JP6793932B2 - An identification / reaction measuring device for measuring the identification / reaction function of a subject, and a program for executing and controlling the measurement of the identification / reaction function of a subject. - Google Patents

Description

The present invention relates to an identification / reaction measuring device for measuring a subject's identification / reaction function and a program for executing and controlling the measurement of a subject's identification / reaction function, particularly for early detection of a sign of a subject's cognitive symptom. Alternatively, the present invention relates to an identification / reaction measuring device for quantitatively measuring an identification function and a motor function that can be adapted to driving a car, and a program for executing and controlling the measurement of the identification / reaction function of a subject.

In recent years, people who are unaware of cognitive symptoms or visual cognitive decline have become a major social problem, such as causing serious accidents by driving a car.

It is believed that early detection and intervention in dementia may prevent its progression. Therefore, the development of an early diagnosis method is underway. As a method for early diagnosis of dementia, various diagnostic imaging, blood cerebrospinal fluid test, and neuropsychological test are used.

However, diagnostic imaging of brain MRI, amyloid PET, etc. requires expensive examination equipment and examination cost, and cerebral blood flow scintigraphy and PET are accompanied by radiation exposure although the dose is low. The blood cerebrospinal fluid test involves invasion of the subject, and the cost of the test is currently high and cannot be easily applied.

In various neuropsychological tests, specialized training in clinical psychology is required because the measurement results by the examiner vary from person to person. In addition, the test takes 20 minutes to 1 hour and is poorly quantitative. Furthermore, there is currently no test method that has been established to be useful for early diagnosis of dementia.

Optical illusion test methods have been developed to detect abnormalities in visual cognitive function, but at present there are problems such as the use of paper materials and the difficulty in quantifying test results. There are some existing neuropsychological tests that use a touch panel, but they have not been found to be more useful than paper psychological tests.

In view of the background technology, the present inventors can quantitatively measure the function related to "identification / reaction / response" for each individual, which is the ability to respond to environmental changes in daily life. A reaction measurement method and an apparatus have been proposed (Patent Document 1).

Japanese Patent No. 3954295

The invention described in Patent Document 1 is presented for the purpose of simply and quickly measuring "human physiological / intellectual reaction rate".

For example, among the images in 3 rows and 3 rows displayed on the display unit, select an image with the same content as the target image in the center from the surrounding 8 target images, and touch the "same image" with your fingers. By doing so, I try to finish one inspection. Further, a similar test is repeated a plurality of times for one subject, and the average value of the test results is calculated. With such an inspection, the measurement of one person is completed in a short time of about 3 to 5 minutes, and quantification is easy.

The measurement result is instantly returned to the subject. It is already known that, in the identification of facial images, the "response accuracy and the time required for the identification response" differ depending on the gender and age of the subject by using the male facial image and the female facial image separately. In addition, after the age of 60, the time required for identification and response rapidly increases, and the accuracy of response deteriorates.

The conventional invention described in Patent Document 1 focuses solely on measuring the level of cognitive function of a subject based on the response accuracy in visual recognition of an image and the length of time required for an identification response.

On the other hand, with aging, not only the discriminating function in the brain but also the motor and reflex functions deteriorate. As mentioned above, the deterioration of the discriminating function in the brain, that is, the motor and reflex functions as well as the cognitive symptoms, may cause a serious accident in driving a car due to an erroneous operation of the steering wheel or a brake or a delay in the operation.

Therefore, an object of the present invention is not only a comprehensive identification function from visual recognition of a test image to corresponding movements of fingers and feet, but also a motor function directly connected to fingers and feet from visual recognition constituting the general function. The purpose is to judge and evaluate separately from the complicated discrimination function in the brain. That is, it is an object of the present invention to provide a measuring device and a program capable of quantitatively and separately evaluating the two components constituting the identification function. Then, by applying the present invention, it is possible to detect early cognitive symptoms and, in particular, determine the state of deterioration of the subject's identification function and motor function at the time of obtaining or renewing a driver's license, and eliminate the opportunity of maladaptated driving. , Serious car accidents can be prevented.

