JP2017205191A - Identification/reaction measuring device for measuring identification/reaction functions of subject, and program for executing/controlling measurement of identification/reaction functions of subject - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a method for measuring identification/reaction functions for causing a plurality of graphic images presented on the same screen to be identified individually, and easily measuring a cognitive function and an individual motor function of fingernails and feet of a subject, and an identification/reaction measuring device using the method.SOLUTION: An identification/reaction measuring device includes a storage device for storing a material image, a display device for displaying a test image, and a control device. The control device: acquires a target image and a plurality of object images from a plurality of material images stored in the storage device, causes the test image to be displayed; causes a subject to identify and determine an object image the same as or similar to the target image of the plurality of object images in the constituted test image; when identification/reaction functions are evaluated from measurement values of a degree of response accuracy and time taken for an identification response, causes the test image to be a first configuration by a simple image, and a second configuration by a complicated image; and evaluates the identification/reaction functions of the subject from a numerical value subtracting the measurement value of the result of the identification determination using the test image by the first configuration from the measurement value of the result of the identification determination using the test image by the second configuration.SELECTED DRAWING: Figure 3

Description

  The present invention relates to an identification / reaction measurement device for measuring a subject's identification / reaction function, and a program for executing and controlling measurement of the subject's identification / reaction function, and in particular, for early detection of a sign of a subject's cognitive symptoms. The present invention also relates to an identification / reaction measurement apparatus for quantitatively measuring an identification function and a motor function that can be adapted to driving a vehicle, and a program for executing and controlling measurement of a subject's identification / reaction function.

  In recent years, people who are not aware of cognitive symptoms or impaired visual cognitive function have caused serious accidents by driving a car.

  It is thought that dementia may be prevented from progressing by early detection and intervention. To that end, development of early diagnosis methods is underway. As a method for early diagnosis of dementia, various image diagnosis, blood cerebrospinal fluid test, and neuropsychological test are used.

  However, diagnostic imaging such as brain MRI and amyloid PET requires expensive examination equipment and examination costs, and cerebral blood flow scintigraphy and PET involve radiation exposure with a low dose. The blood cerebrospinal fluid test involves invasion of the subject, and the cost of the test is high at present and cannot be easily applied.

  Various neuropsychological examinations require individual training in clinical psychology, because individual results are produced in measurement results obtained by examiners. Further, the examination takes 20 minutes to 1 hour, and the quantitativeness is poor. Furthermore, there is currently no testing method that has established usefulness for early diagnosis of dementia.

  Optical illusion test methods have been developed to detect abnormalities in visual cognitive function, but currently there are problems such as the use of paper materials and the quantification of test results. Although what currently performs the content of the conventional neuropsychological test using a touch panel exists, the usefulness beyond the psychological test performed with paper is not recognized.

  In view of the background art, the present inventors have previously identified / capable of quantitatively measuring functions related to “identification / reaction / response” for each individual, which is the ability to cope with environmental changes in daily life. A reaction measuring method and 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 rapidly measuring “human physiological / intelligent reaction rate”.

  For example, an image having the same content as that of the central target image is selected from the surrounding and eight target images among the images in three rows and three columns displayed on the display unit, and the “same image” is touched with a finger. In this way, one inspection is finished. Furthermore, a similar test is repeated several times for one subject, and the average value of the test results is obtained. In such a test, measurement of one person is completed in a short time of about 3 to 5 minutes, and quantification is easy.

  The measurement result is immediately returned to the subject. In the identification of face images, it is already known that the “reply accuracy and the time required for the identification answer” differ depending on the sex and age of the subject by separately using the male face image and the female face image. Further, when the person is over 60 years old, the time required for identification and answering is rapidly increased, and the answer accuracy is also deteriorated.

  In the conventional invention described in Patent Document 1, the focus is on measuring the level of the cognitive function of the subject based solely on the answer accuracy in visual recognition of the image and the length of time required for the identification answer.

