CN110495857B - Individual hand and foot coordination and emergency/strain capacity measuring and training system under stress condition - Google Patents

Abstract

The invention provides a system for measuring and training the hand-foot coordination and the emergency/strain capacity of an individual under a stress condition, which is characterized in that: the blind road measuring and training system comprises a control unit, a measuring and training blind road system facility unit and a remote control equipment unit; the control unit comprises a hand operation module, a foot operation module, an acousto-optic interference module and a communication module; the measuring and training blind road system facility unit is a blind road with a plurality of obstacle points and a plurality of bending points, and a communication module; the remote control equipment unit comprises a remote control moving automobile and a communication module arranged on the remote control moving automobile; the communication module realizes information/signal interaction among the devices; the remote control sports car carries out measurement and training on the blind road under the action of the control unit. The system enables individuals in a particular industry to make objective and accurate measurements of the ability to perform hand and foot coordinated operations under multiple stress conditions.

Description

Individual hand and foot coordination and emergency/strain capacity measuring and training system under stress condition

Technical Field

The invention relates to a hand and foot coordination training test system or device, in particular to an individual hand and foot coordination and emergency/strain capacity measuring and training system under a stress condition.

Background

Currently, in the prior art, there are some tools related to measuring hand and foot coordination, such as: a double-hand coordination measuring instrument, a psychological measuring system and the like, and also comprises a multi-task alternate operation coordination measuring system and a rolling ball track type hand and foot coordination exercise capacity testing system. The existing measuring equipment and instruments have the advantages of small measuring difficulty, relatively single function, no stress stimulation and low tension degree of the tested object.

In addition, in the prior art, a system for testing coordination of hands and feet is provided, but certain stress stimulation is not applied, multiple stress stimulation is not provided, and the requirement of rapid emergency/strain capacity is not provided, which is inconsistent with the situation in real life, the emergency/strain capacity of an individual is difficult to evaluate, and the coordination of hands and feet of the individual under multiple stress conditions is difficult to evaluate, so that the existing equipment is difficult to select military special talents needing to perform coordination of hands and feet under multiple stress conditions, the individual stress and strain capacity is difficult to objectively evaluate under multiple stress conditions, and special psychological training is difficult to perform on the special talents.

Disclosure of Invention

The invention aims to overcome the defects and provides equipment for measuring and training the hand-foot coordination and the emergency/response capability of individuals under multiple stress conditions, so that people can objectively and accurately measure the hand-foot coordination operation capability of individuals in special industries, particularly under the multiple stress conditions, and accordingly, the selection and training are carried out on the basis. For example: can be used as a basic tool for selecting and training special talents including pilots.

The individual hand and foot coordination and emergency/strain capacity measuring and training system equipment under the stress condition consists of three parts, namely individual hand and foot coordination emergency/strain capacity measuring and training operation control system equipment, measuring and training blind road system facilities and remote control sports automobile equipment under the stress condition.

The invention provides a system for measuring and training the hand-foot coordination and the emergency/strain capacity of an individual under a stress condition, which is characterized in that: the blind road measuring and training system comprises a control unit, a measuring and training blind road system facility unit and a remote control equipment unit;

the control unit comprises a hand operation module, a foot operation module, an acousto-optic interference module and a communication module;

the facility units of the measuring and training blind road system are blind roads with a plurality of obstacle points and a plurality of bending points, and communication modules;

the remote control equipment unit comprises a remote control moving automobile and a communication module arranged on the remote control moving automobile;

the communication module realizes information/signal interaction among the devices; the communication module can be a signal receiving-transmitting line, a 3G/4G/5G network, wi fi, Bluetooth and other various facilities/modules/units capable of realizing information/signal transmission and transmission, and the like.

The remote control sports car carries out measurement and training on the blind road under the action of the control unit;

the hand operation module controls the motion direction of the remote control motion automobile;

the foot operation module controls the movement speed of the remote control sports automobile;

the acousto-optic interference module comprises an acoustic interference device and an optical interference device;

the acoustic interference device, making ordered or unordered noise;

the optical interference device makes interference light orderly or disorderly.