The first aspect of the identification / reaction measuring device according to the present invention that solves the above problems is an identification / reaction measuring device that measures the identification / reaction function of a subject using an image, and is a storage that stores a plurality of material images. It has a device, a display device for displaying a test image, and a control device for controlling the display of the test image on the display device, and the control device has a target image from a plurality of material images stored in the storage device. And a plurality of target images are acquired, the test image is constructed and displayed on the display device, and the subject is made to be the same as or similar to the target image among the plurality of target images in the configured test image. A simple image of the test image when the target image is identified and judged, and the identification / reaction function of the subject is evaluated from the response accuracy in the identification judgment of the test image by the subject and the measured value of the time required for the identification response. The test image according to the first configuration was used from the measured values of the results of the identification determination by the subject using the test image according to the second configuration, with the first configuration according to the above and the second configuration using the complicated image. It is characterized in that the identification / reaction function of the subject is evaluated from the numerical value obtained by subtracting the measured value of the result of the identification determination by the subject.

In one aspect of the identification / reaction measuring device according to the present invention that solves the above problems, as one form, the measured value of the result of the identification determination by the subject using the test image according to the first configuration and the second. The measured value of the result of the identification determination by the subject using the test image according to the configuration is characterized in that the average value of the plurality of measured values of the result of the identification determination acquired by repeating each of a plurality of times is used.

In one aspect of the identification / reaction measuring device according to the present invention that solves the above problems, as one form, when the subject identifies and determines a target image that is the same as or similar to the target image, it is the same as the target image. Alternatively, it is characterized by having a foot switch for inputting the answer by stepping on a foot in order to give an answer for determining that a similar image does not exist in the target image.

In one aspect of the identification / reaction measuring device according to the present invention that solves the above problems, as one form, the test image has the target image arranged in the center, and a plurality of target images are surrounded so as to surround the target image. It is characterized in that it is arranged in a matrix.

In one aspect of the identification / reaction measuring device according to the present invention that solves the above problems, as a further aspect, the second configuration with the complicated image is a case where the material image itself is composed of a complicated image, or the above. It is characterized by including a case where a plurality of target images are arranged so as to surround the target image arranged in the center in a plurality of ways to form a test image.

The second aspect of the identification / reaction measuring device according to the present invention that solves the above problems is an identification / reaction measuring device that measures the identification / reaction function of a subject using an image, and is a storage that stores a plurality of material images. It has a device, a display device for displaying a test image, and a control device for controlling the display of the test image on the display device, and the control device has a target image from a plurality of material images stored in the storage device. And a plurality of target images are acquired, the target image is arranged in the center as the test image, the target images are arranged on the left and right sides of the target image, and the target image and the target images arranged on the left and right sides are A blank area is inserted between the target image and the target image, and the subject is arranged so as to widen the viewing angle from the subject. The configured test image is displayed on the display device, and the test image is displayed on the subject. Among the plurality of target images in the image, a target image that is the same as or similar to the target image is discriminated and determined, and the subject's response accuracy in the identification determination of the test image by the subject and the measured value of the time required for the identification response are used to determine the subject. It is characterized by evaluating the identification / reaction function.

In the second aspect of the identification / reaction measuring device according to the present invention that solves the above problems, as one form, the control device makes each of the target images arranged on the left and right sides at a constant speed in a random direction. It is characterized in that when the moving display is performed and each image reaches the upper and lower ends or both side ends, the movement is continued in the direction opposite to the moving direction or in the direction of reflection on the end face.

In the first and second aspects of the identification / reaction measuring device according to the present invention that solves the above problems, as one form, a light background color is added to the target image, the target image, and a blank area without an image. It is characterized by imparting a disturbance / noise effect.

In the first and second aspects of the identification / reaction measuring device according to the present invention that solves the above problems, as one form, when the subject makes an identification determination, the subject disturbs / noises vibration from the seat surface. It is characterized by giving it as an effect.

