CN114403876B

CN114403876B - Method and device for evaluating spatial color cognitive memory capacity, electronic equipment and medium

Info

Publication number: CN114403876B
Application number: CN202111655135.8A
Authority: CN
Inventors: 赵起超; 杨苒
Original assignee: Kingfar International Inc
Current assignee: Kingfar International Inc
Priority date: 2021-12-30
Filing date: 2021-12-30
Publication date: 2023-03-24
Anticipated expiration: 2041-12-30
Also published as: CN114403876A

Abstract

The present application relates to the field of virtual space technologies, and in particular, to a method and an apparatus for evaluating spatial color cognitive memory capability, an electronic device, and a medium. The method comprises the following steps: establishing a three-dimensional forward measurement scene; establishing a plurality of test times based on a three-dimensional forward test scene; determining a previous test evaluation result corresponding to a plurality of test times; wherein, survey scene before based on three-dimensional and establish many rounds of examination times, include: each round of trial time corresponds to a configuration parameter; acquiring an initial value; establishing a current trial time; determining parameters of the next test time; establishing a next test time; and circularly executing the step of determining the parameters of the next test time and the step of establishing the next test time by taking the next test time as the current test time until the test times corresponding to the current test time are equal to the target test times. The method and the device have the effect of improving the accuracy of the capability evaluation of the operating/executing personnel.

Description

Method and device for evaluating cognitive memory ability of spatial color, electronic equipment and medium

Technical Field

The present application relates to the field of virtual space technology, and in particular, to a method and an apparatus for evaluating spatial color cognitive memory capability, an electronic device, and a medium.

Background

The cognitive ability refers to the ability of the human brain to reflect the characteristics and connections of objective things and reveal the meaning and action of things on human, and mainly includes feeling, perception, attention, memory, thinking and the like. The cognitive enhancement technology is a technology for adjusting the connection between neurons and changing the structure of the brain based on neural plasticity so as to improve the cognitive memory capability.

In the field of military national defense, poor mission performance brings important consequences, which put corresponding requirements on the cognitive ability of military service personnel, and the cognitive ability of the military service personnel needs to be enhanced by using a proper method. Especially the cognitive ability in the aspect of visual perception, the discrimination of the visual direction discrimination training can improve the discrimination of the operator/executor to the direction of the moving object, and the cognitive ability of the operator/executor can be effectively improved through the tests and the training of the brightness, the color, the direction, the motion and the like of visual stimulation.

In the prior art, the research on the cognitive ability and the memory ability of military service personnel in the aspect of visual perception is not many, some researches only investigate the color cognitive memory ability of an operator/executor through the difference of one color block, and the accuracy of the evaluation on the ability of the operator/executor is not enough.

Disclosure of Invention

In order to improve the accuracy of evaluation of the ability of an operator/executive person, the application provides a method and a device for evaluating the cognitive memory ability of spatial color, electronic equipment and a medium.

In a first aspect, the present application provides a method for evaluating spatial color cognitive memory capability, which adopts the following technical scheme:

establishing a three-dimensional forward measurement scene;

establishing a plurality of test times based on the three-dimensional forward test scene;

determining a previous test evaluation result corresponding to the multiple rounds of tests;

wherein, establish many rounds of examination times based on three-dimensional preceding survey scene, include: each round of trial times corresponds to configuration parameters;

acquiring an initial value: acquiring target test times, initial parameters and advanced parameters;

establishing a current trial number: taking the initial parameters as configuration parameters of the current trial times, and establishing the current trial times in the three-dimensional front test scene based on the initial parameters;

determining parameters of the next test time: determining the test result of the current trial; determining a configuration parameter corresponding to the next trial time according to the test result of the current trial time, the advanced parameter and the configuration parameter of the current trial time;

establishing the following test time: establishing a next trial time in the three-dimensional front test scene based on the configuration parameters corresponding to the next trial time;

and circularly executing the step of determining the parameters of the next trial time and the step of establishing the next trial time by taking the next trial time as the current trial time until the trial times corresponding to the current trial time are equal to the target trial times.

By adopting the technical scheme, the operation/execution personnel can test and evaluate the color memory capacity in the established trial time; the system establishes a three-dimensional pre-test scene, establishes a plurality of test times on the basis of the three-dimensional pre-test scene, establishes a current test time according to configuration parameters when each test time is established, wherein the current test time comprises the three-dimensional pre-test scene and a target object needing to be memorized by an operator/executor in a test, and acquires a test result of the operator/executor in the current test time after the operator/executor memorizes the target object and answers; the configuration parameters of each round of test are different, the configuration parameters of the next test are adjusted and determined based on the test result of the current test, the configuration parameters of the current test and the advanced parameters, the difficulty of the test is continuously adjusted to match the memory capacity of the operator/executor, the inaccuracy of evaluating the capacity of the operator/executor due to the fact that the difference between the difficulty of the test and the capacity of the operator/executor is too large is effectively improved, and the accuracy of evaluating the capacity of the operator/executor is improved.

In one possible implementation, the creating a three-dimensional forward measurement scene includes:

acquiring identity information of an operating/executing person;

and establishing the three-dimensional forward measurement scene based on the identity information of the operating/executing personnel.

By adopting the technical scheme, the identity information of the operating/executing personnel is input by the operating/executing personnel, and the system acquires the identity information when the operating/executing personnel inputs the identity information; meanwhile, the system automatically matches a three-dimensional foresurvey scene familiar to the operating/executing personnel by utilizing the identity information of the operating/executing personnel, and recommends the test scene of the target object in the test and the type of the target object according to the age and occupation of the operating/executing personnel, thereby realizing the differentiation and personalized test of different groups.

In one possible implementation, the configuration parameters include:

the object number N represents the number of the target objects in the three-dimensional forward test scene under the current test;

the memory time T represents the time of the memory object color of the operation/execution personnel in the current trial;

the color difference degree D represents the difference degree of all the target objects in the current trial;

the object motion amplitude M is used for determining the motion modes of all the target objects in the current trial;

the step parameters include:

an object number progressive amplitude N representing a rate of change of the object number N of the next trial and the current trial;

a memory time progressive amplitude T representing a change rate of the memory time T of the next trial and the current trial;

a color difference progressive degree D representing a rate of change of the color difference degree D of the next trial and the current trial;

and the motion progressive amplitude M represents the change rate of the object motion amplitude M of the next trial time and the current trial time.

