阅读说明：本技术 支持多人体质的测试方法、测试装置及存储介质 (Testing method, testing device and storage medium for supporting constitution of multiple persons ) 是由 魏乃科 潘华东 殷俊 于 2021-05-14 设计创作，主要内容包括：本申请公开了一种支持多人体质的测试方法、测试装置及存储介质,该测试方法包括：接收实时采集的视频数据；根据实时采集的视频数据而确定主操作人员；根据主操作人员的选择而确定挑战类型；在接收到主操作人员输入的准备就绪的操作指令后,对实时采集的视频数据进行挑战类型的分析而得到测试成绩。本申请提供的测试方法能够支持多人一起进行体质测试,且无需考官在场监督,实现体质测试全天候。(The application discloses a testing method, a testing device and a storage medium for supporting the constitution of multiple persons, wherein the testing method comprises the following steps: receiving video data collected in real time; determining a main operator according to the video data acquired in real time; determining a challenge type according to a selection of a main operator; after a ready operation instruction input by a main operator is received, the video data collected in real time is analyzed in a challenge type manner to obtain a test result. The testing method provided by the application can support multiple people to carry out the physique test together, does not need the examiner to supervise on site, and realizes all-weather physique test.)

1. A test method for supporting a constitution of a plurality of persons, the method comprising:

receiving video data collected in real time;

determining a main operator according to the video data acquired in real time;

determining a challenge type according to the selection of the main operator;

and after receiving a ready operation instruction input by the main operator, analyzing the challenge type of the video data collected in real time to obtain a test result.

2. The method of claim 1, wherein the step of determining a primary operator from the live video data includes:

and determining a tester executing a first preset interaction in the video data acquired in real time as the main operator.

3. The method of claim 2, wherein the step of determining a primary operator from the live video data further comprises:

highlighting the primary operator on a display.

4. The method of claim 1, further comprising, prior to said determining a challenge type according to a selection of said primary operator:

prompting the main operator to enter a designated challenge area;

and if the fact that the main operator enters the designated challenge area within the preset time is detected, prompting the main operator to select a challenge type.

5. The method of claim 4, wherein the step of determining a challenge type based on the selection of the primary operator comprises:

and if the fact that the main operator executes a second preset interaction within a preset time is detected, determining the challenge type according to the second preset interaction.

6. The method of claim 1, further comprising, after said determining a challenge type according to a selection of the primary operator:

and displaying the maximum supported picking positions on a display, and prompting a tester to respectively enter the challenge areas corresponding to the picking positions.

7. The method of claim 1, wherein said step of analyzing said challenge type of said live video data to obtain said test performance after receiving a ready command from said main operator comprises:

prompting the main operator to input the ready operation instruction;

and if the fact that the main operator executes a third preset interaction within a preset time is detected, analyzing the challenge type of the video data collected in real time to obtain the test result.

8. The method of claim 7, wherein the step of analyzing the challenge type of the real-time captured video data to obtain the test result if it is detected that the main operator performs a third predetermined interaction within a predetermined time comprises:

if the main operator is detected to execute the third preset interaction, counting down on the display;

and starting to analyze the challenge type of the video data collected in real time at the end of the countdown to obtain the test result.

9. The method of claim 1, wherein after said analyzing said real-time captured video data for said challenge type to obtain a test performance, further comprising:

acquiring test results corresponding to each tester, corresponding challenge types and corresponding identity information;

and displaying the test result corresponding to each tester, the corresponding challenge type and the corresponding identity information on a display.

10. The method of claim 1, further comprising, prior to said determining a primary operator from said live captured video data:

identifying facial features of a tester in the real-time collected video data;

determining identity information of the test person according to the facial features of the test person;

and displaying a first identification frame for framing the face of the tester, a second identification frame for framing the tester and identity information corresponding to the tester on a display.

11. A testing device, comprising a processor, a memory and a communication circuit, wherein the processor is coupled to the memory and the communication circuit, respectively, and the memory stores program data therein, and the processor executes the program data in the memory to implement the steps of the method according to any one of claims 1-10.

12. A computer-readable storage medium, characterized in that the computer-readable storage medium stores a computer program which is executable by a processor to implement the steps in the method according to any of claims 1-10.