It is external drawing of one Example of the identification / reaction measuring apparatus according to this invention. This is a configuration example of a control device for measuring the identification / reaction function by the identification / reaction measurement device of FIG. 1. It is a figure which shows the processing flow of one Example of identification / reaction measurement according to this invention. FIG. 4 is a diagram showing a test image composed of nine graphic images arranged in a 3 × 3 matrix. It is a figure which shows a part of the graphic image of the material image group which includes a plurality of graphic images. It is a figure which shows a part of the material image group of the face image which is more complicated and difficult to identify as a figure. It is a figure which shows the test image which consists of the image of 15 houses of 3 × 5 obtained from the material image group which has the image of a plurality of houses. It is a figure which shows the measurement result obtained only by inputting the answer from a finger by performing the measurement by the test image using only the face image. It is a figure explaining the measurement result when not only a finger but also a foot switch from a foot is used together with answer input. It is a figure explaining the test image which imitated the judgment of the influence inspection of the viewing angle which is imposed at the time of acquisition or renewal of the driver's license of a large car. It is a figure explaining the measurement result when the viewing angle determination was performed on 8 subjects. It is a figure explaining an example of determining a moving object visual recognition function of a subject by moving a target image individually in an arbitrary direction.

Examples of the present invention will be described below with reference to the accompanying drawings. This example is for facilitating the understanding of the present invention, and the application of the present invention is not limited to these examples. In addition, the scope of protection of the present invention extends to the same or similar scope as the claims.

FIG. 1 is an external view of an embodiment of an identification / reaction measuring device for quantitatively measuring a subject's identification / reaction function according to the present invention.

The identification / reaction measuring device shown in FIG. 1 is applied as an example when acquiring or renewing a driver's license, and is used to evaluate whether the acquisition or renewal of a driver's license is appropriate from the identification and athletic ability of the subject. Be done. That is, it is used for the subject to easily measure the presence or absence of the cognitive function adapted to driving a car and the individual identification motor function such as fingers and feet that does not interfere with driving a car.

In FIG. 1, the identification / reaction measuring device outputs a display device (touch panel type display) 2, a foot switch 3 such as a brake pedal as an input means, and a recording paper or the like on which the measurement results are recorded, on the housing 1. Means 4 is provided.

FIG. 2 is a configuration example of a control device for implementing the identification / reaction measurement method by the identification / reaction measurement device of FIG. The control device 10 may be provided in the housing 1 of the identification / reaction measuring device, or may be placed at a position away from the housing 1.

The control device 10 can be realized by a personal computer as a basic configuration. A processing device 11 equivalent to a CPU, a temporary storage device (RAM) 12, and a storage device 13 such as an OS, a hard disk containing a program for executing and controlling identification / reaction measurement according to the present invention, and an SSD are connected via a bus 14. There is.

The control device 10 is further connected to a display device 2 shown in FIG. 1, a voice input and a foot switch 3, and an output means 4 including voice and vibration via a corresponding interface. When the display device 2 is a touch panel type display, it has both a function as an input means for inputting information by touch input and a function as an output means for outputting and displaying information such as a test image.

FIG. 3 is a diagram showing a processing flow of an embodiment in which a subject's identification / reaction function is measured by an identification / reaction measurement device according to the present invention. The processing flow is realized by executing the program according to the present invention stored in the storage device 13 on the processing device 11.

In FIG. 3, the contents of the examination and the like are explained to the subject to gain their understanding (step S1). This explanation is given, for example, by displaying a text, a moving image, or the like on the screen of the display device 2 to show the subject the purpose and contents of the examination.

By selecting and instructing the confirmation items on the touch panel screen of the display device 2, the subject can indicate the intention (confirmation of informed consent) of consent (step S2, Yes) or disapproval (step S2, No) of the content of the explanation. Is.

If the subject consents to the content of the explanation (step S2, Yes), the data corresponding to the inspection item is read from the storage device 13 (step S3), and the trial test is executed (step S4). On the contrary, if the subject does not agree with the contents of the explanation (step S2, No), the process ends (END) and the test is not performed.

When moving to a trial test, the subject is given a test trial that includes an explanation of the measurement procedure. For example, as shown in FIG. 1, a test image 5 composed of a simple graphic image is displayed on the display device 2.

Here, in the following description of the examples of the present invention, the terms including the test image 5 are defined as follows.

Test image: A target image and a target image are displayed, and the subject refers to the entire image displayed on the corresponding display device 2 as a test.

Target image: It is placed in the center of the test image and refers to the "target image for selection" when the subject identifies it.

Target image: Consists of eight or more individual images arranged around the test image, the subject selects by comparing with the central target image, and touches the same image in the image with fingers to answer. Refers to the "whole".

FIG. 4 is a diagram illustrating a specific example of a simple test image 5. In this example, the test image 5 is composed of nine graphic images arranged in a 3 × 3 matrix.