Further, the system for measuring and training the hand-foot coordination and the emergency/strain capacity of the individual under the stress condition is characterized in that: the hand operation module comprises a left hand operation module and a right hand operation module;

the left hand operation module comprises a left hand operation handle;

the right hand operation module comprises a right hand operation handle;

the left hand operation handle controls the front and back movement directions of the remote control movement automobile;

the right hand operates the handle to control the left and right moving directions of the remote control moving automobile.

Further, the system for measuring and training the hand-foot coordination and the emergency/strain capacity of the individual under the stress condition is characterized in that: the hand operation module also comprises a hand operation function conversion module;

the hand operation function conversion module exchanges the functions of the left hand operation handle and the right hand operation handle.

Further, the system for measuring and training the hand-foot coordination and the emergency/strain capacity of the individual under the stress condition is characterized in that: the left-hand operation module also comprises a left-hand operation function conversion module;

the left-hand operation function conversion module is used for reversely setting the motion direction controlled by the left-hand operation handle;

the right hand operation module also comprises a right hand operation function conversion module;

the right hand operation function conversion module is used for reversely setting the motion direction controlled by the right hand operation handle.

Further, the system for measuring and training the hand-foot coordination and the emergency/strain capacity of the individual under the stress condition is characterized in that: the foot operation module comprises a left foot operation module and a right foot operation module;

the left foot operation module comprises a left foot operation pedal;

the right foot operation module comprises a right foot operation pedal;

the left foot operating pedal controls the acceleration movement of the remote control sports automobile;

the right foot operates the pedal to control the deceleration of the remotely controlled sports car.

Further, the system for measuring and training the hand-foot coordination and the emergency/strain capacity of the individual under the stress condition is characterized in that: the foot operation module also comprises a foot operation function conversion module;

the foot operation function conversion module exchanges the functions of the left foot operation pedal and the right foot operation pedal.

The left foot operating pedal controls the deceleration movement of the remote control sports automobile;

the right foot operates the pedal to control the acceleration of the remotely controlled sports car.

Further, the system for measuring and training the hand-foot coordination and the emergency/strain capacity of the individual under the stress condition is characterized in that: the width of the blind road is more than 2 times of the width of the body of the remote control moving automobile;

the depth of the blind road is not higher than the height of the body of the remote control moving automobile.

Further, the system for measuring and training the hand-foot coordination and the emergency/strain capacity of the individual under the stress condition is characterized in that: the blind road further comprises a blind road starting point touch pressure plate, a blind road end point touch pressure plate and a blind road timer;

a plurality of obstacle points are also arranged in the blind sidewalk;

the blind road is also provided with a plurality of turning nodes with different difficulties;

when the starting point of the blind track touches the pressing plate and is pressed, the blind track timer is activated and started;

when the blind road end point touches the pressure plate and is pressed, the blind road timer is stopped.

Further, the system for measuring and training the hand-foot coordination and the emergency/strain capacity of the individual under the stress condition is characterized in that: the remote control equipment unit also comprises a remote control moving automobile touch sensor and a remote control moving automobile bump sensor;

the remote control moving automobile touch sensor senses the touch of the remote control moving automobile;

the remote control moving automobile jolt sensor senses the jolt of the remote control moving automobile;

the measuring and training blind road system facility unit further comprises a touch and bump sensing receiving module and a counter;

when the remote control moving automobile touch sensor or the remote control moving automobile bump sensor senses the touch or bump sense of the remote control moving automobile, the signal is sent to the touch bump sensing receiving module through the communication module;

the touch and bump sensing receiving module activates a counter to count.