Technical Field

The present application relates to the field of video analysis technologies, and in particular, to a testing method, a testing apparatus, and a storage medium for supporting multiple person constitutions.

Background

The performance measurement of the current sports test generally uses a manual mode measurement or a sensor mode measurement. The measuring equipment used for manual measurement comprises stopwatch, tape measure, infrared distance meter, mechanical counter, electronic counter and the like. The measuring equipment used for sensor mode measurement comprises infrared sensing equipment, gravity sensing equipment, RFID radio frequency tags, sensing (controller) equipment, Hall sensing equipment and the like. The measurement modes and the devices have the problems of inconsistent test standards, inaccurate measurement results, incapability of automatically corresponding users and test scores, low test efficiency, incapability of accurately distinguishing standard actions from non-standard (foul) actions and the like, and in the test process, examinees need to supervise on site to prevent cheating behaviors.

Disclosure of Invention

The technical problem mainly solved by the application is to provide a testing method, a testing device and a storage medium for supporting the physique of multiple persons, which can support the physique test of multiple persons together, do not need the attendance supervision of examiners and realize all-weather physique test.

In order to solve the technical problem, the application adopts a technical scheme that: a test method for supporting a multi-person physical fitness is provided, the method comprising: receiving video data collected in real time; determining a main operator according to the video data acquired in real time; determining a challenge type according to the selection of the main operator; and after receiving a ready operation instruction input by the main operator, analyzing the challenge type of the video data collected in real time to obtain a test result.

In order to solve the above technical problem, another technical solution adopted by the present application is: there is provided a testing device, comprising a processor, a memory and a communication circuit, wherein the processor is respectively coupled to the memory and the communication circuit, the memory stores program data therein, and the processor implements the steps of the above method by executing the program data in the memory.

In order to solve the above technical problem, another technical solution adopted by the present application is: there is provided a computer readable storage medium having stored thereon a computer program executable by a processor to perform the steps of the above method.

The beneficial effect of this application is: according to the test method, the main operating personnel is firstly determined, then the test device only confirms the interaction of the main operating personnel in the following whole test process, and the interaction of other test personnel is ignored, so that the problem of interaction disorder can not occur when a plurality of people participate in the physique test, the test result is measured by the test device through automatic analysis, the supervision of examinees and officers can be omitted, and all-weather physique measurement is realized without time limitation.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present application, the drawings needed to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts. Wherein:

FIG. 1 is a schematic diagram of an embodiment of a test system of the present application;

FIG. 2 is a schematic flowchart of an embodiment of a method for supporting multiple person constitutions;

FIG. 3 is a schematic flow chart diagram illustrating another embodiment of the testing method for supporting multiple person constitutions according to the present application;

FIG. 4 is an interaction flow diagram corresponding to the method of FIG. 3 in an application scenario;

FIG. 5 is a schematic diagram of the structure of an embodiment of the testing apparatus of the present application;

FIG. 6 is a schematic structural diagram of another embodiment of the test apparatus of the present application;

FIG. 7 is a schematic structural diagram of an embodiment of a computer-readable storage medium according to the present application.

Detailed Description

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only a part of the embodiments of the present application, and not all the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

The testing method supporting the physique of multiple persons is executed by a testing device, as shown in fig. 1, the testing device is connected with a camera and a display, when testing is conducted, the camera is used for collecting video data of testing personnel in real time, the collected video data can comprise motion video data, human body video data, face video data, gesture video data and the like, the testing device receives the video data collected by the camera in real time and conducts analysis, the display is used for showing interactive prompt information to the testing personnel, and the interactive prompt information can comprise testing information, flow information, testing results and the like. The following description will be made for how the camera, the testing device and the display operate, and will not be described in detail here.

Referring to fig. 2, fig. 2 is a schematic flowchart illustrating an embodiment of a testing method for supporting multiple people's constitutions according to the present application, the testing method including:

s110: video data collected in real time is received.

Specifically, the testing device receives video data collected by a camera in real time.

S120: the main operator is determined from the video data collected in real time.