By adopting the technical scheme, the system establishes the number of the target objects with the number N of the objects in the current trial time according to the parameter value of the number N of the objects, and sets the memory time of the current trial time according to the parameter value of the memory time T; setting the degree of color difference between homochromatic systems of a target object in a current trial run according to the parameter value of the color difference degree D, wherein the larger the parameter value of the color difference degree D is, the larger the degree of color difference is, and enabling the target object to continuously move on a circle which takes an initial position as a circle center and takes the object movement amplitude M as a radius in the current trial run according to the parameter value of the object movement amplitude M; and the system can continuously match the configuration parameters of the next trial time according to the capability of the operator/executor by setting the progressive parameters of the corresponding configuration parameters such as the object number progressive amplitude n, the memory time progressive amplitude t, the color difference progressive degree d, the motion progressive amplitude m and the like, so that the difficulty of the trial time is continuously matched with the color memory capability of the operator/executor, and the system constructs rich test schemes and test environments by using the configuration parameters and the progressive parameters.

In a possible implementation manner, the determining, according to the test result of the current trial, the step parameter, and the configuration parameter of the current trial, the configuration parameter corresponding to the next trial includes:

determining the number N of the objects of the next trial run based on the number N of the objects of the current trial run, the progressive range N of the number of the objects and the test result of the current trial run;

determining the memory-based time T of the next trial based on the memory time T, the memory time progressive amplitude T of the current trial and the test result of the current trial;

determining the color difference D of the next trial time based on the color difference D of the current trial time, the color difference progressive degree D and the test result of the current trial time;

and determining the motion amplitude M of the object of the next trial time based on the motion amplitude M, the motion progressive amplitude M of the object of the current trial time and the test result of the current trial time.

By adopting the technical scheme, when the test result of the current trial pass is successful, the difficulty of the next trial pass is correspondingly increased in a mode of changing the configuration parameters of the next trial pass according to the step parameters and the configuration parameters of the current trial pass, wherein the number of the objects of the next trial pass is increased according to the progressive range n of the number of the objects on the basis of the number of the objects of the current trial pass, the memory time of the next trial pass is reduced according to the progressive range of the memory time on the basis of the memory time of the current trial pass, the color difference of the next trial pass is reduced according to the progressive range d of the color difference on the basis of the color difference of the current trial pass, the color difference between the target objects is reduced, and the motion range of the objects of the next trial pass is increased according to the progressive range m of the motion on the basis of the motion range of the objects of the current trial pass; when the test result of the current trial fails, the difficulty of the next trial is reduced, wherein the number of the objects of the next trial is correspondingly reduced, the memory time is correspondingly increased, the color difference is correspondingly increased, and the motion amplitude of the objects is correspondingly reduced.

In a possible implementation manner, the configuration parameters further include:

an object color display range S representing the farthest distance between the operating/executing person and the target object;

the step parameter further includes:

a color display range progressive range S representing a rate of change of the target object color display range S between a next trial and a current trial,

determining the configuration parameters corresponding to the next trial according to the test result of the current trial, the advanced parameters and the configuration parameters of the current trial, and further comprising:

and determining the object color display range S of the next trial time based on the object color display range S of the current trial time, the color display range progressive range S and the test result of the current trial time.

By adopting the technical scheme, the object color display range S represents a trigger range which takes the position of a target object as the center of a circle and the parameter value of the set object color display range S as the radius, the target object is limited to be displayed only when an operator/executor is in the trigger range, the operator/executor is not displayed when being out of the trigger range, the operator/executor memorizes the target object when the target object is displayed only when the operator/executor walks into the object color display range S of the target object, the color of the target object disappears after the operator/executor leaves the object color display range S, so that the operator/executor forms a dynamic memory process in a trial run, and simultaneously, the color display range progressive range S is utilized to reduce the object color display range S of the next trial run when the current trial run succeeds, thereby increasing the difficulty of the next trial run; when the current trial fails, the object color display range S of the next trial is enlarged, the difficulty of the next trial is further reduced, the memory capacity of the difficulty training operation/execution personnel of the test can be improved by setting the object color display range S, and the color display range progressive range S is set, so that the system can progressively adjust the color display range of the next trial, and the difficulty of the next trial is continuously matched with the capacity of the operation/execution personnel.

In a possible implementation manner, the determining a previous test evaluation result corresponding to the plurality of test passes includes:

determining individual behavior results based on the test results of the multiple rounds of trials;

determining a cognitive fatigue result of an operator/executive;

determining a pretest assessment result based on the individual behavioral result and the cognitive fatigue result.

By adopting the technical scheme, the individual behavior result integrates the answering accuracy of each test and the configuration parameters of each test, the answering accuracy visually presents the objective answering condition of the operation/execution personnel, the configuration parameters of the format can reflect the difficulty condition of each test, the cognitive fatigue result of the operation/execution personnel is also determined when the color memory capacity of the operation/execution personnel is evaluated, the cognitive fatigue result is obtained based on one-time cognitive fatigue detection performed by the operation/execution personnel before and after the start of all tests, the fatigue degree of the operation/execution personnel in the current test can be obtained, the objectivity of the individual behavior result is not considered in the previous test evaluation result, the influence factor of the cognitive fatigue degree of the operation/execution personnel in the test process is also referred, and the comprehensiveness of the reference for evaluating the capacity of the operation/execution personnel is improved.

In one possible implementation, the determining the cognitive fatigue result of the operating/performing personnel comprises:

acquiring the SC value of the skin electric reaction, the SDNN value of the heart rate variability and the pupil diameter of the operating/executing person in each round of test, and determining the evaluation result of each round of test based on the SC value of the skin electric reaction, the SDNN value of the heart rate variability and the pupil diameter of the operating/executing person in each round of test;

determining a cognitive fatigue result of the operator/performer based on the evaluation results of all of the trials.

By adopting the technical scheme, the system respectively performs one-time cognitive fatigue detection before and after each round of test of the operator/executor and records one-time cognitive fatigue value, calculates single cognitive fatigue data of each round of test according to the cognitive fatigue value after each round of test, and calculates the cognitive fatigue result of the operator/executor in the previous test by combining the single cognitive fatigue data of each round of test, thereby realizing the scientificity of the evaluation of the cognitive fatigue result.

In one possible implementation manner, after determining a forensics evaluation result based on the individual behavior result and the cognitive fatigue result, the method further includes:

determining a correlation of the individual behavioral outcome and the cognitive fatigue outcome.

By adopting the technical scheme, the individual behavior results and the cognitive fatigue results of each test time are subjected to correlation statistics by a covariance method, the influence of the cognitive fatigue results on the spatial color memory of an operator/executor is analyzed, the objectivity of evaluating the spatial color memory of the operator/executor is improved, and the evaluation accuracy is further improved.

In a possible implementation manner, after determining a result of a previous test evaluation corresponding to the multiple rounds of trials, the method further includes:

establishing a three-dimensional post-measurement scene;

establishing a plurality of test times based on a three-dimensional post-test scene;

determining post-test evaluation results corresponding to the multiple rounds of tests;

determining a training effectiveness value based on the post-test evaluation result and the pre-test evaluation result.

