, the cloud server(s) 460 may reside on a public cloud, private cloud (e.g. on or off-premises), or as a combination of public and private (i.e. hybrid cloud) as needed.
In an implementation, the application platform may further employ a local 515 or remote 560 web server(s) to serve local 540 or remote 585 database data to a local 505 or remote 550 web client (e.g. a web browser running on a tablet, mobile phone, PC, etc.). The local web client 505 may also access remote data from a remote web server 560 as needed. Additionally, the local 540 and remote 585 databases may be synchronized via the configured Protocol Service 590 as needed and able.
A local 510 or remote 555 application(s) can access data directly using local 535 or remote 580 Data Access Functions or a local 530 or remote 575 Web Service API(s) where needed. For example, a user interface application running on a tablet, mobile phone, etc. may access data directly using local 535 or remote 580 Data Access Functions or a local 530 or remote 575 Web Service API(s). The local 510 or remote 555 application(s) can then communicate the results of execution, if any, through the local 535 or remote 580 Database Access Function(s) or a local 530 or remote 575 Web Service API(s) as a new, derived data series. The local 520 and/or remote 565 implementation of the Alerts and Notifications System can then utilize the resulting data series as an input and execute any configured alerts based on that input.
In an embodiment, the Alerts and Notifications System 520, 565 is a periodic and/or event-triggered alert evaluation and notification system that transmits alerts, as configured in the database 540, 585, via a multitude of systems, (e.g. SMS text messages, email, Apple Push Notification System, Google Cloud Messaging, Windows Notifications System, and others as needed). In an embodiment, an alert can be created by any warning, error, or other alarm message from an engine, generator, or other system as configured and/or a satisfied alert condition as configured in the Database(s) 540, 585. In an embodiment, a notification is a message or indication, often but not necessarily consumed by a user or user interface, of an alert, a group of alerts, or other alert related information.
In an implementation, the Alerts and Notifications System 520, 565 can be configured to generate or reset alerts based on a multitude of sensor conditions, including but not limited to, individual sensor values, combinations of sensor values, arbitrary mathematical expressions using one or more sensor values, statistical calculations on one or more sensor values, timers, external API inputs, etc. The Alerts and Notifications System 520, 565 can generate alerts using data of different types, for example, raw data, processed (e.g. statistically or algorithmically manipulated) data, and/or application data (e.g. data output from an engine analysis application). Alerts processing can be executed on a local device(s) 500 or a remote device(s) 545 or a combination of local execution and remote execution of sub-components as configured in the Database 540, 585. The Alerts and Notifications System 520, 565 can also integrate with a workflow server(s) 520, 570 such that alerts can start, update, or end workflow(s) and/or workflows can communicate to the Alerts and Notifications System 520, 565 to generate or reset alerts. Such workflows manage and/or track business processes such as fueling, maintenance, insurance, compliance, etc., which often involve multiple parties and may be complex and/or long-running in nature.
An example application may be a Fish Holding-Tank Monitoring (FHTM) Application for use on fishing vessels and/or fish processing vessels. Fish tank data such as tank temperatures, tank inlet and outlet water flow rate, tank level, etc. would be collected and stored in a local Database 540. The FHTM App executes logic to generate new time series data, which include a timestamp and configurable status codes for the tank (e.g. nominal, low tank level, high tank temperature) based on the raw, fish tank sensor data and any mathematical analysis of raw data and/or previously generated data models. Using a supplied configuration, the Alerts and Notifications System 520 can then generate alerts and notify stakeholders of tank conditions based on this derived time series.
As an additional example, an “Engine Analysis” application(s) could be implemented, which collects engine sensor data in order to build a machine-learning based engine model. By comparing near real-time data with expected values from the engine model, a time series of standardized errors can be generated. That standardized error time series and/or further analyzed or processed time series are stored in the local 540 or cloud 585 Database and the Alerts and Notifications System 520, 565 can then generate notifications to inform vehicle personnel and/or other stakeholders of potential engine problems.
Hardware Architecture
Generally, the techniques disclosed herein may be implemented on hardware or a combination of software and hardware. For example, they may be implemented in an operating system kernel, in a separate user process, in a library package bound into network applications, on a specially constructed machine, on an application-specific integrated circuit (ASIC), or on a network interface card.