Specifically, when a fitness test is performed, the number of test persons in the shooting view of the camera may be one or more, but one or more of the test persons may determine only one main operator among one or more test persons.

S130: the challenge type is determined according to the choice of the main operator.

Specifically, in determining the challenge type, the present application recognizes only the choice of the primary operator, regardless of the choice of other testers, that is, specifically which item to test next can only be selected by the primary operator.

S140: after a ready operation instruction input by a main operator is received, the video data collected in real time is analyzed in a challenge type manner to obtain a test result.

Specifically, after all testers including the main operator are ready, the main operator can input an operation instruction for prompting the readiness, and then the testing device performs challenge type analysis on the video data collected in real time, so as to obtain a test result.

That is, after the primary operator is identified, the test device only recognizes the interaction of the primary operator, and the interactions of the other test persons with the test device are invalid.

It can be seen from the above that, the test method of the application firstly determines the main operator, then the test device only determines the interaction of the main operator in the following whole test process, and ignores the interaction of other test personnel, so that the problem of disordered interaction can not occur when a plurality of people participate in the physique test, and the test result measurement is obtained by the automatic analysis of the test device, so that the supervision of examinees can be omitted, the all-weather physique measurement can be realized, and the time limitation is avoided.

Referring to fig. 3 and 4, fig. 3 is a schematic flowchart illustrating another embodiment of the method for testing multiple person constitutions, and fig. 4 is an interactive flowchart corresponding to the method in fig. 3 in an application scenario, where the method includes:

s201: facial features of a test person in the video data collected in real time are identified.

S202: identity information of the test person is determined based on the facial features of the test person.

S203: and displaying a first identification frame for framing the face of the tester, a second identification frame for framing the tester and identity information corresponding to the tester on a display.

Specifically, in the standby stage of the test apparatus, after the test apparatus starts the application, an initial page, that is, a "list page" is displayed on the display, and a last test result and/or a list (the list is specifically a ranking of the test results, and the last test result and the list are displayed at the same time in the following description) may be displayed on the "list page", and meanwhile, the "list page" may prompt the user that a specific action (for example, waving a hand, blinking a head, shaking a head, etc.) may be performed to enter the "challenge page". For convenience of explanation, the specific motions herein are described as waving hands.

Meanwhile, after the tester enters the shooting visual field of the camera, the application on the testing device starts an algorithm program, the facial features of the tester in the video data collected by the camera in real time are identified, and then the identified facial features are compared with the facial features in the registry, so that the identity information corresponding to the tester is obtained.

It can be understood that only the pre-registered user can be identified with the identity information, so that the phenomenon of cheating by taking a test can be avoided, and the presence of a test taker can be avoided. The identity information may include some basic information such as name, sex, age, etc. of the tester.

Then the testing device displays a first identification frame for framing the face of each testing person, a second identification frame for framing the human body of each testing person and identity information corresponding to each testing person on a display.

That is, for the user, after entering the shooting view of the camera, the user can see that a "list page" is presented on the display, and at the same time, a first identification frame for framing the face of the user, a second identification frame for framing the whole of the user, and corresponding identity information are displayed on the page, and at the same time, the user is prompted to wave his hand to enter the "challenge page".

In other embodiments, the testing method may not include steps S201 to S203, and in this case, the process may directly proceed to step S204.

S204: and determining a tester executing the first preset interaction in the video data collected in real time as a main operator, and highlighting the main operator on the display.

Specifically, the first preset interactive action is the same as the specific action, and when the specific action is a hand waving, the first preset interactive action is also a hand waving.

When the testing device recognizes that the tester waves the hand in the camera shooting field of view, the tester waving the hand is determined as the main operator. The specific method that the testing device identifies whether the tester waves the hands is as follows: the application sends a hand waving recognition command to the algorithm program, and then the algorithm program can analyze the video data collected in real time so as to judge whether a tester waving a hand exists, namely, the tester is waiting for the tester waving the hand at the moment.

Meanwhile, after the main operator is determined, the page is switched to be a 'test page', the main operator is highlighted on the page, for example, the main operator is marked with red, or the first identification frame and the second identification frame corresponding to the main operator are set to be different from those of other testers.