By adopting the technical scheme, the system establishes a three-dimensional post-test scene for evaluating the effect of the operation/execution personnel after training the memory capacity, the operation/execution personnel sets the configuration parameters and the step parameters of the post-test in a self-defined manner, the system establishes a plurality of test times of the post-test according to the configuration parameters and the step parameters by adopting the same rule as the pre-test, obtains the post-test result of the operation/execution personnel after the operation/execution personnel finishes testing, and performs statistical analysis and evaluation on the pre-test result and the post-test result, so that the training effect of the operation/execution personnel can be visually displayed, and the operation/execution personnel can conveniently adjust the training scheme in a pertinence manner.

In a second aspect, the present application provides a device for evaluating spatial color cognitive memory capability, which adopts the following technical scheme: a spatial color cognitive memory ability evaluation device includes:

the forward measurement scene establishing module is used for establishing a three-dimensional forward measurement scene;

the trial-time setting module is used for establishing a plurality of rounds of trial times based on a three-dimensional front-test scene;

the evaluation module is used for determining a front test evaluation result corresponding to the multiple rounds of tests;

the trial time setting module is specifically used for establishing multiple rounds of trial times based on a three-dimensional front test scene:

each round of trial time corresponds to a configuration parameter;

executing the step of obtaining an initial value: acquiring target test times, initial parameters and advanced parameters;

executing the step of establishing the current trial times: taking the initial parameters as configuration parameters of the current trial times, and establishing the current trial times in the three-dimensional front test scene based on the initial parameters;

and executing the step of determining the parameters of the next trial time: determining the test result of the current trial; determining a configuration parameter corresponding to the next trial time according to the test result of the current trial time, the advanced parameter and the configuration parameter of the current trial time;

executing the step of establishing the next trial: establishing a next trial time in the three-dimensional front test scene based on the configuration parameters corresponding to the next trial time;

By adopting the technical scheme, the operation/execution personnel test and evaluate the color memory capacity in the established trial; the system establishes a three-dimensional pre-test scene, establishes a plurality of test times on the basis of the three-dimensional pre-test scene, establishes a current test time according to configuration parameters when each test time is established, wherein the current test time comprises the three-dimensional pre-test scene and a target object needing to be memorized by an operator/executor in a test, and acquires a test result of the operator/executor in the current test time after the operator/executor memorizes the target object and answers; the configuration parameters of each round of test are different, the configuration parameters of the next test are adjusted and determined based on the test result of the current test, the configuration parameters of the current test and the advanced parameters, the difficulty of the test is continuously adjusted to match the memory capacity of the operator/executor, the inaccuracy of evaluating the capacity of the operator/executor due to the fact that the difference between the difficulty of the test and the capacity of the operator/executor is too large is effectively improved, and the accuracy of evaluating the capacity of the operator/executor is improved.

In a possible implementation manner, when the forward scene creating module creates a three-dimensional forward scene, the forward scene creating module is specifically configured to:

acquiring identity information of an operating/executing person;

In one possible implementation, the configuration parameters include:

the object motion amplitude M is used for determining the motion modes of all the target objects in the current trial time;

the step parameters include:

and the motion progressive amplitude M represents the change rate of the object motion amplitude M of the next trial and the current trial.

In a possible implementation manner, the trial setting module is specifically configured to, when determining the configuration parameter corresponding to the next trial according to the test result of the current trial, the advanced parameter, and the configuration parameter of the current trial,:

determining the memory-based time T of the next trial based on the memory time T of the current trial, the memory time progressive amplitude T and the test result of the current trial;

In a possible implementation manner, the configuring parameters further include:

the step parameter further comprises:

In a possible implementation manner, the evaluation module, when determining the previous-test evaluation result corresponding to the multiple rounds of trials, is specifically configured to:

determining a cognitive fatigue result of an operator/executive;

In a possible implementation manner, the evaluation module, when determining the cognitive fatigue result of the operating/performing person, is specifically configured to:

acquiring an SC value of a skin electric reaction, an SDNN value of heart rate variability and a pupil diameter of the operating/executing person in each round of test, and determining an evaluation result of each round of test based on the SC value of the skin electric reaction, the SDNN value of the heart rate variability and the pupil diameter of the operating/executing person in each round of test;

In a possible implementation, the evaluation module, after determining a prior evaluation result based on the individual behavior result and the cognitive fatigue result, is specifically configured to:

In a possible implementation manner, the apparatus further includes a post-measurement scene establishing module, where the post-measurement scene establishing module is configured to:

establishing a three-dimensional post-measurement scene;

In a third aspect, the present application provides an electronic device, which adopts the following technical solutions:

an electronic device, comprising:

one or more processors;

a memory;

one or more applications, wherein the one or more applications are stored in the memory and configured to be executed by the one or more processors, the one or more applications configured to: a spatial color memory assessment method is performed.

In a fourth aspect, the present application provides a computer-readable storage medium, which adopts the following technical solutions:

a computer-readable storage medium, comprising: a computer program capable of being loaded by a processor and executing the method for evaluating the spatial color cognitive memory ability is stored.

To sum up, the application comprises the following beneficial technical effects:

Drawings

FIG. 1 is a schematic flow chart illustrating a method for evaluating spatial color cognitive memory according to an embodiment of the present application;

FIG. 2 is a schematic flow chart illustrating a process of establishing a plurality of test runs based on a three-dimensional forward test scene according to an embodiment of the present application;

FIG. 3 is a schematic block diagram of an apparatus for evaluating spatial color cognitive memory according to an embodiment of the present application;

fig. 4 is a schematic diagram of an electronic device according to an embodiment of the present application.

Detailed Description

The present application is described in further detail below with reference to figures 1-4.

In order to make the objects, technical solutions and advantages of the embodiments of the present application clearer, 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 some embodiments of the present application, but not all 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.

In addition, the term "and/or" herein is only one kind of association relationship describing the association object, and means that there may be three kinds of relationships, for example, a and/or B, and may mean: a exists alone, A and B exist simultaneously, and B exists alone. In addition, the character "/" herein generally indicates that the former and latter related objects are in an "or" relationship, unless otherwise specified.

The embodiment of the application provides a method for evaluating cognitive memory capacity of spatial colors, which is executed by electronic equipment with reference to fig. 1, and comprises the following steps:

and S101, establishing a three-dimensional forward measurement scene.

