CN110085076B - Brave quality training system and method - Google Patents

Abstract

The invention provides a brave quality training system, which comprises a data processing center, a physical quality measuring instrument, a visual stimulation instrument and a training induction area, wherein the training induction area, the physical quality measuring instrument and the visual stimulation instrument are all electrically connected with the data processing center; the brave quality training system provides more real scene data, can present more real details, and can feed back the response of the trainee, so that the trainee has visual approaching feeling or far-away feeling; the training system can make a subsequent training plan according to the training result of the trainee, and can enable the trainee to form an automatic approaching deviation of a set environment-related stimulation picture through repeated intensive training, so that the effect of improving the trainee adaptation set environment quality is achieved.

Description

Brave quality training system and method

Technical Field

The invention belongs to the technical field of simulated training, and particularly relates to a brave quality training system and a brave quality training method.

Background

The quality of human adaptation to a particular environment is not inherently available and requires a variety of acquired training and conscious instillations to build up. Some existing training methods, such as psychobehavioral development training, exercise the courage of the trainee through purposely designed activities. However, the correlation between the scene of the psychological behavior development training design and the actual environment is very low, and the trainee can make correct behaviors in the real environment with the most direct expression of the specific quality. Although the extension training is interesting and popular with trainee groups, the extension training only can adjust the fatigue of the trainee in daily training, and is difficult to really prolong the improvement of the specific quality of the trainee in the real environment. In a real environment, when a danger is met, the advantages and the hazards are the instincts of people. However, trainees often need to overcome this instinct. If the trainee is hesitant in the real environment, it may have serious consequences.

Therefore, the specific quality of the trainee in the real environment is very important, but at present, there is no system and method for performing system training aiming at the specific quality of the trainee in the real environment, so that it is urgent to provide a systematic training which is more appropriate to the actual combat environment and more scientific.

Disclosure of Invention

Aiming at the problems, the invention aims to solve the problems that the existing specific quality training method has large difference with actual combat environment and the training method is not scientific and systematic.

Therefore, the invention provides a brave quality training system which comprises a data processing center, a physical quality measuring instrument, a visual stimulation instrument and a training induction area, wherein the training induction area, the physical quality measuring instrument and the visual stimulation instrument are all electrically connected with the data processing center.

The voice processing system further comprises a voice output unit, and the voice output unit is electrically connected with the data processing center.

The training induction area is a 60cm 200cm position induction floor module.

The visual stimulation instrument is stereoscopic vision glasses.

The method for carrying out the trainee specific quality training by the brave quality training system comprises the following steps:

step 1, training preparation;

step 2, training begins;

step 3, training data acquisition;

and 4, obtaining a training result.

The step 1, training preparation specifically comprises the steps of collecting height and weight data of a trainee, enabling the trainee to be familiar with a training process, wearing training equipment and checking the working state of the equipment.

And 2, starting training, namely specifically, enabling the trainee to enter a training area, and sending preparation information by the system.

And 3, training data acquisition, namely the trainee makes corresponding body reaction according to scene information played by the training system with specific quality, and the system acquires the reaction data of the trainee.

And 4, obtaining a training result, namely specifically judging the training effect of the trainee by the specific quality training system according to the acquired data and making a subsequent training plan.

The invention has the beneficial effects that: the brave quality training system provided by the invention has the advantages that the provided scene data is more real, more real details can be presented, and the feedback is made on the response of the trainee, so that the trainee has visual approaching feeling or distancing feeling; the automatic training system can make a subsequent training plan according to the training result of the trainee, and can lead the trainee to form the automatic approaching deviation of the set specific environment related stimulation picture through repeated intensive training, thereby achieving the effect of improving the quality of the trainee adapting to the set environment.

The present invention will be described in further detail below with reference to the accompanying drawings.

Drawings

Fig. 1 is a schematic diagram of the brave quality training system of the present invention.

Fig. 2 is a training workflow diagram of a brave quality training system.

In the figure: 1. a data processing center; 2. a physical quality measuring instrument; 3. a visual stimulation instrument; 4. training a sensing area; 5. a voice output unit; 6. and (5) training equipment.

Detailed Description

To further explain the technical means and effects of the present invention adopted to achieve the intended purpose, the following detailed description of the embodiments, structural features and effects of the present invention will be made with reference to the accompanying drawings and examples.

