RU114201U1 - OBJECT DETERMINATION SENSOR - Google Patents

Abstract

1. A sensor for determining the location of an object, characterized in that the wristband, designed to be worn on the wrist, thigh or forearm, contains a DECT signal processor, a DECT radio module, a built-in antenna, a loudspeaker, a microphone, a signal button, a light indicator and a fall sensor connected to a single electrical circuit consisting of signaling information and power transmission lines, containing a power supply and a battery, which in turn are connected to a DECT signal processor, and the power supply and a battery are connected to a DECT signal processor, a DECT radio module, a loudspeaker and a microphone, while the radio module DECT is configured to record the radiation level of at least three DECT base stations and is capable of recording the time delay of the transmitted signal from at least three DECT base stations, with the possibility of transmitting level and time delay measurements in the DECT service channel or in spoken channel e DECT in DTMF encoding. ! 2. The sensor according to claim 1, characterized in that it contains a contactless charging system operating on an inductive principle. ! 3. The sensor according to claim 1, wherein the DECT radio module is additionally configured to record the time delay of the transmitted signal. ! 4. The sensor according to claim 1, characterized in that it is configured to transmit measurement data of the registered time delay of signal propagation, as well as the registered level of at least 3 base transmission stations for further processing in the DECT service channel in the form of short messages or in a DECT spoken channel in DTMF encoding.

Description

The technical solution relates to the field of monitoring and control systems for moving objects using direction finding tools and can be used to control the movement of objects, in particular people, with the implementation of an alarm if necessary, including for people subjected to restrictions on freedom movement.

The developed device relates to geolocation systems, designed to determine the location of an object anywhere in the coverage area of the DECT network, wherever it may be.

Geolocation systems are based on various principles, among which the most modern and efficient consists of a combination of MSS (satellite positioning system) and GSM (global mobile communication system) (digital telephony system with a cellular structure), which makes it possible to accurately determine the geographical coordinates of an object, then transmitted to the control center, where the coordinates can be transferred to an electronic map for immediate display.

Such systems, which at the initial analysis may seem to be the final solution to the problem, are in fact extremely vulnerable due to the coverage area of the communication satellite, which can be easily shielded in the open air and absent indoors; In addition, GSM communications are unreliable. All of the above limits the scope of such solutions.

It is more preferable to use the location of the object using the MTS system, and to use GPS technology to transmit data regarding the location.

Known (US Patent 5396227) is a surveillance and remote alarm system for people subjected to restrictions on freedom of movement. According to a known system, a fixed module is placed in an area in which an observed person can move. A personal element of the bracelet is attached to the person, made with the possibility of establishing electromagnetic communication with the fixed module, as well as for establishing communication through the telephone line of the fixed module with the operation center. The fixed module is additionally equipped with a CPU (central processor) of the control unit for interaction with a radio transmitting device, which is built into the personal element of the bracelet. In addition, the fixed module provides means for detecting any interruption of communication between the fixed module and the personal element, and which makes it possible to send an alarm to the operation center.

The disadvantage of the known system and the bracelet used in it should be recognized as the lack of the possibility of establishing voice communication with the object, the inability to determine the exact location of the object, and the inability to transmit an alarm signal from the object to the control center.

It is known (US Patent 5196825) a beacon device containing a transmitter and a transceiver located on a controlled person and a fixed receiving station for signals from both transmitters, providing registration of a person’s location based on a signal level measurement.

A disadvantage of the known device should be recognized its limited capabilities - only providing a signal upon the fact of a person’s exit from the area allowed for his movement.

