CN108143423B - Sensitive quality detection device and method - Google Patents

Abstract

The invention comprises a sensitive quality detection device and a method, and the device and the method are used for realizing that: receiving a test mode sent by the data processing device, generating the test mode by using a soft carpet, and acquiring the motion trail signal data of a user; the data interaction of the track acquisition device and the data acquisition device is converted and sent, wherein the conversion comprises the step of converting the interactive data into data which can be identified by the corresponding device; providing an interactive interface to carry out custom editing on a sensitive and qualified test mode, analyzing the track signal data, comparing the track signal data with preset score data, converting a comparison result into a corresponding test score and displaying the test score on a display device. The invention has the beneficial effects that: the desired sensitive quality test can be edited in a self-defined manner; and the test precision is greatly improved.

Description

Sensitive quality detection device and method

Technical Field

The invention relates to a sensitive quality detection device and a sensitive quality detection method, and belongs to the field of calculation detection.

Background

Because the sensitive diathesis is the expression of the comprehensive ability of the human body, the development of the sensitive diathesis needs to focus on the ability of mastering actions, the reaction ability, the balance ability and the like from the comprehensive ability of the human body. The main practice method comprises the following steps: exercises for fixing and converting body positions, such as various shuttle running, 8-character running, reentry running and the like, mainly develop basic sensitivity of a human body; the training of various running, dodging, sudden starting, various rapid scram, rapid turning and the like which can rapidly change directions during running and jumping are carried out; the method is mainly used for improving the sensitive application capability of the human body; the comprehensive exercise is composed of four items of 'zigzag running', 'dodge running', 'shuttle running' and 'vertical and horizontal support'. Special exercises such as vertical and horizontal support jumping for 180 degrees, up-step longitudinal jumping, left and right arc running, single leg jumping, 360-degree rotation continuous practice and the like; the speed change and direction change exercises can quickly, coordinately and accurately complete various actions such as direction change, speed change, sudden stop, sudden start, turning and the like in the running and jumping processes; and games responding according to various signals and various turning chasing games, and various specially designed complex and changeable exercises such as ' dodging and running ', shuttle and running ' and the like.

The comparison document CN201520290707.0 discloses a sensitive quality training and evaluation system based on cross quadrant jump, and due to the arrangement of a data processing device, the data processing device can prompt the jump sequence according to a set mode or randomly, and can set the jump mode and test time at will, so that the system is suitable for various different training and test modes and can perform self-training in any mode according to the preference and the requirement of a trainer; the flexible jumping blanket is internally provided with the pressure sensor, the pressure signals collected by the pressure sensor are sent to the data processing device through the signal collecting circuit, the corresponding pressure signals are subjected to statistical analysis through the data processing device, whether the jumping action and the jumping quadrant of a testee are correct or not is identified, then statistics is carried out according to the set rule, the evaluation result of the test is formed, the interference of human factors in the evaluation is avoided, and the authenticity and the objectivity of the evaluation result are guaranteed.

Therefore, it can be known that the comparison document only discloses a detection system for the cross quadrant jump, and the technical scheme of the invention can be used for any sensitive test suitable for editing in the invention, and further, the comparison document collects pressure data of the flexible jump blanket to confirm whether the collection position is correct, so that accurate scoring cannot be performed.

Disclosure of Invention

Aiming at the defects of the prior art, the technical scheme of the invention provides a sensitive quality detection device and a method for solving the defects of the prior art

The technical scheme of the invention comprises a sensitive quality detection device, which comprises a track acquisition device, a conversion and transmission device and a data processing device, and is characterized in that: the track acquisition device is used for receiving the test mode sent by the data processing device, generating the test mode by using the soft carpet and acquiring the motion track signal data of the user; the conversion and sending device is used for converting and sending the data interaction of the track acquisition device and the data acquisition device, wherein the conversion comprises the step of converting the interactive data into data which can be identified by the corresponding device; and the data processing device is used for providing an interactive interface to carry out custom editing on the sensitive and qualified test mode, analyzing the track signal data, comparing the track signal data with preset score data, converting the comparison result into a corresponding test score and displaying the test score on the display device.

According to the sensitive quality detection device, the track acquisition device comprises: the soft carpet is used for generating a test pattern and the state control device is used for identifying the current condition of the soft carpet.

According to the sensitive quality detection device, the soft carpet comprises: the display device comprises a sensing layer with sensing capability and a light-transmitting display layer, wherein the sensing layer consists of a light spot sensor array or a pressure sensor array, and correspondingly, each light spot sensor or pressure sensor is provided with a corresponding light-emitting device.

According to the sensitive quality detection device, the state control device comprises: the control switch is used for starting or closing the soft carpet, and the identification lamp is used for reminding the state change state of the sensitive test.

