RU94784U1 - COMMUNICATION SYSTEM THROUGH A HUMAN BODY - Google Patents

Abstract

 A communication system through a human body, comprising a first communication device for generating an electric field near the human body, modulated in accordance with the transmitted information, and a second communication device located on or in the immediate vicinity of the control object, designed to detect corresponding changes in the electric field near the body human and demodulation of information based on these changes, while the first communication device contains modulation means and series-connected devices a communication direction switching device, a demodulation means and a control device, the output of which is connected to a control input of a communication direction switching device, the output of which is connected to an electric field generation electrode, and the second communication device, in turn, contains an electric field change detection electrode, a direction switching device communication and demodulation means connected to the input of the control object, while the second input of the switching device the communication direction is connected to the output of the modulation means, and the control input is connected to the output of the control device, characterized in that it is introduced into the first communication device - a controlled amplifier, the input of which is connected to the output of the modulation means, the control input is connected to the second output of the control device, and the output is connected with the second input of the device for switching the direction of communication, and into the second communication device, an indicator of the signal level, the input of which is connected to the second output of the demodulation means, and the output is with the inputs of the media

Description

The proposed technical solution relates to radio engineering and can be used to transmit and receive information through an electric field created near the human body.

A communication device [1] is known for transmitting / receiving data to an actuator (host device) through a human body, comprising an electrode unit in contact with the human body and a signal amplifier. However, when organizing communication in the form of current through the human body, the direction of communication is limited by the position of the electrode worn on the human body, which limits the degree of freedom in communication. In addition, given the variability of the resistance of the human body, it is technically difficult to provide a sufficient level of reception / transmission signals through the human body, which leads to communication instability.

A known communication system through the human body [2], containing a transmitter (modulator), a transmitting data unit, and a receiver (demodulator), receiving a data unit, including an automatic gain control (AGC), maintaining the constant amplitude of the signal of the data unit transmitted through the body person.

In this system, the AGC is located on the receiving side and processes the signal from the receiving electrode. In the event of a deterioration of the communication channel (increase in the resistance of the human body caused by its movement or other factors), even at maximum transmitter power, the useful signal at the receiver input may be lower than the noise level and the signal received by the receiver will be lost or distorted.

Closest to the proposed communication system through the human body is a communication system [3], containing a first communication device for generating an electric field near the human body, modulated in accordance with the transmitted information, and a second communication device located on or in the immediate vicinity of the control object, designed to detect the corresponding changes in the electric field near the human body and demodulate information based on these changes, while the first communication device sod neighbors a modulation means and series-connected communication direction switching device, a demodulation means and a control device, the output of which is connected to a control input of the communication direction switching device, the output of which is connected to an electric field generating electrode, and the second communication device, in turn, contains a change detection electrode connected in series electric field, a device for switching the direction of communication and demodulation means connected to the input of the object control, while the second input of the device switching the direction of communication is connected to the output of the modulation means, and the control input is connected to the output of the control device.

However, in the known communication system, to prevent noise, the floor surface of the communication channel is separated from the surface of the earth (floor of the building), which limits the use of this system. In addition, the parameters of the communication system are calculated for a specific arrangement of devices on the human body with a given area of the electrodes. When changing the position of devices (electrodes) on the human body, unstable operation of the system is possible.

The purpose of the utility model is to increase the reliability of the communication system through the human body without limiting its operational and design parameters, as well as the freedom of human movement.

To achieve this goal, a communication system through the human body containing the first communication device for generating an electric field near the human body, modulated in accordance with the transmitted information, and a second communication device located on or in the immediate vicinity of the control object, designed to detect the corresponding changes in an electric field near the human body and demodulation of information based on these changes, while the first communication device contains modulation means and and a series-connected communication direction switching device, a demodulation means and a control device, the output of which is connected to a control input of a communication direction switching device, the output of which is connected to an electric field generation electrode, and the second communication device, in turn, contains a detection field for detecting changes in the electric field , a device for switching the communication direction and demodulation means connected to the input of the control object, while The other input of the communication direction switching device is connected to the output of the modulation means, and the control input is connected to the output of the control device, the following are input: the first communication device is a controlled amplifier, the input of which is connected to the output of the modulation means, the control input is connected to the second output of the control device, and the output is connected with the second input of the device for switching the direction of communication, and in the second communication device is an indicator of the signal level, the input of which is connected to the second output of the demodulation means, and the output from strokes of the modulation means and control devices.

The drawing shows a structural electrical diagram of the proposed communication system through the human body.

A communication system through a human body contains a first communication device 1 and a second communication device 2. The first communication device 1 includes a modulation means 3 (for example, a frequency-modulated signal transmitter), the output of which is connected via a controlled amplifier 4 to the “transmission” input of the switching device 5 communication direction, the input of which is connected to the input of the demodulation means 6 (for example, a receiver of a frequency-modulated signal), the output of which is connected to the input of the control device 7. The first output of the control device Nia 7 is connected to the input of the control amplifier 4 is managed, and the second output (switching output) - to the control input device 5 due to the shifting direction, the output of which is connected to electrode 8 generating an electric field near the human body. The second communication device 2, in turn, contains a series-connected electrode 9 for detecting changes in the electric field near the human body and a device 10 for switching the direction of communication, through the input "reception" connected to the input of the demodulation means 11, the output of which is connected to the input of the control object 12. the output of the demodulation means 11 is connected to the input of the signal level indicator 13, the output of which is connected to the inputs of the modulation means 14 and the control device 15. The output of the modulation means 14 is connected to the input "" device 10 switching the direction of communication, the control input of which is connected to the output of the switching connection of the control device 15.

