Patent Grant
7974265
The invention relates generally to parking meter automation. More particularly, the invention relates to parking meter auditing and maintenance that is automated using a mesh network.
In the past, parking meters were audited by recording their functional status and counting the coins collected in each meter vault during coin collection runs. Because meter auditing is an error-prone and labor-intensive process, it is seldom performed. When an audit is performed, it rarely includes payment information on a specific meter. In fact, most parking auditing has only information related to gross earning data of several meters in a region, measured in city blocks for example, and spanning over periods as long as several weeks. As a result, coin theft, meter malfunctions, vandalism, and regulation compliance are often poorly managed because such events cannot be detected in a timely and accurate manner. The introduction of electronically auditable parking meters has partially addressed these problems by making it possible to record payment transaction, failure modes, and device status within the meter's internal memory. This information is then directly downloaded from each parking meter using a handheld device operated by meter service personnel. Depending on a parking management personnel budget, auditing intervals can range from once a week to once every several months.
To improve man-hour efficiency related to data meter information retrieval, some electronically auditable parking meters have been equipped with short-range infrared wireless interfaces that enable data to be downloaded without opening the meter housing. However, the data collection still requires personnel to be dispatched to the field, and the opportunity cost of delayed notification of meter malfunctions continues to take a significant toll on parking revenue. A trade-off still exists between timely detection of malfunctions versus the high labor costs of frequently sending personnel into the field to detect such malfunctions.
In an attempt to address meter malfunctions, parking meters have been equipped with a radio transceiver and cell phone communication devices, where the radio transceiver sends and receives fixed range beacon signals to an adjacent transceiver-equipped parking meter. In the event the meter does not hear back from an adjacent meter, a call through the cellular network is placed from the operative meter to report a non-communicative adjacent meter. A service personnel is then dispatched to find the if one parking meter has been damaged or removed, or if that the transceiver may be malfunctioning. Equipping each parking meter with a cellular communication device is known to be expensive and requires relatively high power demands, where it is desirable to have each meter operate for extended lengths of time without battery replacement or recharge. Additionally, it is found that for this system to be viable, it is necessary to have cellular communication with all of the parking meters, where it becomes prohibitively expensive and difficult in mountainous regions. Further, because the transceiver signal is a simple beacon signal, the transceivers can only determine if there is a beacon signal coming from an adjacent transceiver, thus having very limited utility with respect to the needs of comprehensive parking meter auditing.
Accordingly, there is a need to develop real-time remote parking meter auditing that automatically and remotely audits the meters with timely detection of malfunctions to provide dramatic labor savings. Unfortunately, current wireless systems are power-hungry, expensive, do not scale well as the number of devices in the network increases, are unreliable in urban environments, or have insufficient range. As a result, despite a myriad of wireless options, no parking meter system has a fully automated remote auditing system that can operate over extended periods under very low power.
The present invention provides a remote parking meter monitoring system having a plurality of radio transceivers that transmit and receive information radio signals with at least one other transceiver within a communication region of the transceiver, where the transceivers are integrated to parking meters. The remote parking meter monitoring system further has an aggregate point that is removed from the parking meters, where the aggregate point has an aggregate point radio transceiver and a communication network connected to a computer. The aggregate point radio transceiver transmits and receives the information radio signals to at least one proximal parking meter transceiver within the communication region, and the aggregate point further communicates to the computer through the communication network. Additionally, the remote parking meter monitoring system has a mesh communication arrangement of the radio transceivers, and a signal routing architecture in the transceivers. One of the transceivers communicates the information to at least one other transceiver located within its communication region, where the information is communicated to the proximal transceiver along any path of adjacent communication regions across the mesh using the routing architecture. The information is communicated to the aggregate point transceiver and the aggregate point communicates the information to the computer through the network. The computer is able to communicate information through the network to the aggregate point, and the aggregate point transceiver sends the information to the proximal transceiver. The information is communicated to any one of the transceivers in the mesh using the routing architecture by communicating the signal through any path between adjacent communication regions.
In one aspect of the invention, the communication region includes a distance at least to one adjacent transceiver for low-power operation.
In another aspect, the parking meter has an analog to digital and digital to analog signal converter in its transceiver to translate digital information into radio waves and back to digital information on the receiving transceiver. Additionally, the aggregate point has an analog to digital and digital to analog signal converter for the same purpose.
In one aspect of the invention, the path can be a shortest path. And in another aspect, the path is a path of lowest power output from the transceivers.
In another aspect of the invention, the information between the transceivers and the aggregate point can include meter malfunction status, meter payment status, transceiver malfunction status, coin-drop notification, meter battery status, meter time and coin box collection notification.
In another aspect of the invention, the information communicated from the aggregate point to the transceivers can include a command to reset a meter, set meter time, set meter rate, add payment, subtract payment, reset meter audit information, request meter maintenance information and shutdown meter.
In another aspect of the invention, the mesh communication arrangement can be a multi-hopping linear arrangement or a multi-hopping grid arrangement.
In one aspect of the invention, the communication network can be a cellular network, a public switched telephone network, cable, DSL, WiFi, optic fiber, serial cable, or any general digital packet radio.
In another aspect of the invention, the radio transceiver is an infrared transceiver.