The subject identifies whether or not a graphic image that is the same as or similar to the specific target image A shown in, for example, the double frame 20 in the center of the test image 5 is in the surrounding image in the test image 5. If the determination is made and the same or similar graphic image is in the target image, it is required to touch the position on the screen with a finger.

That is, if there is the same or similar graphic image, the subject can give an answer by touching the display position of the graphic image on the touch panel of the display device 2 corresponding to the position with a finger.

On the other hand, when it is determined that the graphic image that is the same as or similar to the target image A is not in the target image, the subject steps on the foot switch 3 with his / her foot and replies that there is no graphic image that is the same as or similar to the target image. Is required to do.

In the example shown in FIG. 4, the same target image as the central target image A is arranged in the lower right portion of the 3 × 3 matrix.

In this way, the subject executes a trial test for identifying and determining a graphic image that is the same as or similar to the target image specified in the test image from the target image.

After executing the trial test, this test is started (step S5).

This test is the same as the trial test, but in this test, repeated tests are performed, and the average value of them is calculated and the final evaluation is performed.

A plurality of images are read from the material image group stored in the storage device 13 by controlling a program executed by the processing device 11 according to the present invention (step S6), and a plurality of images selected for the display device 2 are selected for each test. It is configured and displayed as a test image (step S7).

FIG. 5 is a part of a material image group composed of a plurality of simple graphic images stored in the storage device 13. The test image used in this test is a matrix of 3x3, or more complicatedly multiplex 3x5, 5x5, etc., centered on the target image by randomly selecting a graphic image from this material image group. It may be a test image arranged in.

Further, FIG. 6 shows a part of a material image group composed of a plurality of more complicated face images as a figure stored in the storage device 13. One face image (image surrounded by a thick frame in FIG. 6) randomly specified from the material image group of the plurality of face images is set as the target image. Further, a plurality of other face images can be selected as target images from the material image group, and the plurality of selected target images can be arranged as test images so that the specified target image is located at the center.

Further, FIG. 7 is an image of 15 houses of 3 × 5 obtained from a material image group having images of a plurality of houses stored in the storage device 13 in consideration of city driving when driving a car. This is an example of constructing a test image.

In this example, the image of any one identified house is the target image A. A plurality of target images are arranged so as to surround the periphery thereof, and the target image A is placed in the center of, for example, a test image having a 3 × 5 arrangement. The subject identifies an image that is the same as or similar to the target image A of the house in the urban area identified from the target image in the test image, indicates the position of the image on the screen, and answers.

In the example of the test image of FIG. 7, an image that is the same as or similar to the target image A does not exist in the target image. In such a case, the subject presses down the foot switch 3 with his / her foot and inputs an answer that the same or similar image does not exist in the target image.

Here, the first test image and the second test image used in the following description are defined as follows.

The first test image uses a target image and a target image selected from a group of material images of simple and easily identifiable figures as described in FIGS. 4 and 5, and a target that surrounds the target image in a single layer. It is composed of images. On the other hand, when the second test image is configured by using the target image and the target image selected from the material image group of the complicated figure as described with reference to FIGS. 6 and 7, or the simple above. This includes a case where a target image and a target image selected from a group of material images of various figures are used and a large number of target images are configured so as to surround the target image in multiples.

Here, the type of image (face, animal / plant, urban area, landscape, complicated pattern, etc.) and its complexity between a plurality of different test images obtained by the first test image and the second test image are changed. Furthermore, by comparing the measured values obtained from the first test image and the second test image with each other, the abnormality of the identification / reaction function of the subject (the identification / reaction function in the brain). It will be possible to individually and quantitatively classify and evaluate the detailed types of diseases and their degree classification in patients with abnormalities and dementia. In particular, such a matter is a feature of the present invention that has not been disclosed or suggested in the previous application (Patent Document 1).

It should be noted that two different target images may be present in the same test image. In that case, the answer of the test image will be completed when the second identification / answer is made.

Returning to the flow of FIG. 3, the subject identifies an image that is the same as or similar to the designated target image in the test image displayed on the display device 2, and touches the position on the screen to respond (step S9). ). At this time, the time t elapsed from the display of the test image (step S7) to the identification of the position of the same or similar target image as compared with the target image and the response with the fingers or feet is measured (step S7). Step S8).