Note - The demodulation means 11 and the signal level indicator 13 of the second communication device 2 can be implemented, for example, on a single chip type SA604A company PHILIPS Semiconductors.

The proposed communication system through the human body works as follows.

When a modulation signal 3 of the first communication device 1 (the transmitting part of the system) is supplied with an information signal S1 of a certain duration, for example, to turn on the control object 12, the control device 7 sets the communication direction switching device 5 of the first communication device 1 to the transmission position. Moreover, a similar device 10 of the second communication device 2 (receiving part of the system) is in the receiving position. In modulation means 3, the signal S1 modulates the frequency f, which allows you to generate an electric field around the human body, the intensity of which, in the immediate vicinity of the human body, is significantly greater than the intensity of the radiation field and the induction field [3].

The modulated signal from the output of the modulation means 3 through a controlled amplifier 4 and a communication direction switching device 5 is supplied to the electric field generating electrode 8.

Changes in the electric field near the human body corresponding to the information signal S1 are detected by the detection electrode 9 of the second communication device 2 and the received signal S2, through the device 10 switching the communication direction is supplied to the input of the demodulation means 11.

The signal S2 at the input of the demodulation means 11 is analyzed by the signal level indicator 13, which, depending on the amplitude of the signal S2, forms three voltage levels U1, U2 and U3, which determine the effectiveness of the communication system.

The appearance of a voltage level U1 or less at the output of the signal level indicator 13 indicates that the signal at the input of the demodulator 11 is weak and insufficient for the control object 12. In addition, the voltage U1 is not enough to switch the communication direction switching device 10 using the control device 15 to transfer mode.

In the first communication device 1, the control device 7, having not received confirmation of the operation of the control object 12 from the communication device 2, increases the gain of the amplifier 4 and repeats the transmission of the information signal S1 with greater power.

The process of increasing the gain of the amplifier 4 in the first communication device 1 continues until the voltage U2 appears at the output of the signal level indicator 13 of the second communication device 2.

The voltage U2 at the output of the signal level indicator 13 indicates that the signal at the input of the demodulation means 11 is optimal and it is sufficient for operation of the control object 12.

In this case, the control device 15 of the second communication device 2 switches the communication direction switching device 10 to the transmission position, and the modulation means 14, based on the voltage U2, generates a signal S3 for transmission at the same frequency f through the electrode 9 to the first communication device 1.

The signal S3 received by the electrode 8 of the first communication device 1 through the communication direction switching device 5, which is in the receiving position, is input to the demodulation means 6, which generates a control signal proportional to the voltage U2 at the input of the control device 7. The appearance of this signal at the input of the control device 7 indicates the optimal mode of operation of the communication system and the tuning process of the controlled amplifier 4 is terminated.

During the operation of the communication system, due to a change in the position of the electrodes on the human body or its movements, there may be cases when the electric field around the human body increases, which leads to an increase in signal S2 at the input of demodulation means 11. An increase in signal level S2 is fixed by level indicator 13 signal and at its output voltage U3 is formed. The modulation means 14 of the second communication device 2 in this case generates a signal S4 for transmission at the same frequency f through the electrode 9 to the first communication device 1.

The signal S4 received by the electrode 8 of the first communication device 1 through the communication direction switching device 5, which is in the receiving position, is input to the demodulation means 6, which generates a control signal proportional to the voltage U3 at the input of the control device 7. The appearance of this signal at the input of the control device 7 indicates the possibility of reducing the gain of the amplifier 4 to optimize the communication process and reduce energy consumption in the communication system through the human body.

Literature

1. Patent KR 10-2005-0100621 (10.25.2005), (analogue). Publication WO 2007-049845 A2 (05/03/2007).

2. Patent KR 10-2007-0129774 (12.13.2007), (analogue). Publication WO 2009-075420 A1 (06/18/2009).

3. Patent RU 2302699 C2. Communication system, (prototype). Published in BI No. 19 dated 07/10/2007.

Claims (1)

A communication system through a human body, comprising a first communication device for generating an electric field near the human body, modulated in accordance with the transmitted information, and a second communication device located on or in the immediate vicinity of the control object, designed to detect corresponding changes in the electric field near the body human and demodulation of information based on these changes, while the first communication device contains modulation means and series-connected devices a communication direction switching device, a demodulation means and a control device, the output of which is connected to a control input of a communication direction switching device, the output of which is connected to an electric field generation electrode, and the second communication device, in turn, contains an electric field change detection electrode, a direction switching device communication and demodulation means connected to the input of the control object, while the second input of the switching device the communication direction is connected to the output of the modulation means, and the control input is connected to the output of the control device, characterized in that it is introduced into the first communication device - a controlled amplifier, the input of which is connected to the output of the modulation means, the control input is connected to the second output of the control device, and the output is connected with the second input of the device for switching the direction of communication, and in the second communication device - signal strength indicator, the input of which is connected to the second output of the demodulation means, and the output - with inputs Twa modulations and control devices.