It is known (RU, patent 2085997) a device for signaling the location of an object, intended mainly for monitoring using a beacon for the whereabouts of children, persons with reduced legal capacity and pets. The device consists of a radio transmitter containing a serially connected master RF generator, a modulator, a power amplifier and a transmitting antenna, and a receiver containing a serially connected receiving antenna, a radio frequency amplifier, a mixer, an intermediate frequency amplifier, and a first detector, as well as a local oscillator connected to the second input of the mixer , blocks of sound and visual indication and is characterized in that the first quartzized low-frequency gene is sequentially connected to the radio transmitter the inverter and programmable frequency divider, the output of which is connected to the second input of the modulator, the receiver includes sequentially connected repetition frequency filters, a second detector and a threshold block, serially connected amplitude limiter, a signal processing unit with a second quartz low-frequency generator connected to its clock input, a switch, an analog-to-digital converter, a memory unit with a recording mode switch and a two-coordinate display unit, as well as a memory control unit, connected connected to the address input of the memory unit and the synchronization input of the two-coordinate display unit, while the inputs of the visual and sound indication units are connected to the first output of the processing unit, the input of the repetition frequency filter is connected to the output of the first detector, the input of the amplitude limiter is connected to the output of the intermediate frequency amplifier, the second signal input of the switch is connected to the output of the second detector, the output of the first threshold block is connected to the control input of the switch and the input of the memory block, the input of the block memory management and the clock input of the analog-to-digital Converter are connected to the second output of the signal processing unit.

The known device based on a beacon provides only a fixation of the fact of finding the object of observation within a given boundary. The device does not allow direct measurement of the distance to the transmitter and makes it possible only indirectly to estimate the distance between the receiver and the transmitter by the level of the received signal.

Known (US patent 4918432) surveillance system for home arrest. The known system includes an identification device mounted on the person being monitored, the identification device including: a first power source, a monitoring device (passive monitoring unit) for monitoring the given conditions, a transmitter for periodically transmitting data including information that uniquely identifies the monitoring device , and information about the environment obtained by the control device, in addition, the known system contains a receiver receiving signals from the transmitter at troystva control and data processing unit, which analyzes data received from the monitoring device, by determining the time of receipt of the periodic signal and control information identification device contained in data received by the receiver.

The known system does not allow to determine the location of the observed object, to control the integrity of the control device (passive monitoring unit), to provide operational monitoring of the status (charge / discharge) of the power source of the passive monitoring unit. In addition, the disadvantages of the known system include a relatively large period of time for transmitting information from a passive monitoring unit. The known system uses an active radio transmitting device worn by an observable, which is undesirable since the medical aspect of constant skin contact with active radio transmitting equipment has not yet been studied

The closest analogue of the developed sensor can be recognized (RU, patent 2250502) a complex of equipment for individual technical monitoring, characterized in that it contains a monitoring unit with a transponder module, a subscriber unit of the complex and a centralized control panel with a computer, while the monitoring unit includes a control unit the first input of which is connected to the output of the discharge sensor of the power source of the monitoring unit, the input of the discharge sensor of the power source of the monitoring unit is connected to the power source monitoring unit, the output of the monitoring unit power supply is connected to the second input of the control unit, the third input of which is connected to the output of the destruction sensor of the monitoring unit, and the output of the control unit is connected to the first input of the encryption unit, the output of which is connected to the transponder transmitter of the monitoring unit, and the source output the power of the monitoring unit is connected through the control unit to the input of the destruction sensor of the monitoring unit and through the encryption unit to the second input of the transmitter of the monitoring unit, and the transponder The transmitter unit of the monitoring unit is configured to periodically transmit information about the technical condition of the monitoring unit to N transponder receivers of the subscriber unit, where N is greater than or equal to 1, which includes N modems, the inputs of which are connected to the outputs of the respective receivers of the subscriber unit, and the outputs of the modems are connected to the first input of a two-wire communication modem, the second input-output of which is connected to the first input-output of the interface unit, the second input-output of which is connected to the input-output of the unit security control of the subscriber unit, and the output of the interface unit is connected to a GSM modem of the subscriber unit, the second input of which is connected to the third input of the interface unit, to the third input of the modem of the two-wire communication line and to the output of the power supply, the input of which is connected to the output of the backup power supply, moreover, the GSM modem of the subscriber unit is configured to transmit data to the GSM modem of the centralized control panel, while the GSM modem of the centralized control panel is connected via an adapter to the computer cent remote control alizovannogo. Passive monitoring unit can be made in the form of a bracelet to be worn on the arm or leg.