The three-dimensional forward measurement scene comprises a plurality of target objects. The three-dimensional forward measurement scene is a three-dimensional environment established by color memory assessment before training of an operator/executive personnel before color memory training, the establishment of the three-dimensional forward measurement scene utilizes a simulation environment generated by a computer, and the system simulation of interactive three-dimensional dynamic visual scenes and entity behaviors fused by multi-source information is utilized, so that the operator/executive personnel can be immersed in the environment. The method comprises the steps of firstly constructing a virtual space in a computer in advance, enabling each point in the space to have information of multiple dimensions such as coordinates, colors, normal lines and logic relations of three dimensions of XYZ, determining the position of an operator/executor in the virtual space by the computer through control devices such as human motion monitoring, a control rod, a keyboard and a mouse, and finally displaying the position by using a display device, and further constructing the three-dimensional forward measurement scene for the operator/executor to enter.

Specifically, a plurality of target objects exist in a three-dimensional forward-test scene, an operator/executor needs to memorize the spatial positions of all target objects and the colors of the target objects in the current three-dimensional forward-test scene, a certain color difference exists between the target objects for the operator/executor to distinguish, identify and memorize the target objects, and in a subsequent test, the function of evaluating the spatial color memory of the operator/executor is realized by testing the memorization of the spatial positions of the target objects and the colors of the target objects by the operator/executor.

And S102, establishing multiple rounds of tests based on the three-dimensional forward test scene.

Referring to fig. 2, a plurality of test times are established based on a three-dimensional forward test scene, including:

configuration parameters are corresponding to each test time.

Step S21, acquiring an initial value: and acquiring the target test times, initial parameters and advanced parameters.

The target test times represent the test times required to be completed by an operator/executor in a previous test scene, and the operator/executor completes all the target test times to complete the previous test; for example, if the operator sets the target number of tests to 5, the operator will complete five tests in the previous test process, i.e., complete one test in the previous test scenario.

For example, the initial parameters may include parameters such as the number of objects and the memory time, and if the number of objects set by the operator/executor is 10 and the memory time is 60 seconds, 10 target objects may appear in the three-dimensional pretest scene of the initial trial run, and the operator/executor needs to memorize 10 target objects within the memory time, that is, 60 seconds.

The advanced parameter is an adjustment amplitude value between adjacent trial times during difficulty adjustment, which is set by an operator/executive person in a self-defined manner, and represents the progressive degree of the difficulty of the next trial time relative to the current trial time, and is used for adjusting the three-dimensional pretest scene of the next trial time, for example, the progressive amplitude of the number of objects is set to be 10%, the progressive amplitude of the memory time is set to be 5%, the number of objects in the next trial time is changed by 10% (including increasing or decreasing) on the basis of the current trial time, and the memory time is changed by 5% (including increasing or decreasing) on the basis of the current trial time.

Step S22, establishing the current trial times: and taking the initial parameters as configuration parameters of the current trial times, and establishing the current trial times in the three-dimensional front test scene based on the initial parameters.

The current test time is established on the basis of a three-dimensional pre-test scene, a test environment of an operator/executive staff in an initial test time is established according to initial parameters for the operator/executive staff to test, for example, in the initial test time, the operator/executive staff needs to memorize a plurality of initially-set target objects in initially-set memory time in the three-dimensional pre-test scene, and the target objects and the memory time need to be established when the initial test time is established.

Step S23, determining the parameters of the next trial: determining a test result of the current trial; and determining the configuration parameters corresponding to the next trial time according to the test result, the step parameters and the configuration parameters of the current trial time.

The test result of the current trial run indicates that the memory of the operator/executor in the current trial run succeeds or fails, and is obtained by judging according to the answering accuracy of the operator/executor in the current trial run, wherein the answering accuracy is the ratio of the number of the target objects correctly answered by the operator/executor to the total number of the target objects in the current trial run; when the answer accuracy is greater than the preset reference ratio, the test result of the current trial is success; when the answer accuracy is smaller than a preset reference ratio, the test result of the current trial is a trial failure; the preset reference ratio is a reference numerical value of answer accuracy preset by an operator/executive worker, and is set in a user-defined mode; for example, if the preset reference ratio is 65%, when the response accuracy is greater than or equal to 65%, the current test result is that the trial pass is successful, the parameter value of the number of objects of the next trial pass is 11, and the parameter value of the memory time is 57; if the answer accuracy is less than 65%, the current test result is that the test run fails, the parameter value of the number of objects in the next test run is 9, and the parameter value of the memory time is 63.

Step S24, establishing the next trial: and establishing the next test in the three-dimensional forward test scene based on the configuration parameters corresponding to the next test.

And establishing the next test time is to set the test environment of the next test time according to the parameter value of the configuration parameter corresponding to the next test time in the three-dimensional pre-test scene, and the operating/executing personnel tests in the next test time.

And S25, circularly executing the step of determining the parameters of the next trial time and the step of establishing the next trial time by taking the next trial time as the current trial time until the trial times corresponding to the current trial time are equal to the target trial times.

After the current trial is answered, if the trial frequency corresponding to the current trial is smaller than the target trial frequency, the previous test is not completed, the system takes the next trial as the current trial, determines the configuration parameters of the next trial and establishes the next trial, and the operation/execution personnel continue training; if the number of tests of the current test is equal to the target number of tests, the previous test of the operation/execution personnel is completed, the next test does not need to be established, and the previous test is completed without establishing the next test; for example, when the number of times of the test corresponding to the current test is that the third time is less than the target number of times of the test 5, the system sets up the next test with the next test as the current test, the operator continues to perform the test in the next test, at this time, the number of times of the test corresponding to the current test is that the fourth time is less than the target number of times of the test 5, the system circularly performs the test with the next test as the current test, continues to set up the fifth test, the operator continues to perform the test, after the current test is ended, the number of times of the test corresponding to the fifth time is equal to the target number of times of the test 5, the operator completes the test before all test ends, and the cycle is not repeated.

Specifically, if the difficulty of the trial run is too large to be different from the ability of the operator/executor, the specific ability level of the operator/executor is difficult to be reflected only according to the answer condition of the operator/executor, in the embodiment of the application, the configuration parameter of the next trial run is adjusted according to the answer condition of the operator/executor at the current trial run, so that the difficulty of the trial run is continuously matched and close to the ability limit of the operator/executor, and the accuracy of the ability evaluation of the operator/executor can be improved; the influence of the mismatching of accidental factors and difficulty on the capability of the operating/executing personnel is reduced, and the accuracy of capability evaluation of the operating/executing personnel is improved.

And S103, determining a pre-test evaluation result corresponding to a plurality of test times.

Specifically, the memory ability of the operation/execution personnel is evaluated according to the response condition of the operation/execution personnel in a plurality of test times, so that the contingency of response in only one test time can be reduced, and the accuracy of the final evaluation of the ability of the operation/execution personnel is improved.