According to the sensitive quality detection device, the track acquisition device further comprises: analyzing the converted test mode sent by the conversion sending device, starting the area sensor array corresponding to the soft carpet and the corresponding light-emitting device according to the test mode, collecting the motion trail of the user and sending the collected motion trail signal data to the conversion sending device.

According to the sensitive quality detection device, the conversion sending device comprises: signal conversion means for converting signal data, and signal transmission means for transmitting data.

According to the sensitive quality detection device, the signal conversion device comprises: and converting the test mode data sent by the data conversion device into signal data which can be identified by the track acquisition device.

According to the sensitivity quality detection device, the wireless mode used by the signal sending device includes but is not limited to 3G/4G/5G and Wi-Fi wireless communication modes.

According to the sensitive quality detection device, the data processing device further comprises: the mode editing module is used for providing an editing interface to carry out custom editing on the mode of the sensitivity test, wherein the editing comprises setting the moving line, the section line and the turning area of the sensitivity test, and carrying out custom editing on the preset movement time of the moving line and the turning area of each section to obtain corresponding test mode data; the time analysis module is used for receiving and analyzing the identifiable track data sent by the conversion sending device, acquiring the entering and exiting time of a user track entering any moving line and section route, and recording the user turning area time; the image analysis module is used for receiving and analyzing the recognizable track data sent by the conversion sending device, automatically or randomly selecting any multiple different images in the user moving track image to be compared with a preset area of a preset test mode, and calculating the percentage of the track image in the corresponding area of the test model; and the score settlement module is used for comparing the time analysis module and the image analysis result with preset data to obtain a final result and displaying the final result on a display device.

The technical scheme of the invention also comprises a sensitive quality detection method according to any device, which comprises the following steps: receiving a test mode sent by the data processing device, generating the test mode by using a soft carpet, and acquiring the motion trail signal data of a user; the data interaction of the track acquisition device and the data acquisition device is converted and sent, wherein the conversion comprises the step of converting the interactive data into data which can be identified by the corresponding device; providing an interactive interface to carry out custom editing on a sensitive and qualified test mode, analyzing the track signal data, comparing the track signal data with preset score data, converting a comparison result into a corresponding test score and displaying the test score on a display device.

The invention has the beneficial effects that: the desired sensitive quality test can be edited in a self-defined manner; and the test precision is greatly improved.

Drawings

FIG. 1 is a general block diagram according to an embodiment of the present invention;

FIG. 2 is a cross quadrant sensitivity test chart according to an embodiment of the present invention;

FIG. 3 shows a "" word sense test diagram in accordance with an embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described in detail with reference to the accompanying drawings and specific embodiments. The sensitive quality detection device and the method are suitable for developing game animation images.

Fig. 1 is a general structural view illustrating an embodiment according to the present invention. The track acquisition device is used for receiving the test mode sent by the data processing device, generating the test mode by using the soft carpet and acquiring the motion track signal data of the user; the conversion and sending device is used for converting and sending the data interaction of the track acquisition device and the data acquisition device, wherein the conversion comprises the step of converting the interactive data into data which can be identified by the corresponding device; and the data processing device is used for providing an interactive interface to carry out custom editing on the sensitive and qualified test mode, analyzing the track signal data, comparing the track signal data with preset score data, converting the comparison result into a corresponding test score and displaying the test score on the display device.

FIG. 2 shows a cross quadrant sensitivity test chart according to an embodiment of the invention. And setting a cross quadrant sensitivity test chart according to a data processing device, wherein the data processing device can be a mobile terminal or a non-mobile terminal. Setting the moving route of the tested person to move from D-A-B-C, setting the time interval of each passing quadrant, setting the passing time less than the time interval to be full score, setting the passing time from passing to full score in the time interval and setting the passing time greater than the time interval to be failing, and calculating the fraction passing through 4 quadrants and the average fraction. With reference to fig. 2, the moving time of the tester from D-a is T1, the time of D-a-B is T2, the time of D-a-B-C is T3, and the time of D-a-B-C-D is T4, the time of the tester passing through each quadrant area can be accurately calculated by acquiring the motion trajectory signal data and analyzing the time of the tester first arriving at the quadrant.

FIG. 3 shows a "" word sense test diagram in accordance with an embodiment of the present invention. The moving route, the section route and the turning area are respectively arranged as X1-X4 of the figure, and the turning point is the circle of T1-T3. And when the soft carpet is activated, the light display at the periphery starts to test, and after the test is finished, the corresponding color display is used. In the figure, T1-T3 represents the time of a tester passing through a corresponding line for data recording, X1-X4 represents a turning point, X1-X4 records the time Y1-Y3 of a tester entering and leaving the corresponding turning point, and simultaneously, the track (footprint) passing through the turning point is recorded at the same time, and the sensitive state of the tester at the corresponding turning point is obtained by selecting a picture entering a turning point region and comparing the picture with the picture of the turning point. And comparing the score with preset time, and displaying the obtained score on a display device.