Further, the system for measuring and training the hand-foot coordination and the emergency/strain capacity of the individual under the stress condition is characterized in that: the remote control moving automobile touch sensors are arranged on the outer surface of the remote control moving automobile;

the remote control sports car bump sensors are provided with a plurality of bump sensors which are embedded and arranged at two sides behind the rear wheels of the remote control sports car.

The invention has the following functions and effects:

the system for measuring and training the hand and foot coordination and the emergency/strain capacity of the individual under the stress condition enables people to objectively and accurately measure the individual needing the hand and foot coordination operation capacity under multiple stress conditions in a special industry, can measure the hand and foot coordination capacity of the individual under multiple stress conditions (a plurality of obstacles are avoided in the process of operating a remote control sports car, various turning requirements are met, and sound and light interference exists in the operation process), can measure the emergency/strain capacity in the individual operation process (operation action function conversion is caused by pressing an operation button in the operation process), and can also carry out psychological training of the hand and foot coordination operation capacity and the emergency strain capacity of a special talent under multiple stress conditions. For example, the selection and training of civil aviation pilots, special soldiers, aviation and aerospace personnel can be carried out.

Drawings

FIG. 1 is a schematic structural diagram of an individual hand and foot coordination emergency/strain capability measurement and training operation control system device under stress conditions according to the embodiment;

fig. 2 is a schematic structural diagram of the individual hand and foot coordination and emergency/strain capacity measurement and training blind road system facility under stress conditions provided in this embodiment;

fig. 3 is a schematic structural diagram of the individual hand and foot coordination and emergency/strain capacity measurement and training remote control sports car provided in this embodiment under stress conditions.

Wherein, fig. 3a is a schematic view of the overall structure of the remote control sports car;

FIG. 3b is a front view of the remotely controlled sports car;

fig. 3c is a schematic rear view of the remotely controlled sports car.

Detailed Description

The embodiment provides individual hand and foot coordination emergency/strain capacity measurement and training operation control system equipment under stress conditions, which consists of control system equipment, a measurement and training blind road system blind road facility and a remote control sports car;

the remote control moving automobile is controlled by the control system equipment to realize the movement of various actions in the measurement and training of blind road system blind road facilities, and the conditions in the movement process are scored to obtain a test result, and the process can also be used as normal training.

As shown in fig. 1, the individual hand and foot coordination emergency/strain capability measurement and training operation control system device under stress condition is generally a remote controller, is used for controlling a remotely controlled sports car to perform various actions, and comprises a hand operation module, a foot operation module, an acousto-optic interference module, a communication module and a power line socket 20 (power supply can be in various forms such as ac/dc);

the hand operation module comprises a left hand operation handle 1, a left hand operation handle function conversion button 2 and a left hand operation handle function conversion button indicator lamp 3;

a right hand operation handle 4, a right hand operation handle function conversion button 5 and a right hand operation handle function conversion button indicator lamp 6;

the foot operation module comprises a left foot pedal 7, a right foot pedal 8, a left foot pedal function conversion button 9, a left foot pedal function conversion button indicator light 10 and a right foot pedal function conversion button indicator light 10;

the communication module comprises an operation signal transmitter 11, an operation signal transmitter antenna 12, an operation signal transmitter switch button 13 and an operation signal transmitter switch button indicator lamp 14;

the acousto-optic interference module comprises an acousto-optic interference transmitter 15, an acousto-optic interference transmitter switch button 16, an acousto-optic interference transmitter switch button indicator lamp 17, an interference machine photoelectric tube 18 and an interference machine noise sending horn 19;

the left hand operation handle function conversion button, the right hand operation handle function conversion button and the left and right pedal plate function conversion buttons can realize the conversion of operation actions after being started.