When the elapsed time t becomes large and reaches the specified time T ₀ (step S8, No), the fact that the specified time T ₀ has passed is recorded in the predetermined area of the storage device 13 (step S10). At that time, the correctness of the identification of the image that is the same as or similar to the target image from the target image is determined as "error", and a display (for example, sounding a buzzer sound) indicating that the specified time t has been exceeded is displayed (step S11). ).

On the other hand, when the same or similar image position is determined and the answer is made within the specified time T ₀ (step S8, Yes) (step S9), the correctness of the determination is determined (step S9). Step S12). If the determination is correct, the correct answer is recorded and the required time is recorded in the predetermined area of the storage device 13 (step S13). At this time, a display indicating that the correct decision has been made (for example, sounding a chime sound) is performed (step S14). On the contrary, if the determination is incorrect, the number of errors is incremented in the predetermined area of the storage device 13, and at the same time, the error is displayed (for example, a buzzer sound) (steps S10 and S11).

By the above process, the first test using the test image is performed, and the same main test using the continuously updated test image is repeated. For example, if the number of times the test is repeated is 30 or less (steps S15, No), the process returns to step S7, the arrangement of the new test image is displayed on the display device 2, and the position selection determination of the target image with respect to the same target image is performed. The answer will be given again by the subject. In determining the position selection of the target image, the subject is required to perform an input operation to the answer by fingers or feet as well as visual recognition and identification determination.

Here, if the number of repetitions of the above test reaches 31 (step S15, Yes), the series of measurements is completed, and the processing device 11 identifies and reacts to the subject 30 times recorded in the storage device 13. The correct / incorrect answer status is statistically processed and recorded, and the necessary portion is output from the output means 4 to end the process (step S16).

Here, regarding the repetition of the above test, the following measures are taken.

A test image (first configuration) composed of a simple graphic image as shown in FIG. 4, a test image using a graphic image of a face whose identification determination is complicated and difficult as shown in FIG. 6, or a figure. An image of a complicated urban area as described in FIG. 7, or a test image in which the target image is complicated as many as 3 × 5, 5 × 5 even if it is a simple graphic image as shown in FIG. (Second configuration) is used. Then, the above test using the test images of the first and second configurations is independently repeated a plurality of times. Alternatively, the first configuration and the second configuration may be alternately combined and repeated a plurality of times. In each of the first configuration and the second configuration, the average value of the results of performing the measurement a plurality of times is obtained.

Here, in the first configuration, it is considered that the subject outputs the answer exclusively by "moving the fingers and feet in a conditioned reflexive manner following the input from the visual observation". On the other hand, in the second configuration, it is considered that the judgment result is output by "moving the fingers and feet" after "after making full use of the complicated identification function in the brain following the input from visual recognition". ..

Therefore, by subtracting the measured value / response required time according to the first configuration from the measured value / response required time according to the second configuration, that is,
"Measured value / response required time according to the second configuration"-"Measured value / response required time according to the first configuration" = "Speed of identification function in the brain / response required time"
Therefore, it is possible to quantitatively measure the "speed of the identification function in the brain and the time required for answering" for a complex image group such as a face or an urban area.

Further, the processing device 11 compares the standard determination criteria (image response accuracy and response time required) stored in the storage device 13 in advance with the measurement result at hand, and determines the state of the measured value of the subject. It can be evaluated and provided to the subject as a test record from the output means 4 if necessary.

FIG. 8 shows a 3 × 3 matrix created from one target image and eight target images from facial material images as shown in FIG. 6 for 234 men and women aged 6 to 85 years. This is the result of measurement using only the finger input using the test image. The horizontal axis is the age of the subject, the graph I on the left vertical axis is the response accuracy, and the graph II on the right vertical axis is the time (sec) required for the identification response.

In the answer accuracy graph I, the age of the subjects decreased rapidly from the late 40s, and after the 60s, the presence ratio of one correct image to eight target images (12.5%). ) Is approaching.

On the other hand, in the response time graph II, the response time value did not change significantly until the subject's age in the early 60s, but it increased rapidly after that, and at the same time, the response accuracy tended to decrease. Be done.

FIG. 9 is a measurement result when the foot switch 3 is used for answer input.

This test was conducted twice for 16 healthy men and women (age 38-78 years old). The first time was only the answer by hand input, and the second time was once in 4 times of the test image (out of 24 times). 6 times) shows a graph comparing the test (input from the foot) results mixed with the answers from the foot switch 3 by the foot.

