The invention pertains to the measurement of conditions and movements that are potentially harmful to valuable items and the wireless generation of alerts based on these measurements. More specifically, environmental and motion-related data pertinent to the safety and security of valuable items are sensed and communicated wirelessly to a remote receiver.
Prior art in this context consists of two types. First is the monitoring of the environment in spaces, such as homes, greenhouses or humidors; second is the remote control of environment altering equipment, such as air conditioners. Products sold by LaCrosse Technologies and Sensorcon monitor environmental conditions, such as temperature and humidity, in spaces. Focused as they are on spaces, as opposed to individual moveable objects residing in spaces, such sensor/warning systems do not include motion detectors.
Independently, existing monitors, because they are too large and heavy, cannot be attached to musical instruments without altering the musical performance of the instrument. Further, in order to offer practical protection of individual objects in a store or in a museum, the monitoring sensor system must be significantly less expensive than the object itself. This is not the case.
Independently, patent application CN 203149795 describes a single-chip system that monitors temperature and humidity, it does not address motion detection.
The invention combines hardware and software in a system that protects valuable items, such as musical instruments, objects of art and retail items for sale. The hardware integrates sensors (temperature, humidity, and motion e.g.), data storage, wireless communication and a controlling microprocessor into a microelectronic module small and light enough to be attached to a musical instrument without affecting its musical performance, and sufficiently inexpensive to attach to individual items in a store or museum. Software executes on both the module and on a nonproprietary data receiver, such as a smartphone, and generates cell-phone and internet alerts based on data collected by one or more sensors on one or more modules. Different embodiments can include a variety of sensors, but embodiments described here all include an accelerometer enabling motion detection in addition to the basic environmental factors, temperature and humidity. Some module embodiments exploit the accelerometer by allowing finger taps to control the microprocessor. For example, finger taps can initiate recording of musical output and storage of this output in the module's nonvolatile memory. Other embodiments exploit the accelerometer to record the history of shock or misuse of the protected item. In some embodiments, code running on the data receiver enables archiving and analysis of the module data on cloud-based servers. The range of the wireless communication between the module and the data receiver exceeds 30 m, and the microprocessor stores data in non-volatile memory and transmits it only when it senses that the data receiver is within range. The module can transmit data to multiple data receivers, transmitting module data to those data receivers that are within communication range. Some embodiments enable instrument tuning and recording.
The invention is a protection device that integrates modern microelectronic sensors, nonvolatile storage, wireless communication controlled by a microprocessor into a module small enough, light enough to be attached directly to a musical instrument without altering its musical performance. The sensors sense both environmental factors, such as temperature and humidity, and motion factors, such as theft or misuse. Additionally, the module is sufficiently inexpensive to be attached to the individual items in a retail store or museum. The module exploits modern computing and communication technology, such as smartphones and Bluetooth communication to generate alerts and to enhance enjoyment of musical instruments.
We begin with the aspects of the invention that are common to all the embodiments disclosed. The module is a printed-circuit board that, together with its protective case and battery weighs less than 25 grams. A schematic diagram of the module is shown in
The sensors include those monitoring environmental factors, such as temperature and humidity as well as an accelerometer that senses motion changes. Motion detection enables alerts for theft or misuse and control of the microprocessor by finger taps on the protected item. For example, a pattern of finger taps can initiate the recording of musical performance that is stored in the module's memory.
The module also contains a power supply, such as a battery and a transmitter and antenna for wireless communication. The power supply powers the sensors, nonvolatile memory, communications hardware and the microprocessor.
As illustrated in
The data receiver is a critical, but nonproprietary component of the system. It can be a personal computer, a tablet computer, a smartphone or a Bluetooth hub. The module detects the presence of any of a stored list of data receivers in communications range, and downloads sensor data stored in the module's nonvolatile memory. Optionally, as indicated in
Many embodiment options imply many possible embodiments. For example, as mentioned, the data receiver can be any of the commercially available “smart” communications devices, including PC, smartphone, tablet or Bluetooth hub. The “smart” attribute implies that the data receiver can execute a wide variety of application software, in particular, applications that generate alerts or warnings based on data received from the module. Such alerts can be based on data from a single or multiple sensors or from multiple modules. For example, motion of a protected item indicated by accelerometer data can be combined with increased frequency of reporting of environmental data to protect against the possibility that the protected item is being moved to a less desirable environment.
Applications running on the data receiver can also report the loss of communication with the module. This loss of communication could indicate theft or misuse. As mentioned above, code executing on the module can be edited and configured from the data receiver.
The data received from the module and alerts based on such data can be forwarded to other cell phones or PCs or to cloud-based servers using the internet, as shown in
The module can also contain a clock allowing the sensor data to be timestamped. Using the clock together with the accelerometer enables the creation of a shock history to be created for fragile items, for example. The shock history can be stored in nonvolatile memory until the module and data receiver are sufficiently close to one another to allow download.
Some embodiments include the reporting of charge levels on the module's battery power supply, and alerts when the charge level falls below a configurable level.
In some embodiments, such as that shown schematically in
Some embodiments of the invention are specialized to the protection and enhancement of musical instruments. These embodiments can include a microphone and an instrument pickup in the module, as shown in
The output of musical instruments can be input to other electronic equipment, such as amplifiers. The microprocessor on the module can control such connections. One particular form of this control allows the user to control this microprocessor functionality using finger taps sensed by the accelerometer.
Filing Document | Filing Date | Country | Kind |
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PCT/US14/68622 | 12/4/2014 | WO | 00 |
Number | Date | Country | |
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61911746 | Dec 2013 | US |