In the using process, the power supply is switched on, the switch button of the operating signal transmitter is turned on, and the indicator light of the switch button of the operating signal transmitter is on;

the action of pushing the left hand operating handle forwards can send a signal for controlling the automobile to move forwards through the operating signal transmitter and the operating signal transmitting antenna, so that the remotely-controlled automobile moves forwards, and the action of pulling the left hand operating handle backwards can send a moving signal for controlling the automobile to move backwards through the operating signal transmitter and the operating signal transmitting antenna, so that the remotely-controlled automobile moves backwards;

the action of pushing the right hand operating handle leftwards can send a signal for remotely controlling the automobile to move leftwards through the operating signal transmitter and the operating signal transmitting antenna so as to enable the remotely controlled automobile to move leftwards, and the action of pushing the right hand operating handle rightwards can send a signal for remotely controlling the automobile to move rightwards through the operating signal transmitter and the operating signal transmitting antenna so as to enable the remotely controlled automobile to move rightwards;

the left foot presses the left pedal, and a motion signal for accelerating the speed of the remote control automobile can be sent out through the operation signal transmitter and the operation signal transmitting antenna, so that the remote control automobile does motion at an increased speed, and the motion speed of the remote control automobile is 2-10 cm per second;

the right foot presses the right pedal, a motion signal for reducing the speed of the remote control automobile can be sent out through the operation signal transmitter and the operation signal transmitting antenna, so that the remote control automobile does deceleration motion, and the remote control automobile can stop moving by simultaneously maximally pressing the left foot and the right foot;

when the function conversion button of the left hand operation handle is pressed down, the function conversion indicator light of the left hand operation handle is on, and the forward pushing and backward pulling functions of the left hand operation handle are just converted, namely the forward pushing action of the left hand operation handle can send a backward movement signal of the remote control automobile through the operation signal transmitter and the operation signal transmitting antenna, so that the remote control automobile moves backward;

similarly, when the function conversion button of the right hand operation handle is pressed down, the function conversion indicator lamp of the right hand operation handle is on, and the function of the right hand operation handle for pushing leftwards and pushing rightwards is just converted, namely the action of pushing rightwards of the right hand operation handle can send a movement signal for remotely controlling the automobile to move leftwards through the operation signal transmitter and the operation signal transmitting antenna, so that the remotely controlled automobile moves leftwards;

in addition, when the left and right foot pedal function conversion buttons are pressed down, the left and right foot pedal function conversion indicating lamps are on, the functions of pressing the left pedal by the left foot and pressing the left pedal by the right foot are just converted, namely the left pedal is pressed by the left foot, the motion signal for reducing the speed of the remote control automobile can be sent out through the operation signal transmitter and the operation signal transmitting antenna, the remote control automobile is made to do the motion of reducing the speed, and the remote control automobile can be stopped to move by simultaneously maximally pressing down the left and right feet.

It can be found from the above-mentioned operation process that the measurement and training of the individual are divided into general operation and reverse operation, the general operation is performed without pressing the operation function switch, the reverse operation is performed after pressing the hand-foot operation function switch button, one of the operation function switch buttons can be pressed individually, or all of the operation function switch buttons can be pressed, and the reverse operation is performed on the basis of performing the measurement of the general operation.

In addition, in the operation process, a switch button of the acousto-optic interference transmitter is turned on, an indicator lamp of the switch button of the acousto-optic interference transmitter is turned on, the photoelectric tube of the interference machine emits 2-8 times of intermittent flashes at an unequal interval of 10-20 ', the interval time of the intermittent flashes is 0.3', the flashes are red light, and the light intensity is approximately equal to that of a 20w LED lamp at a distance of 1 m;

the noise sending loudspeakers of the jammer can send 4-9 intermittent mechanical noises with sound intensity of 80-95 db at different intervals of 10-25 ', the interval time between the intermittent mechanical noises is 0.5%, the duration time of each noise is 2', the frequency of the noise sound is disordered and ranges from 500Hz to 5000 Hz.