After the page is switched to the test page, a first identification frame for framing the face of each tester, a second identification frame for framing the whole body of each tester and corresponding identity information can be displayed on the test page, or only the first identification frame for framing the face of the main operator, the second identification frame for framing the whole body of the main operator and the identity information corresponding to the main operator are displayed.

S205: the main operator is prompted to enter the designated challenge area.

Specifically, while the main operator is highlighted on the "test page," the main operator is prompted to enter a designated challenge area drawn. For example, a drawn human-shaped area is displayed on a "test page" to prompt the main operator to enter the corresponding human-shaped area.

S206: whether the main operator enters a designated challenge area within a preset time is detected.

If so, go to step S207, otherwise go to step S213.

Specifically, if it is detected that the main operator enters the designated challenge area within the preset time (e.g., 30 seconds, 1 minute, etc.), step S207 is executed, and if it is not detected that the main operator enters the designated area within the preset time, the page of the display is switched to an initial page, i.e., "list page", and meanwhile, a hand waving recognition command is sent to the background algorithm, and the stage of waiting for the hand waving of the test person is returned.

S207: the main operator is prompted to select the challenge type.

Specifically, after the main operator enters the designated challenge area, the main operator is prompted to select the challenge type by, for example, a gesture (e.g., making a number gesture 1, 2, 3, etc.), shaking the head (e.g., shaking the head up, down, left, right, etc.), and so on.

For convenience of explanation, the following description is provided to prompt the main operator to select a challenge type by performing a digital gesture 1, 2, 3, or the like. For example, the number 1 represents a jump rope challenge, the number 2 represents a pitch ball challenge, etc.

The testing device prompts a main operator to select a challenge type, and meanwhile, the testing device starts an algorithm program to analyze collected video data and feed back a gesture recognition result of the main operator.

S208: and detecting whether the main operator executes a second preset interaction within a preset time.

If so, go to step S209, otherwise go to step S213.

Specifically, when it is detected that the main operator performs the selection of the challenge type by executing the second preset interaction (corresponding to step S207, in order to perform the digital gestures 1, 2, 3, and the like) within the preset time (for example, 30 seconds, 1 minute, and the like), step S209 is performed, otherwise, the page of the display is switched to the initial page, i.e., the "list page", and meanwhile, a hand waving recognition command is sent to the background algorithm, and the process returns to the stage of waiting for the hand waving of the tester.

S209: and displaying the maximum supported challenge positions on a display, prompting a tester to respectively enter challenge areas corresponding to the challenge positions, and prompting a main operator to input a ready operation instruction.

Specifically, after the main operator selects the challenge type, the page is switched to a "challenge page", the maximum supported picking positions are displayed on the "challenge page", and the tester is prompted to enter the challenge areas corresponding to the challenge positions, for example, 5 maximum supported picking positions are displayed on the "challenge page", and 5 human-shaped areas are drawn, that is, at most 5 testers are allowed to perform the fitness test simultaneously.

Meanwhile, the main operator is prompted to input an operation instruction prompting readiness after all testers are ready on the challenge page, for example, an "OK" gesture is input.

S210: and detecting whether the main operator executes a third preset interaction within a preset time.

If so, go to step S211, otherwise go to step S213.

Specifically, the third preset interaction corresponds to the ready operation instruction in step S209, for example, being an "OK" gesture.

If it is detected that the main operator performs the third preset interaction within a preset time (e.g., 30 seconds, 1 minute, etc.), step S211 is entered, otherwise, the page of the display is switched to an initial page, i.e., "list page", and a hand waving recognition command is sent to the background algorithm, and the process returns to the stage of waiting for the hand waving of the test person.

S211: and starting countdown on the display, and starting to perform challenge type analysis on the video data collected in real time at the end of the countdown to obtain a test result.

Specifically, after the main operator performs the third preset interaction, a countdown is started (for example, 10s is counted down), and after the countdown is finished, the analysis of the challenge type on the video data collected in real time is started, so that the test result is obtained until the challenge is finished (for example, the challenge time is up).

In order to facilitate the testers to know the test results of the testers in real time in the test process, the test device can also display the test results of the testers in real time on the display.