Example 1

The embodiment provides a brave quality training system as shown in fig. 1, which comprises a data processing center 1, a physical quality measuring instrument 2, a visual stimulation instrument 3 and a training induction area 4, wherein the training induction area 4, the physical quality measuring instrument 2 and the visual stimulation instrument 3 are all electrically connected with the data processing center 1; the physical fitness measuring instrument 2 is used for measuring height and weight information of a trainee; the visual stimulation instrument 3 is worn on the eyes of the trainee and electrically connected with the data processing center 1, and receives pictures simulating a real scene and a non-real scene so as to stimulate the trainee; the training induction area 4 is used for detecting the reaction time of the trainee making the movement reaction, the accuracy, the distance/height and the pressure/weight data.

The brave quality training system also comprises a voice output unit 5, wherein the voice output unit 5 is electrically connected with the data processing center 1 and is used for outputting a prompting voice of 440HZ and inputting a 'start' voice command.

The training induction area 4 is a 60cm-200cm position induction floor module, and specifically relates to a floor area provided with a plurality of piezoelectric sensors, the piezoelectric sensors are arranged according to a density with a distance not exceeding 5cm to form a pressure detection area, when a trainee is in the pressure detection area, the pressure sensors are stressed and transmit received pressure information to a data processing center, and the data processing center positions the trainee according to the received information of different pressure sensors and records the reaction of the trainee when receiving image information.

Furthermore, the visual stimulation instrument 3 is a pair of stereoscopic vision glasses, the body quality measuring instrument 2 can be a height and weight measuring instrument, the data processing center 1 can be a computer for data processing, and the voice output unit 5 can be a sound box, a microphone and the like.

The brave quality training system can also be matched with the trainee equipment 6 to enable the trainee to be closer to a fighting state, thereby improving the training effect.

The courageous quality training system trains trainees by utilizing virtual reality and somatosensory technology, the computer transmits pictures of real scenes and non-real scenes to stereoscopic vision glasses in a stimulating manner, virtual reality training scenes are generated, action information of each time of the trainees is captured through the position pressure sensing floor module, and the information is stored in the computer. Through multiple adaptive guidance and improvement, an automatic forward action facing the real environment stimulation, namely an intermittent forward action, is formed to improve the specific quality of the trainee under the real environment. The invention has convenient use, safety, reliability and low cost, can be tightly combined with the actual combat environment, and effectively improves the specific quality of trainees.

Further, the method for the brave quality training system to perform the trainee specific quality training comprises the following steps:

step 1, training preparation;

step 2, training begins;

step 3, training data acquisition;

and 4, obtaining a training result.

The step 1, training preparation specifically comprises the steps of collecting height and weight data of a trainee, enabling the trainee to be familiar with a training process, wearing training equipment and checking the working state of the equipment.

And 2, starting training, namely, enabling the trainee to enter a training area and enabling the system to send preparation information.

And 3, training data acquisition, namely the trainee makes corresponding body reaction according to scene information played by the training system with specific quality, and the system acquires the reaction data of the trainee.

And 4, obtaining a training result, namely specifically judging the training effect of the trainee by the specific quality training system according to the acquired data and making a subsequent training plan.

Example 2

The brave quality training system described in example 1 was used to train a trainee in a simulated battlefield using a computer 1 configured with hardware: the system comprises a CPU with double Intel E5 10 cores, a 64G memory, a 1T hard disk, NVIDIA, a K4000 display card and a 24-inch display screen; the software is configured to: windows 7 operating system, E-prime 3.0 and other development plug-ins and corresponding device drivers. The stereoscopic glasses 30 are connected to the computer module 10 by HDMI lines using Oculus Rift dev.2. The height and weight measuring instrument adopts HY-STL170, a button type pressure sensor with the model number of PC210 to form a training induction area, and a sound microphone system adopts WESTDING/Weistine V1.

The training method of the trainee specific quality system is carried out according to the following training steps:

s1: the preparation stage comprises height and weight acquisition, a trainee dictating introduction training process, a trainee arriving at an initial position, wearing a simulation gun and a body armor, stereoscopic vision glasses, starting a sound microphone system and a computer program and connecting the sound microphone system and the computer program to the stereoscopic vision glasses, the stereoscopic vision glasses presenting pictures for introduction again, and the trainee starting a floor sensor after confirming understanding to prepare to enter the training stage;

s2: the training stage comprises that after the initial position detects that the pressure is stable, the system prompts by sound, the trainee sends out 'start' voice to start picture stimulation, the trainee reacts to the stimulation, the computer feeds back the reaction of the trainee, and after the feedback is finished, the picture prompts the trainee to return to the initial position and prepare to enter the next training, so that the process is circulated until the training is finished.