It should be noted that this measured value shows only the value of the "discrimination function in the brain" after subtracting the "conditionally reflexive motor function" for each individual by a simple graphic image as shown in FIG.

In FIG. 9, when comparing the test result X including the foot switch answer using the foot and the test result Y containing only the finger answer in both the graph I on the left vertical axis and the graph II on the right vertical axis, the average value is 1 /. The response accuracy for Test X, which includes four foot footswitch responses, is 4% worse. Furthermore, the time required for the identification response is delayed by 0.8 seconds. As a result, since the test itself assumes braking operation by using the foot switch 3, for example, when acquiring or renewing a driver's license, this book is used to evaluate the identification / reaction function of the subject in driving a car. It shows that the application of the invention is valid.

Furthermore, when obtaining or renewing a driver's license, especially a large driver's license, the viewing angle is required to be greater than or equal to the specified value. FIG. 10 is a diagram illustrating an embodiment for evaluating the presence or absence of a wide-area viewing angle identification function when driving such a large vehicle.

In the example as shown in FIG. 4 described above, in the test image, an example in which a plurality of target images are arranged adjacent to each other so as to surround the target image is shown.

On the other hand, FIG. 10 is a diagram showing an example of a test image in which the target image B is arranged at a large distance to the left and right from the target image A arranged in the center.

Now, let the display width of the target image A be L = 1.0. In the example shown in FIG. 10, the target images B arranged on the left and right are arranged on the left and right apart from the target image A by a width of L = 2.0. Using such a test image, the subject identifies an image that is the same as or similar to the target image A from the target images B arranged apart from each other on the left and right according to the processing flow described above in FIG.

Since the target image A and the target image B are arranged at a predetermined interval, it is necessary for the subject to make a determination at a predetermined viewing angle starting from the position of the eyes. Therefore, the wide-area viewing angle identification function of the subject can also be determined from the test image of FIG.

FIG. 11 shows data when the viewing angle determination is performed on eight subjects J, K, M, N, P, Q, R, and S. In FIG. 11, after fixing the eye position with reference to the width L = 1 of the target image A, the target image B is arranged at each of the separation widths L = 0, L = 2, L = 3 from the target image A. It is a table summarizing the time (seconds) required for answering the same or similar target images.

It can be seen that the time required for the eight subjects to respond to the same or similar target images is so long that the target image B is separated from the target image A, as represented by the average value. .. That is, the farther the target image B is from the target image A, the more difficult the discrimination determination becomes, and it is possible to measure and evaluate the individual viewing angle identification / reaction function of the subject by using such a devised test image. ..

FIG. 12 is a diagram illustrating an example of determining a moving object visual recognition function in still another embodiment.

In the initial state, the target image B is arranged so as to be separated from the target image A on the left and right as in the embodiment of FIG. Eight target images arranged on the left and right are displayed while moving at a constant speed at random in the left-right and diagonally up-and-down directions as indicated by arrows independently. It moves in the direction of the arrow, and when it reaches the upper and lower ends or both ends, it repeats the movement of moving in the opposite direction or the reflecting direction. In the process, the subject visually classifies the target image that is the same as or similar to the target image A in various movements, determines one of the moving target images, and answers with fingers or feet.

Such a judgment requires a moving object visual function that touches a moving target image with a finger at the same time as judging a delicate difference in the target image together with a viewing angle, and is required when obtaining or renewing a driver's license, baseball, table tennis, etc. It can also be used to determine athletic performance in sports.

In FIG. 12, the movement of the target image B may be moved back and forth in the screen depth direction. This makes it possible to determine when the target image B moves back and forth and is lined up at the "reference point" by using a three-dimensional display image and special glasses, and it is possible to determine when the vehicle license is obtained or renewed. It can be applied to the same evaluation test as "depth inspection".

Here, in each of the examples described above, it is possible to give an environmental load to the subject and perform the measurement in consideration of the purpose of application of the identification / reaction measuring device.

As one of them, a light background color is added to both the target image and the target image and / or a blank area where there is no image as a disturbance / noise effect. Such a background color affects the original image identification function of the subject. Alternatively, as another method, it is possible to give a voice or vibration perceived by the subject as disturbance or noise from the identification / reaction measuring device, for example, to give vibration to the seat surface of the subject.

