RU2181611C2 - Apparatus for controlling sportsman's actions at distance - Google Patents

Abstract

FIELD: sportive equipment. SUBSTANCE: apparatus has switches connected in series, GPS-demodulator, display unit, GPS-receiver and waiting multivibrator, whose output is connected to indicator input. First output of indicator is connected to control input of switch, whose information input is connected to output of high-frequency demodulator, and second output of indicator is connected to input of first delay line. Output of GPS-receiver is connected to information input of electronic key. Apparatus is used for controlling and providing safe exercising for sportsman in sportive orientation. EFFECT: increased efficiency and reduced time for determining location of sportsman needing special aid. 1 dwg

Description

 The proposal relates to sports simulators and can be used to control and ensure the safety of athletes in training, for example, in orienteering.

 A device for recording violations of the rules of sports walking [1], containing sensors connected to transmitters and power sources, a mixer, an element And, a key, multivibrator, tone generator and a microphone. However, the known device provides insufficiently objective control of an orienteer athlete at a distance. The specified disadvantage is eliminated in the device for monitoring the actions of an athlete at a distance [2], which is the closest in technical essence to the claimed one. The device [2] contains a contact element with fastening means on the athlete’s shoes, a transmitter with a high-frequency modulator, a receiver with a high-frequency demodulator and a recording device, as well as an electronic key, a clock generator, a trigger, a pulse counter, OR, AND and NOT circuits, delay lines and an indicator whose input is connected to the output of the first circuit And, one of the inputs of which is connected to the output of the first delay line and to one of the inputs of the second circuit And, the second input of which is connected to the input of the first delay line and the output demodulator, and the second input of the first AND circuit through the circuit is NOT connected to the input of the recording device and the output of the first OR circuit, one of the inputs of which is connected to the input of the second delay line and the output of the second AND circuit, and the second input of the first OR circuit is connected to the output of the second line delays, moreover, the contact element is connected to one of the inputs of the second OR circuit and to the pulse input of the pulse counter, the output of the highest bit of which is connected to the trigger input, the output of which is connected to the control input of the electronic key, and the counting od pulse counter connected to the output of the clock generator and the information of the electronic key input, the output of which is connected to the second input of the second OR circuit, whose output is connected to the input of the RF modulator.

 A disadvantage of the known device is the relatively low efficiency of its functioning when the athlete is in an anxious state, which is associated with the need for additional material and time costs for determining the location of an athlete who has been injured or has lost consciousness. This leads to the impossibility of providing emergency assistance to an athlete who is in an anxious state.

 The objective of the invention is to increase the efficiency of the device for monitoring the actions of an athlete at a distance, which consists in reducing the time to determine the location of an athlete requiring emergency assistance.

 The technical result is achieved in that in a device for monitoring the athlete’s distance, containing a contact key located in the athlete’s shoes, a transmitter with a high-frequency modulator, a receiver with a high-frequency demodulator, a pulse generator, a trigger, a pulse counter, two OR circuits, two AND circuits, two delay lines, an electronic key, an indicator, the input of which is connected to the output of the first circuit And, one of the inputs of which is connected to the output of the first delay line and with one of the inputs of the second circuit And, the second input of which is is dined with the output of the first delay line, and the second input of the first AND circuit is connected to the input of the recording device and the output of the first OR circuit, one of the inputs of which is connected to the input of the second delay line and the output of the second And circuit, and the input of the first OR circuit is connected to the output of the second line delays, moreover, the contact key is connected to one of the inputs of the second OR circuit and to the zero input of the pulse counter, the output of the highest bit of which is connected to the trigger input, the output of which is connected to the control input of the electronic key, the counting input of the pulse counter is connected to the output of the pulse generator, while the output of the electronic key is connected to the second input of the second OR circuit, the output of which is connected to the input of the high-frequency modulator, according to the invention, a series-connected switch, a GPS demodulator and a display board, a GPS receiver and a multivibrator is waiting, the input is connected to the indicator output, and the output is connected to the control input of the switch, the information input of which is connected to the output of the high-frequency demod a radiator, and the second output is connected to the input of the first delay line, and the output of the GPS receiver is connected to the information input of the electronic key.