S212: and acquiring the test result, the corresponding challenge type and the corresponding identity information corresponding to each tester, and displaying the test result, the corresponding challenge type and the corresponding identity information corresponding to each tester on a display.

Specifically, after the challenge is finished, in order to enable each tester to finally know the test result of the tester, the test result corresponding to each tester, the corresponding challenge type and the corresponding identity information are also displayed on the display. Of course, in other embodiments, only the test results corresponding to each tester may be displayed.

Meanwhile, in order to facilitate the follow-up problem finding, the test device also stores video data in the challenge process (for example, video data collected after the countdown is finished or video data collected after the main operator is determined).

S213: the page on the display is switched to the initial page.

Specifically, after the challenge is finished, the page is switched to an initial page, that is, a "list page", and the score and the list (ranking of the test scores) are displayed on the "list page" at the same time.

It can be seen from the above that, compared with the embodiment of fig. 2, except that the phenomenon of confusion of interaction can be avoided when a plurality of people participate in the physical fitness test, the main operator interacts with the testing device through actions in the whole testing process, non-contact operation can be realized, a certain distance can be reserved between the main operator and the testing device, a motion space is reserved, voice interaction is adopted in comparison, the phenomena of sound aliasing and recognition failure can be avoided, contact interaction (for example, interaction through a mouse, a keyboard, a touch screen and the like) is adopted in comparison, the main operator does not need to leave a testing area, and the phenomenon of inconvenience of operation when the main operator approaches the testing device can be avoided.

Meanwhile, in the challenge process, the test device gives each challenge area on the display to prompt each tester to test in the corresponding challenge area, so that mutual interference among the testers can be avoided.

It should be noted that, in other embodiments, the method for supporting multiple person physical fitness tests according to the present application does not necessarily include all of steps S201 to S213, for example, after the main operator is determined, it may not be necessary for the main operator to enter a designated challenge area, at this time, the user may be directly prompted to select a challenge type, for example, after the main operator is determined, the main operator may not be highlighted on the display, or for example, after the main operator selects the challenge type, the maximum supported battle position may not be displayed on the display, at this time, each tester may be allowed to arbitrarily select an appropriate challenge position according to actual requirements, or for example, after the main operator inputs a ready operation instruction, it may not need to count down, but directly analyze the video data collected in real time to obtain a test result, for example, after the test result is obtained, it is not necessary to display information such as the test result on a display, and in this case, the test result of each tester may be stored in a database in order to avoid privacy leakage.

For a better understanding of the contents of the above embodiments, the above solution is described in detail with reference again to fig. 4:

when the testing device is in a starting standby stage, after a tester enters a shooting visual field of the camera, a 'list page' is displayed on the display, meanwhile, a first identification frame for framing the face of the tester, a second identification frame for framing the whole tester and corresponding identity information are displayed on the page, and meanwhile, a prompt that a hand can be swung to enter a 'challenge page' is also prompted on the page.

When a certain tester waves a hand, the interactive testing stage is entered, at this time, the testing device determines the tester waving the hand as a main operator, switches the "list page" into a "testing page", marks the main operator red on the "testing page", and prompts the "please mark the red person to enter the drawn challenge area".

After the primary operator enters the drawn challenge area, the "test page" prompts selection of the challenge type by gesture. If the main operator does not enter the drawn challenge area within the specified time, the testing device switches the page to a 'list page' and returns to the starting standby stage.

After the main operator selects the challenge type through the gesture, the testing device switches the page into a challenge page, displays the maximum supported challenge position on the challenge page, prompts each tester to enter a corresponding challenge area, and simultaneously prompts the main operator to input an 'OK' gesture after each tester is ready. If the main operator does not select the challenge type within the specified time, the testing device switches the page to a 'list page' and returns to the starting standby stage.

After the main operator inputs the 'OK' gesture, the 'challenge page' starts countdown, and after the countdown is finished, the video data collected in real time is analyzed according to the specific challenge type, and the counting result is displayed in real time until the challenge is finished. If the main operator does not input the 'OK' gesture within the specified time, the testing device switches the page to the 'list page' and returns to the starting standby stage.