  On the other hand, with age, the motor and reflex functions deteriorate as well as the identification function in the brain. As described above, the discriminating function in the brain, that is, the movement and reflex function as well as the cognitive symptoms, can cause a serious accident in the driving of a vehicle due to an erroneous operation of a steering wheel or a brake or a delay in the operation.

  Therefore, the purpose of the present invention is not limited to the comprehensive identification function from the visual recognition of the test image to the corresponding movement of the fingers and feet, the movement function directly connected to the fingers and feet from the visual recognition constituting the overall function, and It is to judge and evaluate the complex discrimination function in the brain separately. That is, an object of the present invention is to provide a measuring apparatus and a program that can evaluate two components constituting an identification function quantitatively and separately. And, by applying the present invention, early detection of cognitive symptoms, and in particular, judgment of a subject's identification function and motor function deterioration status at the time of acquisition or renewal of a driver's license, eliminate the opportunity of unadaptive car driving. , Can prevent serious car accidents.

  A first aspect of the identification / reaction measurement apparatus according to the present invention that solves the above-described problems is an identification / reaction measurement apparatus that measures an identification / reaction function of a subject using an image, and stores a plurality of material images An apparatus, a display device that displays a test image, and a control device that controls display of the test image on the display device, and the control device selects a target image from a plurality of material images stored in the storage device. A plurality of target images, and the test image is configured and displayed on the display device, and the test subject has the same or similar to the target image among the plurality of target images in the configured test image. When evaluating the subject's identification / reaction function from the accuracy of the response in the identification determination of the test image by the subject and the measured value of the time required for the identification response, the test image is a simple image. According to the first configuration and the second configuration based on a complex image, the test image according to the first configuration is used from the measurement value of the result of the identification determination by the subject using the test image according to the second configuration. The identification / reaction function of the subject is evaluated from a numerical value obtained by subtracting the measured value of the identification determination result by the subject.

  In one aspect of the identification / reaction measurement apparatus according to the present invention for solving the above-mentioned problems, as one embodiment, a measurement value of a result of identification determination by the subject using a test image according to the first configuration, and the second The measurement value of the result of the identification determination by the subject using the test image according to the configuration uses an average value of the plurality of measurement values of the result of the identification determination obtained by repeating a plurality of times.

  In one aspect of the identification / reaction measurement device according to the present invention that solves the above-described problem, as one form, when the subject discriminates and determines a target image that is the same as or similar to the target image, the same as the target image Alternatively, a foot switch for inputting the answer by a stepping operation of a foot for performing an answer for determining that a similar image does not exist in the target image is provided.

  In one aspect of the identification / reaction measurement apparatus according to the present invention that solves the above-described problem, as one form, the test image has a plurality of target images around the target image, the target image being arranged in the center. Are arranged in a matrix.

  In one aspect of the identification / reaction measurement apparatus according to the present invention that solves the above-described problem, as a further aspect, the second configuration based on the complex image is a case where the material image itself is composed of a complex image, or It includes a case where a plurality of target images are arranged so as to multiplexly surround a target image arranged in the center to constitute a test image.

  A second aspect of the identification / reaction measurement apparatus according to the present invention that solves the above-described problem is an identification / reaction measurement apparatus that measures an identification / reaction function of a subject using an image, and stores a plurality of material images. An apparatus, a display device that displays a test image, and a control device that controls display of the test image on the display device, and the control device selects a target image from a plurality of material images stored in the storage device. A plurality of target images, the target image is arranged in the center as the test image, the target images are arranged on both 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 between the target image and a wide viewing angle from the subject. The test image is displayed on the display device, and the test image is displayed on the subject. Multiple inside Among the target images, the target image that is the same as or similar to the target image is identified and determined, and the subject's identification / reaction function is determined from the 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 It is characterized by evaluating.