In a possible implementation manner of the embodiment of the present application, in step S101, establishing a three-dimensional forward measurement scene includes: acquiring identity information of an operating/executing person; and establishing a three-dimensional forward measurement scene based on the identity information of the operating/executing personnel.

Wherein, the identity information of the operating/executing personnel comprises: the ID of the operating/executing personnel, the age information of the operating/executing personnel and the occupation information of the operating/executing personnel are input by the operating/executing personnel in a typing mode during testing, and the occupation of the operating/executing personnel needs to be selected from preset options; the preset options comprise three options of none, common people and soldiers, and the operator/executive personnel can only have one selection option. After the test is finished, the previous test result of the operator/executive staff can be called again from the system through the identity information of the operator/executive staff.

The information entered is shown in table 1 below:

TABLE 1

Operating/executing personnel	ID	Age (age)	Occupation of the world
				Operating/executive staff 1	A011	8	Is free of
Operating/executive personnel 2	B012	23	Is free of
				Operating/executive personnel 3	B013	19	Soldier
Operating/executive staff 4	C014	23	General public

The system automatically matches a recommended antecedent scene based on the age and occupation of an operator/executive, wherein the recommended antecedent scene comprises a test scene and a target object type; the test scene comprises a fairy tale forest, a classroom, a shopping mall, a park, an office, an exhibition hall, a simulated battlefield and a military exhibition hall, and the types of the target objects comprise plush toys, stationery, living goods, fitness equipment, office supplies, exhibits, weapons and combat equipment.

The rules for the system to recommend a pretest scenario are shown in table 2 below, for example: 1, the ID of an operator/executive is A011, the age is 8 years, the occupation is none, a system recommends a test scene of a fairy tale forest, and the type of a target object is a plush toy; 3, the ID of the operator/executor is B013, the age is 9 years old, the occupation is soldiers, the forward-measuring scene recommended by the system is a simulated battlefield, and the type of the target object is a weapon; aiming at the differentiation of the operators/executives, the system recommends different forward test scenes suitable for the current operators/executives, thereby increasing the test interest.

TABLE 2

After the system automatically matches the recommended forward test scene, the operation/execution personnel can check the thumbnail of the recommended forward test scene on the display interface, and can self-define the forward test scene by adjusting the test scene and the type of the target object; the operator/executive personnel can use the forward measurement scene automatically matched by the system and can also customize the forward measurement scene.

In a possible implementation manner of the embodiment of the present application, the configuration parameters include:

the object number N represents the number of target objects in a three-dimensional forward test scene under the current test;

the memory time T represents the time for memorizing the color of the object in the current trial by the operator/executor;

the color difference degree D represents the difference degree of all target objects in the current trial;

and the object motion amplitude M is used for determining the motion modes of all the target objects in the current trial.

The number of the objects N is the number of the target objects in the current trial, and is also the number of the target objects that the operating/executing person needs to memorize in the current trial, for example, the number of the objects in the current trial is 10, and 10 target objects exist in the established current trial for the operating/executing person to memorize; the memory time T is the total time for the operator to memorize all the target objects and the colors of the target objects, for example, the memory time of the current trial is 60 seconds, the operator needs to memorize the positions and the colors of all the target objects within 60 seconds, after 60 seconds, the colors of all the target objects are completely hidden and changed into white, and the operator selects one or more target objects corresponding to the colors in the space according to the colors displayed by the system to answer; the color difference degree D is a percentage value indicating that the larger the percentage value is, the larger the difference in color saturation between objects of the same color system is, the easier the operator/executor distinguishes each target object, the smaller the percentage value is, the smaller the color difference between objects is, and the harder the operator/executor distinguishes each target object, for example, the color difference degree of the current trial is set to 50%, the color saturation difference between all corresponding red color systems is 50%, and the color saturation difference between all corresponding yellow color systems is 50%; the object motion amplitude M represents: in the trial, the target object may continuously move on the circle with the initial position as the center of the circle and the object motion amplitude M as the radius, for example, if the object motion amplitude M of the current trial is 2, the target object will continuously move on the circle with the initial position of the target object as the center of the circle and the radius of 2 meters in the current trial.

Further, the step parameters include:

the object quantity progressive amplitude N represents the change rate of the target object quantity N of the next trial time and the current trial time;

the memory time progressive amplitude T represents the change rate of the memory time T of the next trial time and the current trial time;

the color difference progressive degree D represents the change rate of the color difference degree D between the next trial time and the current trial time;

and the motion progressive amplitude M represents the change rate of the motion amplitude M of the target object of the next trial and the current trial.

If the progressive range n of the number of the objects is set to be 10%, the number of the objects in the next trial time is changed by 1 on the basis of 10 objects in the current trial time; if the set memory time progressive range t is 5%, changing the memory time of the next trial for 3 seconds on the basis of the memory time of the current trial for 60 seconds; if the color difference progressive degree d is 4%, the color difference degree of the next test time is changed by 2% on the basis of 50% of the color difference degree of the current test time; if the set motion progressive amplitude m is 50%, the motion amplitude of the object in the next trial time is changed by 1 meter on the basis of the current motion amplitude of the object of 2 meters.

A possible implementation manner in the embodiment of the present application is that, according to the test result of the current trial, the step parameter, and the configuration parameter of the current trial, determining the configuration parameter corresponding to the next trial, including:

determining the number N of objects of the next trial run based on the number N of objects of the current trial run, the progressive range N of the number of objects and the test result of the current trial run;

specifically, if the current trial is successful, then: number of objects N of the next trial _k+1＝ Number of objects N of current trial _k * (1 + the object number progression width n); if the current trial fails, then: number of objects N of the next trial _k+1 Number of objects N of current trial _k * (1-progressive magnitude of object number n).

When the operation/execution personnel successfully tests, the number of objects of the next test is increased, the number of target objects needing to be memorized by the operation/execution personnel is increased, and the difficulty is increased; if the current trial time of the operating/executing personnel fails, the number of objects of the next trial time is correspondingly reduced, the number of target objects needing to be memorized by the operating/executing personnel is reduced, and the difficulty is reduced; the difficulty of the trial runs is constantly matched to the capabilities of the operating/executive.

specifically, if the current trial is successful, then: memory time T of the next trial _k+1 = memory time T of current trial _k * (1-memory time progression amplitude t); if the current trial fails, then: memory time T of the next trial _k+1 = memory time T of current trial _k * (1 + memory time progression amplitude t).

When the operation/execution personnel test is successful, the system shortens the memory time of the next test, increases the difficulty of the test, and when the operation/execution personnel test fails, the system increases the memory time of the next test, reduces the difficulty of the test and realizes the function that the difficulty of the test is continuously matched with the capability of the operation/execution personnel.

specifically, if the current trial is successful, then: color difference D of the next trial _k+1 Color difference D of current trial _k * (1-degree of progressive color difference d); if the current trial fails, then: color difference D of the next trial _k+1 = degree of colour differentiation D of current trial _k * (1 + progressive degree of color difference d).