After the challenge is finished, the testing device switches the page into a list page, and meanwhile, the user can see information such as respective test scores, corresponding challenge types and corresponding identity information on the list page, and even can see the ranking of the test.

Referring to fig. 5, fig. 5 is a schematic structural diagram of an embodiment of the testing apparatus of the present application. The testing device 200 includes a processor 210, a memory 220, and a communication circuit 230, wherein the processor 210 is coupled to the memory 220 and the communication circuit 230, respectively, the memory 220 stores program data, and the processor 210 implements the steps of the testing method for supporting multiple constitutions according to any one of the above embodiments by executing the program data in the memory 220, wherein detailed steps can be referred to the above embodiments and are not described herein again.

Referring to fig. 6, fig. 6 is a schematic structural diagram of another embodiment of the testing device of the present application. The testing apparatus 300 includes a receiving module 310, a first determining module 320, a second determining module 330, and an analyzing module 340.

The receiving module 310 is used for receiving video data collected in real time.

The first determination module 320 is connected to the receiving module 310 and is configured to determine a main operator according to the video data collected in real time.

The second determination module 330 is coupled to the first determination module 320 for determining the challenge type based on the selection of the primary operator.

The analysis module 340 is connected to the second determination module 330, and configured to perform challenge type analysis on the video data collected in real time to obtain a test result after receiving a ready operation instruction input by a main operator.

In an embodiment, the first determining module 320 is specifically configured to determine, as the main operator, a tester performing a first preset interaction in the video data acquired in real time.

In one embodiment, the first determining module 320 may also highlight the primary operator on the display after determining the primary operator.

In an embodiment, the testing apparatus 300 further includes a prompting module, configured to prompt the main operator to enter the designated challenge area before the second determining module 330 determines the challenge type, and prompt the main operator to select the challenge type after detecting that the main operator enters the designated challenge area within a preset time.

In an embodiment, the second determining module 330 is specifically configured to determine the challenge type according to a second predetermined interaction when it is detected that the main operator performs the second predetermined interaction within a predetermined time.

In an embodiment, the testing apparatus 300 further includes a prompting module, configured to display the maximum supported challenge positions on the display after the second determining module 330 determines the challenge types, and prompt the tester to enter the challenge areas corresponding to the challenge positions respectively.

In an embodiment, the analysis module 340 is specifically configured to prompt the main operator to input a ready operation instruction, and when it is detected that the main operator executes a third preset interaction within a preset time, perform challenge-type analysis on the video data acquired in real time to obtain a test result.

In an embodiment, the analysis module 340 is further specifically configured to, when it is detected that the main operator performs the third preset interaction, start countdown on the display, and start performing challenge-type analysis on the video data collected in real time when the countdown is finished to obtain a test result.

In an embodiment, the testing apparatus 300 further includes a display module, configured to obtain the test result, the corresponding challenge type, and the corresponding identity information corresponding to each tester after the analysis module 340 obtains the test result, and then display the test result, the corresponding challenge type, and the corresponding identity information corresponding to each tester on the display.

In one embodiment, the analysis module 340 is further configured to identify facial features of the tester in the video data collected in real time before the first determination module 320 determines the main operator, then determine identity information of the tester according to the facial features of the tester, and then display the first identification frame framing the face of the tester, the second identification frame framing the face of the tester, and the corresponding identity information of the tester on the display.

Referring to fig. 7, fig. 7 is a schematic structural diagram of an embodiment of a computer-readable storage medium according to the present application. The computer-readable storage medium 400 stores a computer program 410, the computer program 410 being executable by a processor to implement the steps of any of the methods described above.

The computer-readable storage medium 400 may be a device that can store the computer program 410, such as a usb disk, a removable hard disk, a Read-Only Memory (ROM), a Random Access Memory (RAM), a magnetic disk, or an optical disk, or may be a server that stores the computer program 410, and the server may send the stored computer program 410 to another device for operation, or may self-operate the stored computer program 410.

The above description is only for the purpose of illustrating embodiments of the present application and is not intended to limit the scope of the present application, and all modifications of equivalent structures and equivalent processes, which are made by the contents of the specification and the drawings of the present application or are directly or indirectly applied to other related technical fields, are also included in the scope of the present application.