In another aspect of the invention, the transceiver power output is according to a distance to a closest operative transceiver. Further, the transceiver power output can be set by a command from the computer.
The invention further includes a method of remote monitoring of parking meters by providing a plurality of parking meters and providing a plurality of radio transceivers, where the radio transceiver transmits and receives information radio signals with at least one other transceiver within a communication region of the transceiver. The transceivers are integrated to the parking meters. The method of remote monitoring of parking meters further includes providing an aggregate point that is removed from the parking meter, providing an aggregate point radio transceiver attached to the aggregate point, providing a communication network attached to the aggregate point and providing a computer at a remote location. The communication network is connected to the computer, and the aggregate point radio transceiver transmits and receives the information radio signals to at least one proximal parking meter transceiver within the communication region, where the aggregate point communicates to the computer. The method of remote monitoring of parking meters further includes providing a mesh communication arrangement of the radio transceivers and providing a signal routing architecture between the transceivers, where one of the transceivers communicates the information to at least one other transceiver located within the region. The information is communicated to the proximal transceiver along any path of adjacent communication regions across the mesh and using the routing architecture, where the information is communicated to the aggregate point transceiver and the aggregate point communicates the information to the computer through the network. Additionally, the computer communicates information through the network to the aggregate point and the aggregate point transceiver sends the information to the proximal transceiver, where the information is communicated to any one of the transceivers in the mesh using the routing architecture by communicating the signal through any path between adjacent communication regions.
Some key advantages include very low power requirements and the ability to transfer date reliably across the mesh network. The low power allows the transceivers to share a battery with the parking meter without significantly reducing its lifetime. Another defining advantage of this invention is that the system does not require any wireless infrastructure. The network scales naturally as more transceivers are added because each one also functions as a wireless mesh network router. The diversity of routing paths in the mesh network provides many paths for a given piece of information to travel through the network, hence increasing the reliability of data delivery compared to other wireless networks. The diversity of routing paths is particularly important in urban environments using the low-power transceiver because the low-power signals are easily blocked by large objects such as trucks, buses, or temporary structures. The information must be able to route around the obstacle in order to achieve the data reliability.
The objectives and advantages of the present invention will be understood by reading the following detailed description in conjunction with the drawing, in which:
Although the following detailed description contains many specifics for the purposes of illustration, anyone of ordinary skill in the art will readily appreciate that many variations and alterations to the following exemplary details are within the scope of the invention. Accordingly, the following preferred embodiment of the invention is set forth without any loss of generality to, and without imposing limitations upon, the claimed invention.
The current invention provides accurate and timely reporting of parking meter information in a simple module that can be upgraded in the field and may either be applied to existing parking meters, or be deployed with the installation of new parking meters. The invention enables parking management that can instantly detect meter malfunctions, be configured to actuate the meters in real-time, provide resetting of the meter when the meter malfunctions, or change the parking rate remotely, to name a few. With real-time remote auditing and remote actuation capability, meter downtime can be minimized, and significant labor savings can be realized.
The invention is a wireless mesh network transceiver, that functions similarity to an multiple internet routers connected in a peer-to-peer fashion. Information can travel from one mesh transceiver to another by passing through several other mesh transceivers which possess enough intelligence to route the information correctly toward the intended destination. The mesh transceiver is effectively the wireless communication infrastructure. The wireless mesh network is an ideal networking solution for parking meters because the consistent spacing of parking meters lends itself well to redundant mesh networks. The network can support other valuable applications by carrying data from a variety of other device types, delivering information related to locations of car crashes or gunshots, for example, or providing remote metering of electricity, gas and water systems. Because each device is a wireless router, the network expands naturally as more devices are added.
Referring to the drawings,
The information between the transceivers 108 and the aggregate point 120 can include meter malfunction status, meter payment status, transceiver malfunction status, coin-drop notification, meter battery status, meter time and coin box collection notification.
Further, the information communicated from the aggregate point 120 to the transceivers 108 can include a command to reset a meter, set meter time, set meter rate, add payment, subtract payment, reset meter audit information, request meter maintenance information and shutdown meter.
In
In one embodiment of the invention,
In one aspect, the transceivers 108 can have a feature that, automatically or by command from the computer 126, reduces their transmission power output until no signal is found to determine a minimum transmission power requirement for communicating with adjacent transceivers 108, as a power optimization feature. This aspect is also useful after inoperative transceivers 108 are made operative again.
In another embodiment of the invention,
According to the embodiments above, the communication path can be a shortest path, or it can be a path of lowest power output from the transceivers 108, where the multi-hopping linear arrangement or a multi-hopping grid arrangement may be use in part, in tandem or in entirety.
The invention further includes a remote monitoring of parking meters method 500 as shown in
The present invention has now been described in accordance with several exemplary embodiments, which are intended to be illustrative in all aspects, rather than restrictive. Thus, the present invention is capable of many variations in detailed implementation, which may be derived from the description contained herein by a person of ordinary skill in the art. For example the aggregate point may be combined in the parking meter in one embodiment. Additionally, the aggregate point may be combined with the computer in another embodiment. Further the aggregate point and the computer may be combined with the parking meter in yet another variation of the embodiments.
All such variations are considered to be within the scope and spirit of the present invention as defined by the following claims and their legal equivalents.
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