 Thus, a GPS receiver has been introduced into the device worn by an athlete, which, using the orbital constellation of navigation spacecraft of the Glonass (Russia) or NOVSTAR (USA) series, allows location determination with an accuracy of 5-10 m [3]. During a normal run of an athlete, high-frequency radio pulses are continuously emitted into the radio wave propagation medium, the duration of each of which is equal to the duration of the athlete's foot support at the corresponding step. If an athlete is injured: falls, loses consciousness, he is not able to close the contact key located in the athlete’s shoes during the period of accumulation of pulses in the pulse counter. The pulse accumulation time was chosen more than the maximum possible time interval during which, under normal conditions, the athlete must step with his foot at least once and close the contact key. In this case, radio pulses begin to be emitted not from the output of the contact key, but video pulses from the output of the GPS receiver, i.e. information about the coordinates of the athlete who is in an alarming state begins to radiate. The receiving unit, located, for example, in stationary conditions, receives radio pulses emitted by the equipment worn by the athlete, and analyzes their duration. If the pulse duration corresponds to the standard time of the athlete’s foot support, the switch connects the signal from the output of the receiving unit to the modulator, where the duration of the reference and unsupported state of the athlete’s leg during movement is recorded. If the duration of the received pulse is much shorter than the athlete’s foot support, which occurs in the athlete’s anxiety state, when the coordinate information from the GPS receiver output is transmitted to the radio wave propagation medium, the switch switches the output of the receiver unit to the input of the GPS demodulator. The output of the GPS demodulator is connected to an indicator, which in any given form indicates the coordinates of the athlete who is in an alarming state. Thus, this proposal allows you to almost instantly receive information about the coordinates of an athlete who is in an alarming state, which allows him to provide emergency assistance. This is especially important in sports such as orienteering, when competitions are held in large forests outside the direct visibility of the coach, spectators and referees.

 The device for monitoring the athlete’s actions at a distance contains a contact key 1 connected via a series-connected element OR 2 and a high-frequency modulator 3 to the input of the transmitter 4. The output of the contact key 1 is also connected to the reset input of the pulse counter 5. The information input of the pulse counter 5 is connected to the output generator 6 reference pulses. The output of the pulse counter 5 through the trigger 7 is connected to the control input of the electronic key 8, to the information input of which is connected the GPS 9 navigation receiver, designed to determine coordinates using the navigation satellite system. The output of the electronic key 8 is connected to the second input of the OR circuit 2. The transmitter 4 is connected through the radio wave propagation medium 10 to the input of the receiver 11, the output of which is connected to the input of the high-frequency demodulator 12, designed to demodulate high-frequency oscillations and obtain a sequence of video pulses. The output of the high-frequency demodulator 12 is connected to the information input of the switch 13. The first output of the switch 13 is connected to the input of the delay line 14 and the first input of the circuit And 15. The output of the delay line 14 is connected to the second input of the circuit And 15 and the first input of the circuit And 16. The output of the circuit And 15 connected to the first input of the OR circuit 17 directly, and to its second input through the delay line 18. The delay lines 14 and 18 are identical and are designed to delay electrical signals. The output of the OR circuit 17 is connected simultaneously to the input of the recording device 19, intended for recording the signal on a paper tape in the form of a graph, and through the circuit NOT 20 to the second input of the circuit And 16. The output of the circuit And 16 is connected to the input of the alarm indicator 21, designed to give a signal alarms using light or sound devices, such as a red light, a bell. The output of the circuit And 16 is also connected to the output of the standby multivibrator 22, designed to generate a single pulse, the duration of which is equivalent to several sendings of coordinate information of the GPS receiver. The output of the switch 13 through the GPS demodulator 23, designed to demodulate the low-frequency signal in the GPS standard into a video signal indicating the coordinate data on the board, is connected to the input of the display board 24. Display board 24 is designed to visualize the coordinate data in a given form, for example, in digital form or cartographic form.