Through the conversion function and the interference function, the remote control sports car is controlled to move in the blind road, so that not only the hand and foot coordination operation capability of an individual can be evaluated, but also the emergency/strain capability of the individual under multiple stress conditions can be evaluated, wherein the multiple stress conditions comprise: when the remote control sports car is operated, a plurality of obstacles are avoided in the moving process, various turning requirements exist, sound and light interference exists in the operating process, and the quick strain capacity of an individual after the action function is changed after the function button is operated by hands and feet is required.

As shown in fig. 2, the facilities for measuring the coordination between hands and feet and the emergency/strain ability and training the blind road system under stress condition are composed of a blind road starting point 21, a blind road starting point touch pressure plate 22, a blind road barrier point 23, turning settings 24-30 with different difficulty in the blind road, a blind road end point touch pressure plate 31, a blind road time/counter 32, a remote control sports car touch bump sensing receiver 33 at the blind road starting point, and a remote control sports car touch bump sensing receiver antenna 34 at the blind road starting point.

In the embodiment, the width of the blind road is 30cm, the depth is 4cm, the road is flat, the undulation is less than 2mm, the length of the whole field is 500cm, the width of the whole field is 300cm, and the field condition can be adjusted at will according to the actual use requirement. The touch pressure plate is 22cm wide, 12cm long and 0.2cm higher than the blind road, and is installed at the starting point of the blind road, when the remote control moving automobile stops recording through the terminal touch pressure plate timer, the terminal touch pressure plate is 12cm long, 22cm wide and 0.2cm higher than the blind road, and is installed at the terminal point of the blind road, and the terminal touch pressure plate is installed inside the terminal touch pressure plate.

In the using process, the remote control moving automobile is placed at the starting point and is controlled to move through the operation control system equipment, when the remote control moving automobile passes through the blind road starting point touch pressure plate, the blind road starting point touch pressure plate is pressed and then the timer is started to time, and when the remote control moving automobile passes through the end point touch pressure plate, the timer stops time.

In the blind road of this embodiment, 22 obstacles are arranged, the obstacles are arranged to the left and to the right, each obstacle is 2cm long and 1cm wide and is 0.3cm higher than the blind road, the obstacle is arranged to the right and is 2cm away from the right side wall of the blind road, the obstacle is arranged to the left and is 2cm away from the left side wall of the blind road, and the obstacle is red.

In addition, in the blind road of the embodiment, the blind road has different turning forms, such as: the arc shown by the mark 24 is turned to the left by 90 degrees, the arc shown by the mark 25 is turned to the left by 90 degrees and then is turned to the left by 90 degrees, the arc shown by the mark 26 is turned to the right by 90 degrees and then is turned to the right by 90 degrees, the right turn shown by the mark 27 is turned to the right by 90 degrees and then is turned to the left by 90 degrees, the right turn shown by the mark 28 is turned to the right by 55 degrees to 65 degrees and then is turned to the left by 35 degrees to 45 degrees, the right turn shown by the mark 29 is turned to the right by 90 degrees, the right turn shown by the mark 30 is turned to the right by 35 degrees to 45 degrees and then is turned to the right.

As shown in fig. 3, the remote control moving vehicle device is composed of a remote control moving vehicle, a remote control moving vehicle moving signal receiver 35, a remote control moving vehicle moving signal receiving antenna 36, a remote control moving vehicle touch sensor 37, a remote control moving vehicle bump sensor 38, a remote control moving vehicle touch sensing and bump sensing signal receiving and transmitting integrated machine 39, and a touch sensing and bump sensing signal transmitting antenna 40.

In this embodiment, the remote-control moving automobile is 12cm long, 10cm wide and 6cm high, the remote-control moving automobile motion signal receiving machine receives various operation signals sent by the operation control equipment system in the operation process of an operator through the remote-control moving automobile motion signal receiving antenna, and the operation signals control the motion of the remote-control moving automobile.