The above description is only a preferred embodiment of the present invention, and the present invention is not limited to the above embodiment, and the present invention shall fall within the protection scope of the present invention as long as the technical effects of the present invention are achieved by the same means. The invention is capable of other modifications and variations in its technical solution and/or its implementation, within the scope of protection of the invention.

Claims (7)

1. The utility model provides a sensitive quality detection device, the device includes track collection system, conversion transmitting device and data processing device which characterized in that:

the track acquisition device is used for receiving the test mode sent by the data processing device, generating the test mode by using the soft carpet and acquiring the motion track signal data of the user;

the conversion sending device is used for converting and sending the data interaction of the track acquisition device and the data acquisition device, wherein the conversion comprises the step of converting the interaction data into data which can be identified by a corresponding device, the conversion sending device comprises a signal conversion device used for converting the signal data and a signal sending device used for sending the data, and the signal conversion device comprises: converting the signal data acquired by the track acquisition device into image data and time data which can be identified by a data processing device, and converting the test mode data sent by the data conversion device into signal data which can be identified by the track acquisition device;

the data processing device is used for providing an interactive interface to carry out custom editing on a sensitive and qualified test mode, analyzing the track signal data, comparing the track signal data with preset score data, converting a comparison result into a corresponding test score and displaying the test score on the display device; the method comprises the following steps: the mode editing module is used for providing an editing interface to carry out custom editing on the mode of the sensitivity test, wherein the editing comprises setting the moving line, the section line and the turning area of the sensitivity test, and carrying out custom editing on the preset movement time of the moving line and the turning area of each section to obtain corresponding test mode data; the time analysis module is used for receiving and analyzing the identifiable track data sent by the conversion sending device, acquiring the entering and exiting time of a user track entering any moving line and section route, and recording the user turning area time; the image analysis module is used for receiving and analyzing the recognizable track data sent by the conversion sending device, automatically or randomly selecting any multiple different images in the user moving track image to be compared with a preset area of a preset test mode, and calculating the percentage of the track image to the corresponding area of the test model, and the image analysis module comprises: comparing the image data entering the turning point region with the image data of the turning point to obtain the sensitive state of the tester at the corresponding turning point; and the score settlement module is used for comparing the time analysis module and the image analysis result with preset data to obtain a final result and displaying the final result on a display device.

2. The sensitive diathesis detection device of claim 1, wherein the trace-gathering device comprises:

the soft carpet is used for generating a test pattern and the state control device is used for identifying the current condition of the soft carpet.

3. The sensitive quality detection device of claim 2, wherein the soft carpet comprises:

the display device comprises a sensing layer with sensing capability and a light-transmitting display layer, wherein the sensing layer consists of a light spot sensor array or a pressure sensor array, and correspondingly, each light spot sensor or pressure sensor is provided with a corresponding light-emitting device.

4. The sensitive predisposition detection device of claim 2, wherein the state control device comprises:

the control switch is used for starting or closing the soft carpet, and the identification lamp is used for reminding the state change state of the sensitive test.

5. The sensitive diathesis detection device of claim 1, wherein the trace-gathering device further comprises:

analyzing the converted test mode sent by the conversion sending device, starting the area sensor array corresponding to the soft carpet and the corresponding light-emitting device according to the test mode, collecting the motion trail of the user and sending the collected motion trail signal data to the conversion sending device.

6. The apparatus according to claim 1, wherein the wireless communication means used by the signal transmission device comprises 3G/4G/5G and Wi-Fi wireless communication means.

7. A sensitive predisposition detection method according to any one of claims 1 to 6, characterized in that it comprises:

receiving a test mode sent by the data processing device, generating the test mode by using a soft carpet, and acquiring the motion trail signal data of a user;

the data interaction to trajectory collection system and data collection system carries on conversion and sends, wherein the conversion includes converting the interaction data into the data that the corresponding device can discern, include: converting the signal data acquired by the track acquisition device into image data and time data which can be identified by a data processing device;

providing an interactive interface to carry out custom editing on a sensitive and qualified test mode, analyzing track signal data and comparing the track signal data with preset score data, converting a comparison result into a corresponding test score and displaying the test score on a display device, wherein the process of analyzing the track signal data and comparing the track signal data with the preset score data comprises the following steps: comparing the image data entering the turning point region with the image data of the turning point to obtain the sensitive state of the tester at the corresponding turning point; and comparing the time data with preset time to obtain a test score.

Images