 The device operates as follows. At the time of starting a distance, the athlete includes wearable equipment. In this case, the GPS-receiver 9 is turned on, and the trigger 7 is forcibly transferred to the zero state. The electronic key 8 is closed at the control input. The reference pulse generator 6 continuously generates a train of pulses with a repetition rate significantly exceeding the athlete’s maximum running frequency. The duration of each pulse is chosen much shorter than the minimum possible time for the athlete to support the leg. With each athlete's support, the contact key 1 installed in the shoe closes on one of the legs, which leads to the opening of the OR 2 circuit at the first input and zeroing all the cells of the 5-pulse counter. The small-sized transmitter 4 emits high-frequency oscillations using the high-frequency modulator 3. At the same time, the GPS-receiver 9, based on the available grouping of navigation spacecraft from Glonass or Navstar, continuously determines the coordinates of the athlete. Thus, during a normal athlete run on Wednesday 10 of the propagation of radio waves, high-frequency radio pulses are continuously emitted, the duration of each of which is equal to the athlete's leg support time at the appropriate step. In the time intervals between the closed state of the contact key 1, the counter 5 pulses counts the pulses from the output of the generator 6 reference pulses, and the transmitter 3 does not emit. The number of accumulative cells of the counter of 5 pulses is chosen so that the total filling time of all its cells corresponds to the minimum alarm time, i.e. such an interval of time during which, under normal conditions, the athlete must step with his foot at least once and close the contact on key 1. If the athlete is injured, falls, loses consciousness, etc., he is not able to close the contact on key 1 for the required time interval. In this case, the counter 5 pulses overflows. The pulse from the output of its high order translates trigger 7 into a single state. The trigger 7 opens the electronic key 8 and the coordinates in the GPS code from the output of the GPS receiver 9 are sent to the second input of the OR circuit 2. The transmitter 4 starts transmitting information about the coordinates of the athlete, which is also information about the athlete’s anxiety state. This information is transmitted in GPS encoded form in the form of a sequence of pulses, the duration of each of which is several orders of magnitude less than the duration of the athlete's foot support. In the event that the athlete resumes movement after a long pause and, in his own opinion, is not in an alarming state, he independently transfers the equipment to normal operation by re-enabling the wearable equipment. The transmitter 4 again begins to emit radio pulses corresponding to the athlete's support on one of the legs. The receiver 11 receives the radio signals and amplifies them. At the output of the high-frequency demodulator 12 there are video pulses corresponding to the pulse sequence at the output of the OR circuit 2. Video pulses are fed to the input of the delay line 14 through the first output of the switch 13 and also fed to the input of the And circuit 15. The signal from the output of the delay line 14 is received at the second input of this circuit The delay time of the signal in the delay lines 14 and 18 is identical and a slightly longer pulse duration is selected, which make up the GPS digital standard. Therefore, the signal at the output of And 15 operates only with the key 1 closed, and the pulse duration at the output of And 15 is shorter than the athlete’s support time for one of the legs for the delay time of the signal in the delay line 14. The delay line 18 and the OR circuit 17 restore the actual duration of the support athlete's foot. The signal from the output of the OR circuit 17 is fed to the input of the circuit NOT 20 and to the input of the modulator 19, where it is recorded on a paper tape in the form of a graph or in another specified form. The signal at the input of the circuit NOT 20 acts only in the case of an open contact key 1. This signal opens the circuit And 16 at the second input. At the first input of the circuit And 16 opens with a common pulse sequence from the output of the delay line 14. The signal at the output of the circuit And 16 acts only if there are signals at both inputs, which can be observed if there is navigation data in the pulse sequence. Short pulses from the output of circuit And 16 are fed to the alarm indicator 21 and the input of the standby multivibrator 22. The standby multivibrator 22 generates single pulses with a duration sufficient for reliable reception and decoding of coordinate information from the GPS standard. This single pulse switches the input of switch 13 to the second output and the signal in the GPS standard from the output of the RF demodulator 12 is fed to the input of the GPS demodulator 23, where it is converted into the form specified for display on the indicator 24. After the end of the action of a single pulse at the output of the standby multivibrator 22 13 returns to its original state, i.e. its input is switched to the first output. The equipment again analyzes the information received over the air. If the athlete continues to be in an alarming state, then after re-analyzing the duration of the input pulses, the waiting multivibrator 22 again generates pulses. In this case, the indication of the alarm mode in the indicator 21 and visualization of the coordinate information on the display 24 is interrupted for a short time analysis of the pulse duration (not more than a few ms) and is practically not noticeable. In the event that the athlete independently transferred the wearable equipment from an alarming to a working state, the modulator 19 is turned on, and the standby multivibrator 22 ceases to generate single pulses. The coordinate information on the screen of the indicator 24 disappears, and the alarm indicator 21 turns off.

Sources of information
1 Copyright certificate of the USSR 748471, IPC G 07 C 1/24, 1980.

 2. USSR author's certificate 11394452, IPC A 63 B 71/06, published 02.15.85, bull. 6.

 3. Harisov. GLONASS global satellite radio navigation systems. Ed. enterprise of the journal "Radio Engineering", 1998.

Claims (1)

 A device for monitoring athlete’s actions at a distance, containing a contact key located in the athlete’s shoes, a transmitter with a high-frequency modulator, a receiver with a high-frequency demodulator, a pulse generator, a trigger, a pulse counter, two OR circuits, two AND circuits, two delay lines, an electronic key, an indicator whose input is connected to the output of the first And circuit, one of the inputs of which is connected to the output of the first delay line and to one of the inputs of the second And circuit, the second input of which is connected to the output of the first delay line, and the second the first input of the first AND circuit is connected to the input of the recording device and the output of the first OR circuit, one of the inputs of which is connected to the input of the second delay line and the output of the second AND circuit, and the input of the first OR circuit is connected to the output of the second delay line, and the contact key is connected to one from the inputs of the second OR circuit and with the installation in zero state of the pulse counter, the high-order output of which is connected to the trigger input, the output of which is connected to the control input of the electronic key, and the counting input of the pulse counter is connected to the output of the pulse generator, while the output of the electronic key is connected to the second input of the second OR circuit, the output of which is connected to the input of the high-frequency modulator, characterized in that the switch, GPS demodulator and display board, GPS receiver and standby multivibrator are additionally input connected to the indicator output, and the output is connected to the control input of the switch, the information input of which is connected to the output of the high-frequency demodulator, and the second output is connected to the input of the first second delay line, wherein the GPS-receiver output is connected to the information of the electronic key entry.