When the remote control moving automobile touches the wall of the blind road in various movements, some touch sensors of the remote control moving automobile at a plurality of protruding parts on the remote control moving automobile are extruded, and the specific distribution is shown as the marks in fig. 37-1 to 37-20, wherein the arrangement positions of the touch sensors at the side surface of the remote control moving automobile are respectively as follows: 37-1, 37-2, 37-3, 37-4, 37-5, the arrangement position of the other side is symmetrical (omitted in the figure), which is respectively: 37-6, 37-7, 37-8, 37-9 and 37-10, wherein the arrangement positions of the touch sensors at the front part of the remote control sports car are respectively as follows: 37-11, 37-12, 37-13, 37-14 and 37-15, and the arrangement positions of the touch sensors at the rear part of the remote control sports car are respectively as follows: 37-16, 37-17, 37-18, 37-19 and 37-20.

The remote control moving automobile touch sensor transmits a touch signal to the remote control moving automobile touch sensor, the bumping sensing signal receiving and transmitting integrated machine transmits the touch signal and the bumping sensing signal through the touch sensing and bumping sensing signal transmitting antenna, the remote control moving automobile touch bumping sensing receiver close to the starting point of the blind road receives a touch reaction signal transmitted in the moving process of the remote control moving automobile through the receiving antenna, and the signal is converted into a digital signal to be displayed on the counter.

Similarly, when the remote control moving automobile bumps when contacting with an obstacle in motion, the remote control moving automobile bump sensors close to the two sides of the rear part of the rear wheel of the remote control moving automobile transmit bump signals to the remote control moving automobile touch sensor and bump sensing signal receiving and transmitting integrated machine and transmit the bump signals through the touch sensing and bump sensing signal transmitting antenna, the remote control moving automobile touch bump sensing receiver close to the starting point of the blind road receives bump reaction signals generated in the motion of the remote control moving automobile through the receiving antenna and converts the bump reaction signals into numbers to be displayed on the counter.

In the training or testing process, as an individual operates and controls the movement of a remote control moving automobile, if a touch pressure barrier bumps, a bump sensor of the remote control moving automobile transmits bump signals to a receiving and transmitting all-in-one machine for touch and bump induction of the remote control moving automobile, a touch sensor on the wall of a blind road of the remote control moving automobile transmits touch signals to the receiving and transmitting all-in-one machine for touch and bump induction of the remote control moving automobile, a blind road timer, a counter, a receiving machine for the touch and bump inductor of the remote control moving automobile at the starting point of the blind road, and a receiving antenna for the touch and bump inductor at the starting point of the blind road are all-in-one machines, wherein the counter has two functions and can respectively record the number of times of touch and the number of times of bumps of the remote control moving automobile, and the receiving machine and the receiving antenna for the touch and bump reaction signals sent out in the movement of the remote control moving automobile and receive the bump and the touch and bump signals are converted into counts which are displayed on a counter.

Claims (10)

1. Individual hand and foot coordination and emergency/strain capacity measuring and training system under stress condition is characterized in that: the blind road measuring and training system comprises a control unit, a measuring and training blind road system facility unit and a remote control equipment unit;

the control unit comprises a hand operation module, a foot operation module, an acousto-optic interference module and a communication module;

the measurement and training blind road system facility unit is a blind road with a plurality of obstacle points and a plurality of bending points, and a communication module;

the remote control equipment unit comprises a remote control moving automobile and a communication module arranged on the remote control moving automobile;

the communication module realizes information/signal interaction among the devices;

the remote control sports car is used for measuring and training on the blind road under the action of the control unit;

the hand operation module controls the motion direction of the remote control motion automobile;

the foot operation module controls the movement speed of the remote control sports automobile;

the acousto-optic interference module comprises an acoustic interference device and an optical interference device;

the acoustic interference device produces orderly or unordered noise;

the optical interference device produces interference light which is ordered or disordered.

2. The system for measuring and training the coordination of the hands and feet and the emergency/strain ability of an individual under stress conditions as set forth in claim 1, wherein:

the hand operation module comprises a left hand operation module and a right hand operation module;

the left hand operation module comprises a left hand operation handle;

the right hand operation module comprises a right hand operation handle;

the left hand operation handle controls the front and back movement directions of the remote control movement automobile;

the right hand operates the handle to control the left and right moving directions of the remote control moving automobile.