When the operation/execution personnel succeeds in trial, the system reduces the color difference between the same color systems, so that the color difference between the target objects is reduced, the difficulty of identifying the color of each target object by the operation/execution personnel is increased, when the operation/execution personnel fails in trial, the system increases the color difference between the same color systems, so that the color difference between the target objects is increased, the difficulty of identifying the color of each target object by the operation/execution personnel is reduced, and further the difficulty of trial is continuously matched with the capability of the operation/execution personnel.

And determining the motion amplitude M of the object of the next trial based on the motion amplitude M, the motion progressive amplitude M of the object of the current trial and the test result of the current trial.

Specifically, if the current trial is successful, then: the object motion amplitude M of the next trial _k+1 = current trial object motion amplitude M _k * (1 + motion progression amplitude m); if the current trial fails, then: amplitude of motion M of the object for the next trial _k+1 = amplitude of motion of object M of current trial _k * (1-motion progression amplitude m).

When the current trial of the operating/executing personnel is successful, the system increases the motion amplitude of the target object, continuously moves and increases the difficulty of the operating/executing personnel in memorizing the target object; when the current trial times of the operating/executing personnel fail, the system reduces the motion amplitude of the target object, reduces the difficulty of the operating/executing personnel in memorizing the target object, and further ensures that the difficulty of the trial times is continuously matched with the capability of the operating/executing personnel.

In a possible implementation manner of the embodiment of the present application, configuring parameters further includes:

an object color display range S representing the farthest distance between the operator/executor and the target object;

the step parameters further include:

the progressive range S of the color display represents the change rate of the object color display range S between the next trial time and the current trial time; when the operating/executing personnel is out of the object color display range S, the color of the target object is white, the operating/executing personnel cannot find the target object, only when the operating/executing personnel enters the object color display range S of the target object, the system controls the target object to display the original color, the operating/executing personnel memorizes, and therefore the operating/executing personnel needs to continuously explore the movement during testing, memorizes when approaching the target object, and disappears when moving away.

Determining the configuration parameters corresponding to the next trial according to the test result, the step parameters and the configuration parameters of the current trial, and further comprising:

and determining the color display range S of the object of the next trial time based on the color display range S of the object of the current trial time, the progressive range S of the color display range and the test result of the current trial time.

Specifically, if the current trial is successful, then: object color display range S of the next trial _k+1 = object color display range S of current trial _k * (1-color display range progression width s); if the current trial fails, then: object color display range S of the next trial _k+1 = object color display range S of current trial _k * (1 + color display range progression width s).

When the current trial times of the operating/executing personnel are successful, the color display range of the target object of the next trial time is reduced, and the trial difficulty of the operating/executing personnel is increased; if the current trial time of the operating/executing personnel is reduced, the color display range of the target object of the next trial time is narrowed on the basis of the current trial time, the difficulty of the next trial time is smaller than that of the current trial time, and the matching performance of the capability of the operating/executing personnel and the difficulty of the trial time is improved according to the progressive adjustment of the color display range of the system.

A possible implementation manner of the embodiment of the application is to determine a pre-test evaluation result corresponding to multiple test runs, including:

step S31 (not shown in the figure), determining individual behavior results based on the test results of the multiple rounds of trials.

The test result of each round of trial run comprises the answer accuracy of an operator/executor and the configuration parameters of the current trial run; the configuration parameters of the current trial time determine the difficulty degree of the current trial time; the answer accuracy is the ratio of the number of the target numbers of the operation/executive personnel answers in the current trial to the number of the objects in the current trial; the individual behavior result comprises a test result and a test accuracy of each round of test, wherein the test accuracy represents the statistics of the response condition of the operation/execution personnel in all test times, and the test accuracy is numerically equal to the ratio of the sum of the successful test times of the operation/execution personnel to the target test time.

The test accuracy and the response accuracy serve as objective data to visually present the response condition of the operation/execution personnel, the configuration parameters of each test represents the difficulty degree of the test of the operation/execution personnel, and the method for evaluating the memory capacity of the operation/execution personnel by integrating the difficulty degree of the test and the objective data is more objective.

Step S32 (not shown in the figure), determining the cognitive fatigue result of the operator/performer.

Specifically, the cognitive fatigue result is obtained by combining the cognitive fatigue data of each round of test, the system detects and records the single cognitive fatigue data of the operation/execution personnel of each round of test, detects and records the cognitive fatigue value of the operation/execution personnel once before the start of each round of test, detects and records the cognitive fatigue value of the operation/execution personnel once again after the end of each round of test, calculates the single cognitive fatigue data of each round of test by using the two groups of cognitive fatigue values of the operation/execution personnel of each round of test, and integrates the cognitive fatigue data of multiple rounds of test to obtain the cognitive fatigue result of the operation/execution personnel.

Step S33 (not shown in the figure), a forensics evaluation result is determined based on the individual behavior result and the cognitive fatigue result.

Specifically, when the memory ability of the operator/executor is evaluated in the prior evaluation, the accuracy of the overall evaluation of the memory ability of the operator/executor is further improved by referring to subjective data of the fatigue degree of the operator/executor in the process of the operator/executor, not only according to the difficulty condition of the test, the answering accuracy and other objective data.

A possible implementation manner of the embodiment of the present application is to determine a cognitive fatigue result of an operator/executor, including: acquiring an SC value of a skin-electricity reaction, an SDNN value of heart rate variability and a pupil diameter of an operator in each test round, and determining single cognitive fatigue data of each test round based on the SC value of the skin-electricity reaction, the SDNN value of the heart rate variability and the pupil diameter;

wherein, the cognitive fatigue result is measured by the cognitive fatigue data of the operator/executive personnel in a plurality of test runs; the cognitive fatigue data are calculated by SC values of the skin electric reaction, SDNN values of the heart rate variability and pupil diameters which are detected and recorded before and after the beginning of each round of test.

Specifically, the cognitive fatigue data for each round of test =50% (SC value at the end of test-SC value at the start of test) +25% (SDNN value at the end of test-SDNN value at the start of test) +25% (pupil diameter at the end of test-pupil diameter at the start of test).

After determining a preliminary evaluation result based on an individual behavior result and a cognitive fatigue result, a possible implementation manner of the embodiment of the application further includes:

determining the correlation between individual behavioral outcomes and cognitive fatigue outcomes.