In this way, the degree of influence on the subject's judgment result by giving disturbance / noise to the subject in the process of identification / reaction measurement by image identification is calculated numerically (accuracy of image judgment and time required for response). Is possible.

Further, as an example, the touch panel of the display 2 and the foot switch 3 have been described above as a method for the subject to input the answer of the identification / reaction function, but other voice input such as numbers and Yes / No by a microphone has been described above. It may be.

In the above description, examples of the present invention have been described mainly assuming the acquisition or renewal of a driver's license, but the present invention describes a medical diagnostic method, an evaluation of a function of discriminating occupational adaptability, or It is possible to target educational learning abilities and achievements.

1 Housing 2 Display device (touch panel type display)
3 Foot switch 4 Output means 5 Test image A Target image 10 Control device
11 Processing device (CPU)
12 RAM
13 storage device 14 bus

Claims (5)

It is an identification / reaction measuring device that measures the identification / reaction function of a subject using images.
A storage device that stores multiple material images and
A display device that allows touch input and displays test images,
It has a foot switch for input by stepping on the foot and a control device for controlling the display of the test image on the display device.
The control device acquires a target image and a plurality of target images from a plurality of material images stored in the storage device, constitutes the test image, and arranges the target image and the plurality of target images in a matrix. To display on the display device
The subject is made to discriminate and determine a target image that is the same as or similar to the target image among a plurality of target images in the configured test image, and the response accuracy in the identification determination of the test image by the subject and the identification response are obtained. When evaluating the identification / reaction function of the subject from the measured value of the required time
The test image has a first configuration with a simple image and a second configuration with a complicated image.
On the screen of the display device, the position of the target image whose identification is determined is touch-input, and the input is performed when the target image cannot be identified by the stepping operation of the foot of the foot switch.
The subject is obtained by subtracting the measured value of the result of the identification determination by the subject using the test image according to the first configuration from the measured value of the result of the identification determination by the subject using the test image according to the second configuration. To evaluate the identification / reaction function of
An identification / reaction measuring device characterized by this. In claim 1,
The measured value of the result of the identification determination by the subject using the test image according to the first configuration and the measured value of the result of the identification determination by the subject using the test image according to the second configuration are each repeated a plurality of times. Using the average value of multiple measured values of the result of the identification judgment obtained in
An identification / reaction measuring device characterized by this. In claim 1 ,
The test image, when placing the target image and a plurality of target images in a matrix, the target image is placed in the center, configuration by arranging a plurality of target images around so as to surround the target image Be done,
An identification / reaction measuring device characterized by this. It is a program that executes and controls the measurement of the subject's identification / reaction function in the identification / reaction measurement device that measures the subject's identification / reaction function using images.
The identification / reaction measuring device includes a storage device for storing a plurality of material images, a display device capable of touch input and displaying a test image, and a foot switch for inputting by stepping on a foot.
It has a control device that controls the display of the test image on the display device.
In the control device
A target image and a plurality of target images are acquired from a plurality of material images stored in the storage device to form a test image, and the target image and the plurality of target images are arranged in a matrix and displayed on the display device. Let me
Said subject, among the plurality of target images in the constructed test images, in identifying determining identical or similar target image and the target image, on the screen of the display device, the identification the determined target image The position of is touch-input, and the input is performed when the target image cannot be identified by the stepping operation of the foot of the foot switch.
The accuracy of the response in the identification judgment of the test image by the subject and the measured value of the time required for the identification response were obtained.
When evaluating the identification / reaction function of the subject from the obtained measured value,
The test image has a first configuration with a simple image and a second configuration with a complicated image.
The subject is obtained by subtracting the measured value of the result of the identification determination by the subject using the test image according to the first configuration from the measured value of the result of the identification determination by the subject using the test image according to the second configuration. To evaluate the identification / reaction function of
A program that executes and controls the measurement of the subject's identification / reaction function. In claim 4 ,
As the measured value of the result of the identification determination by the subject using the test image according to the first configuration and the measured value of the result of the identification determination by the subject using the test image according to the second configuration on the control device. , Use the average value of multiple measured values of the identification judgment results obtained by repeating each multiple times.
A program that executes and controls the identification and reaction function measurement of a subject.

Images