Software/hardware hybrid implementations of at least some of the embodiments disclosed herein may be implemented on a programmable network-resident machine (which should be understood to include intermittently connected network-aware machines) selectively activated or reconfigured by a computer program stored in memory. Such network devices may have multiple network interfaces that may be configured or designed to utilize different types of network communication protocols. A general architecture for some of these machines may be disclosed herein in order to illustrate one or more exemplary means by which a given unit of functionality may be implemented. According to specific embodiments, at least some of the features or functionalities of the various embodiments disclosed herein may be implemented on one or more general-purpose computers associated with one or more networks, such as for example an end-user computer system, a client computer, a network server or other server system possibly networked with others in a data processing center, a mobile computing device (e.g., tablet computing device, mobile phone, smartphone, laptop, and the like), a consumer electronic device, a music player, or any other suitable electronic device, router, switch, or the like, or any combination thereof. In at least some embodiments, at least some of the features or functionalities of the various embodiments disclosed herein may be implemented in one or more virtualized computing environments (e.g., network computing clouds, virtual machines hosted on one or more physical computing machines, or the like).
A computing device may be adapted to communicate with a plurality of other computing devices, such as clients or servers, over communications networks such as a wide area network a metropolitan area network, a local area network, a wireless network, the Internet, or any other network, using known protocols for such communication, whether wireless or wired. The computing device includes one or more central processing units (CPU), one or more interfaces, and one or more buses (such as a peripheral component interconnect (PCI) bus, USB, CAN bus, etc.). When acting under the control of appropriate software or firmware, CPU may be responsible for implementing specific functions associated with the functions of a specifically configured computing device or machine. For example, in at least one embodiment, a computing device may be configured or designed to function as a server system utilizing CPU, local memory and/or remote memory, and interface(s). In at least one embodiment, CPU may be caused to perform one or more of the different types of functions and/or operations under the control of software modules or components, which for example, may include an operating system and any appropriate applications software, drivers, and the like. CPU may include one or more processors such as, for example, a processor architecture such as Intel x86, Intel x64, ARM, Qualcomm, and AMD families of microprocessors, and may include a GPU or coprocessing capability. In some embodiments, processors may include specially designed hardware such as application-specific integrated circuits (ASICs), electrically erasable programmable read-only memories (EEPROMs), field-programmable gate arrays (FPGAs), and so forth, for controlling operations of computing device. In a specific embodiment, a local memory (such as non-volatile random access memory (RAM), Flash memory, and/or read-only memory (ROM), including for example one or more levels of cached memory) may also form part of CPU or CPU subsystem. However, there are many different ways in which memory may be coupled to system. Memory may be used for a variety of purposes such as, for example, caching and/or storing data, programming instructions, and the like. As used herein, the term “processor” is not limited merely to those integrated circuits referred to in the art as a processor, a mobile processor, or a microprocessor, but broadly refers to a microcontroller, a microcomputer, a programmable logic controller, an application-specific integrated circuit, and any other programmable circuit.
Because information and program instructions may be employed to implement one or more systems or methods described herein, at least some embodiments may include nontransitory machine-readable storage media, which, for example, may be configured or designed to store program instructions, state information, and the like for performing various operations described herein. Examples of such nontransitory machine-readable storage media include, but are not limited to, flash memory, magnetic media such as hard disks, optical media such as CD-ROM and DVD disks; magneto-optical media such as optical disks, magnetic memory, and hardware devices that are specially configured to store and perform program instructions, such as read-only memory devices (ROM), flash memory, solid state drives, memristor memory, random access memory (RAM), and the like. Examples of program instructions include both object code, such as may be produced by a compiler, machine code, such as may be produced by an assembler or a linker, byte code, such as may be generated by for example a Java compiler and may be executed using a Java virtual machine or equivalent, or files containing higher level code that may be executed by the computer using an interpreter (for example, scripts written in Python, Perl, Ruby, Javascript, or any other scripting language).
A standalone or network computing system architecture may be provided. The computing device may include processors that may run software that carry out one or more functions or applications of embodiments of the invention, such as for example a client application. Processors may carry out computing instructions under control of an operating system such as, for example, a version of Microsoft's Windows operating system (e.g., Windows 7, 8, 8.1, 10, etc.), Apple Mac OS/X, Apple iOS operating systems, some variety of the Linux operating system, Google's Android operating system, or the like. In many cases, one or more shared services may be operable in system, and may be useful for providing common services to client applications. Services may for example be Windows services, user-space common services in a Linux environment, or any other type of common service architecture used with operating system. Input devices may be of any type suitable for receiving user input, including for example a keyboard, touchscreen, microphone (for example, for voice input), mouse, touchpad, trackball, or any combination thereof. Output devices may be of any type suitable for providing output to one or more users, whether remote or local to system, and may include for example one or more screens for visual output, speakers, printers, or any combination thereof. Memory may be random-access memory having any structure and architecture known in the art, for use by processors, for example to run software. Storage devices may be any magnetic, optical, mechanical, memristor, or electrical storage device for storage of data in digital form. Examples of storage devices include flash memory, magnetic hard drive, CD-ROM, and/or the like.