The method comprises the steps of analyzing the influence of a cognitive fatigue result on an individual behavior result by using a covariance analysis method, specifically correcting the individual behavior result into the individual behavior result with the same cognitive fatigue result by using a regression relationship between the cognitive fatigue result and the individual behavior result, so that the influence of different cognitive fatigue results on the individual behavior result can be eliminated, namely, a part of the individual behavior result, which is attributed to the cognitive fatigue of an operator/executive, is divided by using a covariance analysis mode, the influence of the cognitive fatigue result on the individual behavior result of the operator/executive is reduced, and the color memory capacity level of the operator/executive is conveniently and definitely analyzed.

In a possible implementation manner of the embodiment of the present application, after determining the pre-test evaluation result corresponding to multiple test runs, the method further includes: establishing a three-dimensional post-measurement scene; establishing a plurality of test times based on a three-dimensional post-test scene; determining post-test evaluation results corresponding to a plurality of test times; and determining a training effect value based on the post-measurement evaluation result and the pre-measurement evaluation result.

The post-test scene is a test scene which is established and set by the system for evaluating the effect of the operation/executive personnel after training the memory capacity and is used for the operation/executive personnel to test; the initial value of the post-test is set by an operator/executive personnel in a self-defined way, and the multi-round test times of the post-test are established by the system based on the combination of a three-dimensional post-test scene and the initial value.

After the operation/execution personnel finish the post-measurement, the system evaluates the color memory capacity of the operation/execution personnel again to obtain a post-measurement evaluation result, and utilizes SPSS2.0 statistical analysis software to compare and analyze the post-measurement evaluation result and a pre-measurement evaluation result to obtain a training effect value, wherein the training effect value is =75% (post-measurement individual behavior result-pre-measurement individual behavior result) +25% (pre-measurement cognitive fatigue data-post-measurement cognitive fatigue data); by carrying out the front test and the back test on the operation/execution personnel, the training effect of the operation/execution personnel is visually displayed in a data mode, and the operation/execution personnel can pertinently carry out the adjustment and the test of the training scheme.

The above embodiment introduces a method for evaluating spatial color cognitive memory ability from the perspective of a method flow, and the following embodiment introduces a device for evaluating spatial color cognitive memory ability from the perspective of a virtual module or a virtual unit, and refers to fig. 3 for details in the following embodiment.

A spatial color cognitive memory assessment device 300, comprising:

a forward measurement scene establishing module 301, configured to establish a three-dimensional forward measurement scene;

a trial setting module 302, configured to establish multiple rounds of trials based on a three-dimensional pre-test scene;

the evaluation module 303 is configured to determine a previous test evaluation result corresponding to multiple test times;

the trial-time setting module 302 is specifically configured to, when establishing multiple rounds of trial times based on a three-dimensional forward-test scene:

each round of test corresponds to configuration parameters;

executing the step of establishing the current trial times: taking the initial parameters as configuration parameters of the current trial times, and establishing the current trial times in a three-dimensional front test scene based on the initial parameters;

and executing the step of determining the parameters of the next trial time: determining a test result of the current trial; determining a configuration parameter corresponding to the next trial time according to the test result, the step parameter and the configuration parameter of the current trial time;

executing the step of establishing the next trial: establishing a next test time in the three-dimensional front test scene based on the configuration parameters corresponding to the next test time; and circularly executing the step of determining the parameters of the next trial time and the step of establishing the next trial time by taking the next trial time as the current trial time until the trial times corresponding to the current trial time are equal to the target trial times.

By adopting the technical scheme, the operation/execution personnel can test and evaluate the color memory capacity in the established trial time; the system establishes a three-dimensional pre-test scene, establishes a plurality of test times on the basis of the three-dimensional pre-test scene, establishes a current test time according to configuration parameters when each test time is established, wherein the current test time comprises the three-dimensional pre-test scene and a target object needing to be memorized by an operator/executor in a test, and acquires a test result of the operator/executor at the current test time after the operator/executor memorizes the target object and answers; the configuration parameters of each round of test are different, the configuration parameters of the next test are adjusted and determined based on the test result of the current test, the configuration parameters of the current test and the advanced parameters, the difficulty of the test is continuously adjusted to be matched with the memory capacity of the operator/executor, the inaccuracy of the evaluation of the capacity of the operator/executor caused by the overlarge difference between the test difficulty and the capacity of the operator/executor is effectively improved, and the accuracy of the capacity evaluation of the operator/executor is improved.

In a possible implementation manner, when the forward scene creating module 301 creates a three-dimensional forward scene, it is specifically configured to:

acquiring identity information of an operating/executing person;

and establishing a three-dimensional forward measurement scene based on the identity information of the operating/executing personnel.

In one possible implementation, the configuration parameters include:

the object motion amplitude M is used for determining the motion modes of all target objects in the current trial;

the advanced parameters include:

the object quantity progressive amplitude N represents the change rate of the object quantity N of the next trial time and the current trial time;

In a possible implementation manner, the trial setting module 302 is specifically configured to, when determining the configuration parameters corresponding to the next trial according to the test result of the current trial, the step parameter, and the configuration parameters of the current trial,:

and determining the motion amplitude M of the object of the next trial time based on the motion amplitude M of the object of the current trial time, the motion progressive amplitude M and the test result of the current trial time.

In one possible implementation, configuring the parameters further includes:

the step parameters further include:

the progressive range S of the color display range represents the change rate of the color display range S of the target object between the next trial time and the current trial time,

In a possible implementation manner, when determining a previous-test evaluation result corresponding to multiple test runs, the evaluation module 303 is specifically configured to:

determining individual behavior results based on the test results of multiple rounds of trials;

determining a cognitive fatigue result of an operator/executive;

and determining a forensics evaluation result based on the individual behavior result and the cognitive fatigue result.

In one possible implementation, the evaluation module 303, when determining the cognitive fatigue result of the operating/performing personnel, is specifically configured to:

acquiring an SC value of a skin electric reaction, an SDNN value of heart rate variability and a pupil diameter of an operator in each round of test, and determining an evaluation result of each round of test based on the SC value of the skin electric reaction, the SDNN value of the heart rate variability and the pupil diameter of the operator in each round of test;

the cognitive fatigue results of the operator/performer are determined based on the evaluation results of all trials.

In one possible implementation, the evaluation module 303, after determining the prior evaluation result based on the individual behavior result and the cognitive fatigue result, is specifically configured to:

and determining the correlation between the individual behavior result and the cognitive fatigue result.

establishing a three-dimensional post-measurement scene;

determining post-test evaluation results corresponding to a plurality of test times;

and determining a training effect value based on the post-measurement evaluation result and the pre-measurement evaluation result.

The embodiment of the present application also introduces an electronic apparatus from the perspective of a physical device, as shown in fig. 4, the electronic apparatus 400 shown in fig. 4 includes: a processor 401 and a memory 403. Wherein the processor 401 is coupled to the memory 403, such as via a bus 402. Optionally, the electronic device 400 may also include a transceiver 404. It should be noted that the transceiver 404 is not limited to one in practical applications, and the structure of the electronic device 400 is not limited to the embodiment of the present application.

