RU26346U1 - HUMAN POSITIONING SYSTEM - Google Patents

Description

Human positioning system

The utility model relates to the field of radio electronics, and more specifically to electronic alarm devices and can be used, for example, to monitor a person’s condition and determine his location.

Known devices, for example, for monitoring the condition of a person, containing an ophthalmic contact lens placed on the human eye, equipped with an autonomous power source at least one emitter of a test signal, the frequency of which is selected in the radio frequency range, located in the peripheral part of the ophthalmic contact lens, and sequentially connected test signal receiver located in relation to the emitters of the test signal with the possibility of changing the intensity of the emitted test signal When blinking eyelid, information processing unit and a unit generating an alarm, wherein the receiver test signal and the information processing units and generating an alarm human arranged outside the eye, for example, on the vehicle body in front of the driver's head (US 6,087,941 A, 2000).

However, the test signal is open to external influences, which reduces noise immunity. Placing most of the elements outside the human eye does not provide stealth, which is especially

important, for example, when attacking an attacker. Such a device does not contain elements, allowing them to transmit an alarm signal at a distance and determine the location of a person.

Of the known devices, the closest to the proposed one is a human positioning system containing an individual device for covert control of an alarm signal and an autonomous positioning unit made in the form of a cellular receiver and transmitter located in the same housing and connected to them by a controller based on a microprocessor and an antenna connected cellular communication with a global positioning system, made primarily in the form of a mobile telephone system including satellites, with marketing base stations, each of which is further provided with a global positioning system receiver, and security station {US 5838237, 1998).

The button is used as an individual secretive alarm control device in this device, and the case of a watch, bracelet or other object that a person can wear is used as a case.

Such a device makes it possible to determine the location of the person who has given the alarm signal, or for which constant monitoring is carried out, and to enable the person to understand that his alarm signal is received. However, it is not effective enough, since, for example, it can be difficult to ensure that the device is actuated by a person unnoticed by the attacker. In the case of an unexpected loss of consciousness by a person or falling asleep, such a device does not

- 2 will sound an alarm.

The problem solved by the utility model is to create a human positioning system, free from the disadvantages of the prototype. The technical result provided by the utility model consists in increasing the efficiency of a person’s positioning system by increasing the stealth, objectivity and efficiency of alarm management.

This is achieved by the fact that in a person’s positioning system containing an individual device for covert alarm control and an autonomous positioning unit, made in the form of a cellular receiver and transmitter located in the same housing and connected to them by a controller based on a microprocessor and an antenna connected by cellular communication with a global positioning system, made primarily in the form of a telephone mobile communication system, including satellites, cellular base stations, each of which additionally equipped with a receiver for the global positioning system, and a safety station, an individual device for covert alarm control contains an off-line contact lens located on the human eye, in the peripheral part of which there are emitter-receiver pairs of the test signal, the frequencies of which are mainly selected in the infrared range, the processing unit information, the inputs of which are connected to the outputs of the test signal receivers, an alarm transmitter connected to the output of the unit information-processing systems, and stand-alone power source, the emitters and receivers of the test signal in each of the pairs are arranged - 3 - 4

With the possibility of changing the intensity of the emitted test signal when the eyelid blinks on its inner surface, and the alarm transmitter is connected by radio communication with a cellular receiver of an autonomous positioning unit, made separately with an individual secretive alarm control device, the distance between which is selected from the condition of stable radio communication between the transmitter alarm and cell receiver.

The drawing shows a structural block diagram of an embodiment of a human positioning system.

It contains an autonomous positioning unit, made in one housing, including a cellular receiver 1, a cellular transmitter 2 and a controller 3, as well as an antenna 4. The controller 3 contains a microprocessor. The power supply is located in the same case (not shown in the drawing). Cellular receiver 1 and transmitter 2 can be combined and made in the form of a single transceiver. Antenna 4 is connected by cellular communication to the global positioning system 5, made primarily in the form of a telephone mobile communication system, including satellites and cellular base stations. For the possibility of functioning in this system, cellular base stations contain receivers of a global positioning system. The system also includes a safety station (not shown in the drawing) that receives positioning and alarm signals. The implementation of these elements does not have fundamental features for the claimed system, and their specification is disclosed in the description of the above prototype. Individual stealth device

the alarm control system contains an ophthalmic contact lens (not shown), in the peripheral part of which are arranged predominantly in the form of microchips - at least one emitter of test signal 6, at least one receiver of test signal 7, information processing unit 8 , an alarm transmitter 9 and an autonomous power source, for example, in the form of a solar battery (not shown in the drawing). The frequencies of the emitters b and the receivers 7 of the test signal are selected mainly in the range of infrared radiation and are arranged so that the intensity of the emitted test signal changes when the eye surface blinks on its inner surface. The stand-alone positioning unit is separate from the individual secretive alarm control device and can optionally be placed on the human body, but, for example, in the vicinity of it.

The human positioning system works as follows. In one embodiment, the emitters of the test signal 6 emit a sequence of pulses in the direction toward the inner surface of the eye eyelid. When it is open, test signals or most of them go into the surrounding space and disperse there. When it is closed, the test signals are reflected from it and fed to the corresponding receiver of the test signal 7. During normal blinking, the inner surface of the eye eyelid periodically reflects the test signal. The detected test signals are sent to the information processing unit 8, in which, in accordance with the specified algorithm, the modulation frequency is analyzed and compared with

- 5 normal frequency. In the case of a normal blinking process, there is no corresponding signal at the output of this unit and the alarm transmitter 9 does not generate and does not transmit an alarm. In the case when a person is, for example, in a state of fainting or consciously closing his eyes in an alarming situation, the blinking frequency becomes anomshnno low and the information processing unit 8 gives the corresponding signal, as a result of which the alarm starts to be transmitted. At the same time, complete secrecy, objectivity and efficiency of the person’s control of the alarm signal is ensured. Due to the presence of an autonomous positioning unit associated with the alarm transmitter 9 and the global positioning system 5, the alarm signal simultaneously with the positioning signals is transmitted to the security station, where it is received by the operator who makes the necessary decision, or by a computer in automatic mode that transmits the necessary information, for example, to the rescue service. The functioning of the global positioning system 5 and the autonomous positioning unit does not have fundamental features for the claimed system, and its cokretization is disclosed in the description of the above prototype.

The person’s positioning system, made in accordance with the utility model, is highly efficient and allows you to determine the location of a person in an alarming situation with a high degree of reliability without undesirable consequences for him.

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- 6

Claims (1)

A human positioning system comprising an individual secretive alarm control device and an autonomous positioning unit made in the form of a cellular receiver and transmitter located in one housing and a controller connected to them, made on the basis of a microprocessor, and an antenna connected by a cellular communication to a global positioning system made mainly in the form of a telephone mobile communication system, including satellites, cellular base stations, each of which is additionally equipped with a receiver of a global positioning system, and a security station, characterized in that the individual device for covert alarm control contains an ophthalmic contact lens located on the human eye, in the peripheral part of which there are pairs of emitter-receiver of the test signal, the frequencies of which are mainly selected in the infrared range, an information processing unit, the inputs of which are connected to the outputs of the test signal receivers, an alarm transmitter connected to the output of the processing unit information, and an autonomous power source, while the emitters and receivers of the test signal in each pair are located so that the intensity of the emitted test signal can be changed when the eyelid blinks on its inner surface, and the alarm transmitter is connected by radio to the cellular receiver of the autonomous positioning unit performed separately with an individual device of stealth alarm control, the distance between which is selected from the condition of stable radio communication between the transmitter alarm and cell receiver.