As may be used herein, the terms “substantially” and “approximately” provides an industry-accepted tolerance for its corresponding term and/or relativity between items. Such an industry-accepted tolerance ranges from less than one percent to fifty percent and corresponds to, but is not limited to, component values, integrated circuit process variations, temperature variations, rise and fall times, and/or thermal noise. Such relativity between items ranges from a difference of a few percent to magnitude differences. As may also be used herein, the term(s) “operably coupled to”, “coupled to”, It's and/or “coupling” includes direct coupling between items and/or indirect coupling between items via an intervening item (e.g., an item includes, but is not limited to, a component, an element, a circuit, and/or a module) where, for indirect coupling, the intervening item does not modify the information of a signal but may adjust its current level, voltage level, and/or power level. As may further be used herein, inferred coupling (i.e., where one element is coupled to another element by inference) includes direct and indirect coupling between two items in the same manner as “coupled to”. As may even further be used herein, the term “operable to” or “operably coupled to” indicates that an item includes one or more of power connections, input(s), output(s), etc., to perform, when activated, one or more its corresponding functions and may further include inferred coupling to one or more other items. As may still further be used herein, the term “associated with”, includes direct and/or indirect coupling of separate items and/or one item being embedded within another item. As may be used herein, the term “compares favorably”, indicates that a comparison between two or more items, signals, etc., provides a desired relationship. For example, when the desired relationship is that signal 1 has a greater magnitude than signal 2, a favorable comparison may be achieved when the magnitude of signal 1 is greater than that of signal 2 or when the magnitude of signal 2 is less than that of signal 1.
The present invention has also been described above with the aid of method steps illustrating the performance of specified functions and relationships thereof. The boundaries and sequence of these functional building blocks and method steps have been arbitrarily defined herein for convenience of description. Alternate boundaries and sequences can be defined so long as the specified functions and relationships are appropriately performed. Any such alternate boundaries or sequences are thus within the scope and spirit of the claimed invention.
The present invention has been described, at least in part, in terms of one or more embodiments. An embodiment of the present invention is used herein to illustrate the present invention, an aspect thereof, a feature thereof, a concept thereof, and/or an example thereof. A physical embodiment of an apparatus, an article of manufacture, a machine, and/or of a process that embodies the present invention may include one or more of the aspects, features, concepts, examples, etc. described with reference to one or more of the embodiments discussed herein. Further, from figure to figure, the embodiments may incorporate the same or similarly named functions, steps, modules, etc. that may use the same or different reference numbers and, as such, the functions, steps, modules, etc. may be the same or similar functions, steps, modules, etc. or different ones.
The present invention has been described above with the aid of functional building blocks illustrating the performance of certain significant functions. The boundaries of these functional building blocks have been arbitrarily defined for convenience of description. Alternate boundaries could be defined as long as the certain significant functions are appropriately performed. Similarly, flow diagram blocks may also have been arbitrarily defined herein to illustrate certain significant functionality. To the extent used, the flow diagram block boundaries and sequence could have been defined otherwise and still perform the certain significant functionality. Such alternate definitions of both functional building blocks and flow diagram blocks and sequences are thus within the scope and spirit of the claimed invention. One of average skill in the art will also recognize that the functional building blocks, and other illustrative blocks, modules and components herein, can be implemented as illustrated or by discrete components, application specific integrated circuits, processors executing appropriate software and the like or any combination thereof.
While the above detailed description has shown, described, and pointed out novel features as applied to various embodiments, it will be understood that various omissions, substitutions, and changes in the form and details of the devices or algorithms illustrated can be made without departing from the spirit of the disclosure. As will be recognized, certain embodiments of the inventions described herein can be embodied within a form that does not provide all of the features and benefits set forth herein, as some features can be used or practiced separately from others. The scope of certain inventions disclosed herein is indicated by the appended claims rather than by the foregoing description. All changes which come within the meaning and range of equivalency of the claims are to be embraced within their scope.
This application is a continuation application of co-pending U.S. patent application Ser. No. 15/703,487, filed Sep. 13, 2017, which is hereby incorporated herein by reference, which claims priority to U.S. Provisional Application No. 62/394,026, filed Sep. 13, 2016, the entirety of which is expressly incorporated herein by reference. In cases where the present application conflicts with a document incorporated by reference, the present application controls.
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| Number | Date | Country | |
|---|---|---|---|
| 20200273268 A1 | Aug 2020 | US |
| Number | Date | Country | |
|---|---|---|---|
| 62394026 | Sep 2016 | US |
| Number | Date | Country | |
|---|---|---|---|
| Parent | 15703487 | Sep 2017 | US |
| Child | 16870471 | US |