Processor 401 may be a CPU (Central Processing Unit), general purpose Processor, DSP (Digital Signal Processor), ASIC (Application Specific Integrated Circuit), FPGA (Field Programmable Gate Array), or other Programmable logic device, transistor logic, hardware component, or any combination thereof. Which may implement or perform the various illustrative logical blocks, modules, and circuits described in connection with the disclosure. The processor 401 may also be a combination of computing functions, e.g., comprising one or more microprocessors in combination, a DSP and a microprocessor in combination, or the like.

Bus 402 may include a path that transfers information between the above components. The bus 402 may be a PCI (Peripheral Component Interconnect) bus, an EISA (Extended Industry Standard Architecture) bus, or the like. The bus 402 may be divided into an address bus, a data bus, a control bus, and the like. For ease of illustration, only one thick line is shown in FIG. 4, but this does not indicate only one bus or one type of bus.

The Memory 403 may be a ROM (Read Only Memory) or other type of static storage device that can store static information and instructions, a RAM (Random Access Memory) or other type of dynamic storage device that can store information and instructions, an EEPROM (Electrically Erasable Programmable Read Only Memory), a CD-ROM (Compact Disc Read Only Memory) or other optical Disc storage, optical Disc storage (including Compact Disc, laser Disc, optical Disc, digital versatile Disc, blu-ray Disc, etc.), a magnetic Disc storage medium or other magnetic storage device, or any other medium that can be used to carry or store desired program code in the form of instructions or data structures and that can be accessed by a computer, but is not limited to these.

The memory 403 is used for storing application program codes for executing the scheme of the application, and the execution is controlled by the processor 401. Processor 401 is configured to execute application program code stored in memory 403 to implement the aspects illustrated in the foregoing method embodiments.

Among them, electronic devices include but are not limited to: mobile terminals such as mobile phones, notebook computers, digital broadcast receivers, PDAs (personal digital assistants), PADs (tablet computers), PMPs (portable multimedia players), in-vehicle terminals (e.g., in-vehicle navigation terminals), and the like, and fixed terminals such as digital TVs, desktop computers, and the like. But also a server, etc. The electronic device shown in fig. 4 is only an example, and should not bring any limitation to the functions and the scope of use of the embodiments of the present application.

It should be understood that, although the steps in the flowcharts of the figures are shown in order as indicated by the arrows, the steps are not necessarily performed in order as indicated by the arrows. The steps are not performed in the exact order shown and may be performed in other orders unless explicitly stated herein. Moreover, at least a portion of the steps in the flow chart of the figure may include multiple sub-steps or multiple stages, which are not necessarily performed at the same time, but may be performed at different times, which are not necessarily performed in sequence, but may be performed alternately or alternately with other steps or at least a portion of the sub-steps or stages of other steps.

The foregoing is only a partial embodiment of the present application, and it should be noted that, for those skilled in the art, various modifications and decorations can be made without departing from the principle of the present application, and these modifications and decorations should also be regarded as the protection scope of the present application.

Claims

1. A method for evaluating the cognitive memory ability of spatial color is characterized by comprising the following steps:

establishing a three-dimensional forward measurement scene;

establishing a three-dimensional post-measurement scene;

determining a training effectiveness value based on the post-test evaluation result and the pre-test evaluation result;

wherein, the determining the previous test evaluation result corresponding to the plurality of test times comprises:

determining a cognitive fatigue result of an operating/executing person, wherein the determining the cognitive fatigue result of the operating/executing person comprises the following steps:

determining a cognitive fatigue result of the operator/executor based on the evaluation results of all the trials;

determining a pretest assessment result based on the behavioral result and the cognitive fatigue result;

establishing a current trial number: taking the initial parameters as configuration parameters of the current trial times, and establishing the current trial times in the three-dimensional forward test scene based on the initial parameters;

circularly executing the step of determining the parameters of the next trial time and the step of establishing the next trial time by taking the next trial time as the current trial time until the trial times corresponding to the current trial time are equal to the target trial times;

the establishing of the three-dimensional forward measurement scene comprises the following steps:

acquiring identity information of an operating/executing person;

establishing the three-dimensional forward-measuring scene based on identity information of operating/executing personnel;

the configuration parameters include:

the object number N represents the number of target objects in the three-dimensional forward test scene under the current test;

the step parameters include:

2. The method of claim 1, wherein determining the configuration parameters corresponding to the next trial according to the test result of the current trial, the advanced parameters, and the configuration parameters of the current trial comprises:

3. The method according to any one of claims 1 to 2,

the configuration parameters further include:

the step parameter further includes:

4. The method of claim 1, wherein after determining a pretest assessment result based on the behavioral result and the cognitive fatigue result, further comprising:

5. A spatial color cognitive memory ability evaluation device is characterized by comprising:

the forward measurement scene establishing module is used for establishing a three-dimensional forward measurement scene, and the establishing of the three-dimensional forward measurement scene comprises the following steps:

acquiring identity information of an operating/executing person;

establishing the three-dimensional forward measurement scene based on identity information of operating/executing personnel;

the post-measurement scene establishment module is specifically used for:

establishing a three-dimensional post-measurement scene;

the trial-order setting module is specifically used for establishing a plurality of rounds of trial-orders based on a three-dimensional front-test scene:

each round of trial times corresponds to configuration parameters;

and executing the step of determining the parameters of the next trial time: determining the test result of the current trial; determining the configuration parameters corresponding to the next trial according to the test result of the current trial, the step parameters and the configuration parameters of the current trial;

executing the step of establishing the next trial: establishing a next trial time in the three-dimensional forward test scene based on the configuration parameters corresponding to the next trial time;

and circularly executing the step of determining the next trial time as the current trial time and the next trial time parameter and the step of establishing the next trial time until the trial times corresponding to the current trial time are equal to the target trial times, wherein the configuration parameters comprise:

the advanced parameters include:

a color difference progressive degree D representing a change rate of the color difference degree D between the next trial time and the current trial time;

the motion progressive amplitude M represents the change rate of the object motion amplitude M of the next trial time and the current trial time;

wherein, the evaluation module is specifically configured to:

determining a pretest assessment result based on the behavioral result and the cognitive fatigue result.

6. An electronic device, comprising:

one or more processors;

a memory;

one or more applications, wherein the one or more applications are stored in the memory and configured to be executed by the one or more processors, the one or more applications configured to: performing the method of any one of claims 1 to 4.

7. A computer-readable storage medium, comprising: a computer program which can be loaded by a processor and which corresponds to the execution of the method according to any one of claims 1 to 4.