3. The system for measuring and training the coordination of the hands and feet and the emergency/strain ability of the individual under stress conditions as set forth in claim 2, wherein:

the hand operation module also comprises a hand operation function conversion module;

the hand operation function conversion module exchanges the functions of the left hand operation handle and the right hand operation handle.

4. The system for measuring and training the coordination of the hands and feet and the emergency/strain ability of the individual under stress conditions as set forth in claim 2, wherein:

the left-hand operation module also comprises a left-hand operation function conversion module;

the left-hand operation function conversion module is used for reversely setting the motion direction controlled by the left-hand operation handle;

the right hand operation module also comprises a right hand operation function conversion module;

the right hand operation function conversion module is used for reversely setting the motion direction controlled by the right hand operation handle.

5. The system for measuring and training the coordination of the hands and feet and the emergency/strain ability of an individual under stress conditions as set forth in claim 1, wherein:

the foot operation module comprises a left foot operation module and a right foot operation module;

the left foot operation module comprises a left foot operation pedal;

the right foot operation module comprises a right foot operation pedal;

the left foot operating pedal controls the acceleration movement of the remote control sports automobile;

the right foot operates the pedal to control the deceleration of the remote control sports automobile.

6. The system for measuring and training the coordination of the hands and feet and the emergency/strain ability of the individual under stress conditions as set forth in claim 5, wherein:

the foot operation module also comprises a foot operation function conversion module;

the foot operation function conversion module is used for interchanging the functions of the left foot operation pedal and the right foot operation pedal;

the left foot operating pedal controls the deceleration movement of the remote control sports automobile;

the right foot operates the pedal to control the acceleration of the remotely-controlled sports car.

7. The system for measuring and training the coordination of the hands and feet and the emergency/strain ability of an individual under stress conditions as set forth in claim 1, wherein:

the width of the blind road is more than 2 times of the width of the body of the remote control moving automobile;

the depth of the blind road is not higher than the height of the body of the remote control moving automobile.

8. The system for measuring and training the coordination of the hands and feet and the emergency/strain ability of an individual under stress conditions as set forth in claim 1, wherein:

the blind road further comprises a blind road starting point touch pressure plate, a blind road end point touch pressure plate and a blind road timer;

a plurality of obstacle points are also arranged in the blind sidewalk;

the blind road is also provided with a plurality of turning nodes with different difficulties;

when the starting point of the blind track touches the pressing plate and is pressed, the blind track timer is activated and started;

when the blind road end touches the pressing plate and is pressed, the blind road timer is stopped.

9. The system for measuring and training the coordination of the hands and feet and the emergency/strain ability of an individual under stress conditions as set forth in claim 1, wherein:

the remote control equipment unit also comprises a remote control moving automobile touch sensor and a remote control moving automobile bump sensor;

the remote control moving automobile touch sensor senses the touch of the remote control moving automobile;

the remote control moving automobile jolt sensor senses the jolt of the remote control moving automobile;

the measuring and training blind road system facility unit further comprises a touch and bump sensing receiving module and a counter;

when the remote control moving automobile touch sensor or the remote control moving automobile bump sensor senses the touch or bump sense of the remote control moving automobile, the signal is sent to the touch bump sensing receiving module through the communication module;

and the touch and bump sensing receiving module activates a counter to count.

10. The system for measuring and training the coordination of the hands and feet and the emergency/strain ability of an individual under stress conditions as claimed in claim 9, wherein:

the remote control moving automobile touch sensors are arranged on the outer surface of the remote control moving automobile;

the remote control sports car bump sensors are provided with a plurality of bump sensors which are embedded and arranged on two sides of the rear part of a rear wheel of the remote control sports car.

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