S3: the data statistics phase comprises the steps of counting the reaction time, the correct rate, the distance/height, the pressure/weight of each training and drawing a line graph to check the training effect of the trainee.

That is, when training, the basic height and weight information of the trainee is acquired by using the height and weight measuring instrument 2, the trainee dictates the operation process and the cautionary items of the training and guides the trainee to the initial position, the trainee wears the trainee equipment 6 and wears the stereoscopic glasses 3, the trainee starts the microphone acoustic system 5 and the computer module 1 and is connected to the stereoscopic glasses 3, the stereoscopic glasses show a picture to briefly introduce the training process again, the trainee indicates the trainee after confirming understanding the training process, and the trainee starts the position pressure floor sensor 4 to prepare to enter the training stage. In the training stage, a pressure signal detected by a floor sensor 4 at an initial position is input into a computer module 1, after the pressure is stabilized, the computer module 1 outputs a signal to a sound microphone system 5, system sound is generated to prompt that training can begin, a trainee sends out 'start' voice, the 'start' voice is received by the sound microphone system 5 and is input into the computer module 1, the computer module 1 immediately starts picture stimulation, the trainee reacts to the stimulation, the reaction is detected by the floor sensor 4 and is input into the computer module 1, the computer module 1 feeds back the reaction of the trainee at random and records the reaction time, the accuracy, the distance/height and the pressure/weight data of the reaction, and after the feedback is finished, the trainee is prompted by pictures to return to the initial position and is ready to enter the next training.

Furthermore, the sizes, the shapes and the weights of the simulation gun and the body armor are consistent with those of the real gun and the body armor; the initial position detecting pressure balance includes detecting that both feet are placed at the initial position and the pressure change does not exceed 5% in 1.5 seconds; the system voice prompt is 440HZ "tic" for 1 second; the trainee sends out 'start' voice to start picture stimulation, and the trainee uses Mandarin to say 'start'; after the picture stimulation is started, the picture continues to exist until the trainee makes a response; the trainee's response includes two categories: seeing that the left foot of the picture related to the real environment moves forward by one step, the step size is the normal size, and the gravity center moves along with the movement of the step; the left foot of the picture related to the unreal environment is seen to move backwards by one step, the step size is the normal size, and the gravity center moves along with the movement of the step; the proportion of the real environment related image stimulation to the non-real environment related stimulation is 4. Besides the picture has extra real elements, the other elements are consistent with the picture stimulus related to the non-real environment; if the trainee correctly responds to the image stimulus related to the real environment, the left foot moves forward by one step. The picture then stimulates to show a magnification effect of 3 times in 1 second, and then the picture prompts the trainee to return to the starting position and prepare to enter the next training. If the trainee correctly responds to the stimulus of the picture related to the unreal environment, the left foot moves backwards by one step. Then the picture is stimulated to present a reduction effect, the effect is reduced by 3 times within 1 second, and then the picture prompts the trainee to return to the initial position and prepare to enter the next training; if the trainee responds incorrectly to the stimulation of the picture related to the real environment or the picture related to the non-real environment, red X's which respectively account for 30% of the length and width of the picture appear. The 'X' lasts for 1 second, and then the trainee is prompted to return to the initial position by the picture and prepare to enter the next training; in the data statistics stage, a position pressure sensing floor module records and stores data of each time in real time; the reaction time refers to the time from the beginning of presentation of the picture stimulus to the first sensing of the pressure in the area of the sensing floor action position; the accuracy rate refers to the percentage of the times of correct responses of the trainees in all the training times; the distance in the distance/height refers to the distance between the heel position after the reaction and the original heel position; pressure/weight medium pressure refers to the maximum pressure that the floor can sense after reacting.

In the description of the present invention, it is to be understood that the terms "front", "back", and the like, indicate an orientation or positional relationship for the convenience of description and simplicity of description, but do not indicate or imply that the device so referred to must have a particular orientation, configuration, and operation in a particular orientation and, therefore, should not be taken to be limiting of the invention.

In the description of the present specification, the description of "one embodiment," "some embodiments," "specific embodiments," etc., means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The foregoing is a more detailed description of the invention in connection with specific preferred embodiments and it is not intended that the invention be limited to these specific details. For those skilled in the art to which the invention pertains, numerous simple deductions or substitutions may be made without departing from the spirit of the invention, which shall be deemed to belong to the scope of the invention.