A disadvantage of the known complex can be recognized as its complexity, as well as the impossibility of transmitting voice or other signaling information towards a passive monitoring unit. In addition, the disadvantage of this system can also be attributed to the low distance of the passive transponder blocks from the corresponding readers.

The technical problem solved by the developed design is to expand the range of monitoring and control systems for moving objects using direction finding tools.

The technical result obtained by the implementation and developed design is to provide the ability to control the movement of objects, in particular people, with the implementation of emergency alarms if necessary, including for people subjected to restrictions on freedom of movement, in rooms open and enclosed spaces inaccessible to GPS or GLONAS navigation systems located in the coverage area of the DECT network.

To achieve the specified technical result, it is proposed to use the position sensor of the object of the developed design. The sensor of the developed design is a bracelet designed to be worn on the wrist, thigh or forearm, and contains a DECT signal processor, a DECT radio module, an integrated antenna, a speaker, a microphone, a signal button, a light indicator and a drop sensor connected to a single electric circuit consisting of from transmission lines of signal information and power, containing a power source and a battery, which in turn are connected to a DECT signal processor, the power source and battery being are connected to the DECT signal processor, DECT radio module, loudspeaker and microphone, while the DECT radio module is configured to record the radiation level of at least three DECT base stations and to record the time delay of the transmitted signal from at least three DECT base stations , with the possibility of transmitting measurement data of level and time delay in the DECT service channel or in the DECT talk channel in DTMF encoding. In some embodiments, the sensor further comprises a non-contact charging system operating inductively. Preferably, the DECT radio module is further configured to register a time delay of the transmitted signal. The sensor can be arranged to transmit measurement data of the registered propagation time delay of the signal, as well as the registered level of at least 3 base transmission stations for further processing in the DECT service channel in the form of short messages or in the DECT talk channel in DTMF encoding.

The developed sensor operates as follows.

Being registered in the DECT system, the sensor, upon request, received via the service channel, makes measurements at all carrier frequencies defined by the DECT standard. As a result of the measurements, the sensor finds the emitting base stations and determines the level of the signal emitted by them. Additionally, the sensor determines the time delay in the propagation of signals from each base station of the signal, that is, the time difference between the moment of transmission and the moment of reception of the signal. Information obtained as a result of measurements is transmitted over the service channel in response to a request. Subsequently, this information can be used to determine the location of the object, both by the method of triangulation with previously known coordinates of the base stations, and by the method of preliminary calibration of the levels of base stations.

Using the developed device allows you to provide the ability to control the movement of objects, in particular people, with the implementation of an alarm if necessary, including for people subjected to restrictions on freedom of movement, in rooms, open and closed spaces, inaccessible to GPS or GLONAS navigation systems located in the coverage area of the DECT network.

Claims (4)

1. The location sensor of the object, characterized in that the bracelet, made with the possibility of dressing on the wrist, hip or forearm, contains a DECT signal processor, a DECT radio module, a built-in antenna, a speaker, a microphone, a signal button, a light indicator and a drop sensor connected to a single electrical circuit consisting of signal information and power transmission lines containing a power source and a battery, which in turn are connected to a DECT signal processor, and the power source and battery the transmitter is connected to a DECT signal processor, a DECT radio module, a loudspeaker and a microphone, while the DECT radio module is configured to record the radiation level of at least three DECT base stations and to record the time delay of the transmitted signal from at least three base stations DECT, with the ability to transmit measurement data of level and time delay in the DECT service channel or in the DECT talk channel in DTMF encoding. 2. The sensor according to claim 1, characterized in that it contains a non-contact charging system operating inductively. 3. The sensor according to claim 1, characterized in that the DECT radio module is further configured to register a time delay of the transmitted signal. 4. The sensor according to claim 1, characterized in that it is capable of transmitting measurement data of the registered time delay of signal propagation, as well as the registered level of at least 3 base transmission stations for further processing in the DECT service channel in the form of short messages or in the DECT talk channel in DTMF encoding.