Claims (1)

1. The utility model provides a brave quality training system which characterized in that: the device comprises a data processing center, a physical quality measuring instrument, a visual stimulation instrument and a training induction area, wherein the training induction area, the physical quality measuring instrument and the visual stimulation instrument are electrically connected with the data processing center; the training induction area is a 60cm-200cm position induction floor module;

the brave quality training system also comprises a voice output unit which is electrically connected with the data processing center;

the visual stimulation instrument is stereoscopic vision glasses;

a method of performing brave quality training by the brave quality training system, comprising:

step 1, training preparation stage: acquiring height and weight, dictating a training process by a trainee, introducing the training process, enabling the trainee to reach an initial position, wearing an artificial gun and a bulletproof garment, stereoscopic vision glasses, starting a sound microphone system and a computer program and connecting the sound microphone system and the computer program to the stereoscopic vision glasses, introducing pictures presented by the stereoscopic vision glasses again, and starting a floor sensor after the trainee confirms understanding to prepare for entering a training stage;

step 2, training: after the initial position detection pressure is stable, system sound prompt, the trainee sends out 'start' voice to start picture stimulation, the trainee reacts to the stimulation, the computer feeds back the response of the trainee, and after the feedback is finished, the picture prompts the trainee to return to the initial position and prepare to enter the next training, so that the process is circulated until the training is finished;

step 3, data statistics stage: counting the reaction time, the accuracy, the distance/height and the pressure/weight of each training, drawing a line graph and checking the training effect of the trainee;

when training is carried out, a height and weight measuring instrument is used for collecting basic height and weight information of a trainee, the trainee dictates the operation process and attention and guides the trainee to reach an initial position, the trainee wears trainee equipment and wears stereoscopic vision glasses, the trainee starts a sound microphone system and a computer module and is connected to the stereoscopic vision glasses, the stereoscopic vision glasses present pictures to briefly introduce the training process again, the trainee indicates the trainee after confirming and understanding the training process, and the trainee starts a position pressure floor sensor to prepare to enter the training stage;

in the training stage, a floor sensor at an initial position detects a pressure signal and inputs the pressure signal to a computer module, the computer module outputs a signal to a sound microphone system after the pressure is stable, system sound is generated to prompt that training can be started, a trainee sends out 'start' voice which is received by the sound microphone system and input to the computer module, the computer module immediately starts picture stimulation, the trainee reacts to the stimulation, and the reaction is detected by the floor sensor and input to the computer module;

the computer module feeds back the reaction of the trainee at random and records the reaction time, the accuracy, the distance/height and the pressure/weight data of the reaction, and after the feedback is finished, the image prompts the trainee to return to the initial position and prepare to enter the next training;

the initial position detecting pressure balance comprises detecting that the feet are placed at the initial position and the pressure change does not exceed 5% in 1.5 seconds;

the system voice prompt is 440HZ "tic" for 1 second;

the trainee utters a "start" voice-initiated picture stimulus to say "start" using mandarin for the trainee; after the picture stimulation is started, the picture continues to exist until the trainee makes a response;

the trainee's response includes two categories: seeing that the left foot of the picture related to the real environment moves forward by one step, the step size is the normal size, and the gravity center moves along with the movement of the step; the left foot of the picture related to the unreal environment is seen to move backwards by one step, the step size is the normal size, and the gravity center moves along with the movement of the step;

the proportion of the real environment related image stimulation to the non-real environment related stimulation is 4;

if the trainee correctly responds to the picture stimulus related to the real environment, namely the left foot moves forward by one step, the picture stimulus presents an amplification effect, the effect is amplified by 3 times in 1 second, and then the trainee is prompted to return to the initial position by the picture and prepare to enter the next training;

if the trainee correctly responds to the picture stimulus related to the unreal environment, namely the left foot moves backwards by one step, the picture stimulus presents a reduction effect, the effect is reduced by 3 times within 1 second, and then the trainee is prompted to return to the initial position by the picture and prepare to enter the next training;

if the trainee erroneously responds to the stimulation of the picture related to the real environment or the picture related to the non-real environment, red X and X which respectively account for 30 percent of the length and the width of the picture are generated, and the X lasts for 1 second, and then the trainee is prompted to return to the initial position by the picture and is ready to enter the next training;

in the data statistics stage, a position pressure sensing floor module records and stores data of each time in real time; the reaction time refers to the time from the beginning of presentation of the picture stimulus to the first sensing of the pressure in the area of the sensing floor action position; the accuracy rate refers to the percentage of the times of correct reactions of the trainees in all the training times; the distance/height middle distance refers to the distance between the heel position after the reaction and the original heel position; pressure/weight refers to the maximum pressure that the floor can sense after reacting.

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