  In a second aspect of the identification / reaction measurement device according to the present invention for solving the above-mentioned problems, as one form, the control device is configured to cause each of the target images arranged on the left and right sides to be in a random direction at a constant speed. When moving and displaying, and when 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 the direction of reflection at the end face.

  In the first and second aspects of the identification / reaction measurement apparatus according to the present invention for solving the above problems, as one form, a light background color is added to the target image, the target image, and a blank area without the image. It is characterized by adding disturbance and noise effects.

  In the first and second aspects of the identification / reaction measurement apparatus according to the present invention that solves the above-mentioned problems, as one aspect, when the subject performs identification determination, the subject is subjected to vibration and noise from the seating surface. It is given as an effect.

It is an external view of one Example of the identification / reaction measurement apparatus according to this invention. It is a structural example of the control apparatus for implementing the measurement of an identification / reaction function by the identification / reaction measurement apparatus of FIG. It is a figure which shows the processing flow of one Example of the identification and 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 the one part graphic image of the material image group containing a some graphic image. It is a figure which shows a part of 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 comprised from the image of 15 houses of 3x5 obtained from the raw material image group which has the image of a some house. It is a figure which shows the measurement result obtained by measuring by the test image using only a face image, and only receiving the reply input from a finger. It is a figure explaining the measurement result when not only a finger but the foot switch from a foot is used together for an answer input. It is a figure explaining the test image imitating the determination of the influence inspection of the viewing angle imposed at the time of acquisition or renewal of the driver's license of a large-sized car. It is a figure explaining the measurement result at the time of performing a viewing angle determination with respect to eight test subjects. It is a figure explaining the example which moves a target image individually in arbitrary directions, and determines a test subject's moving body visual recognition function.

  Embodiments of the present invention will be described below with reference to the accompanying drawings. This embodiment is intended to facilitate understanding of the present invention, and the application of the present invention is not limited to these embodiments. The scope of protection of the present invention covers the same or similar scope as the claims.

  FIG. 1 is an external view of an embodiment of an identification / reaction measurement apparatus for performing quantitative measurement of a subject's identification / reaction function according to the present invention.

  The identification / reaction measurement apparatus shown in FIG. 1 is applied, for 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 exercise ability of a subject. It is done. That is, the test subject is used to easily measure the presence / absence of a cognitive function adapted to driving a vehicle and an individual identification motor function such as a finger or a foot that does not interfere with driving the vehicle.

  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 on which a measurement result is recorded, etc., to a housing 1. Means 4 are provided.

  FIG. 2 is a configuration example of a control apparatus for carrying out the identification / reaction measurement method by the identification / reaction measurement apparatus of FIG. The control device 10 may be provided in the housing 1 of the identification / reaction measurement device, or may be placed at a position separated 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, an OS, and a storage device 13 such as a hard disk and an SSD storing an execution control program for identification / reaction measurement according to the present invention are connected through a bus 14. Yes.

  The control device 10 is further connected to the display device 2 shown in FIG. 1, a voice input / foot switch 3, and output means 4 including voice / vibration via a corresponding interface. When the display device 2 is a touch panel display, the display device 2 has both a function as an input unit that inputs information by touch input and a function as an output unit that outputs and displays information such as a test image.

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

  In FIG. 3, the contents of the examination and the like are explained to the subject to obtain understanding (step S1). This explanation is made by, for example, displaying the purpose and contents of the examination on the screen of the display device 2 on the screen of the display device 2 for the subject.

  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). It is.

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

  When shifting to the trial test, a test trial including an explanation of the measurement procedure is performed on the subject. 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 embodiments of the present invention, terms including the test image 5 are defined as follows.

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

  Target image: It is arranged at the center of the test image and refers to an “image targeted for selection” when the subject identifies.

  Target image: consisting of a plurality of 8 or more individual images arranged around the test image, the subject selecting and comparing with the central target image, and answering the same image with a finger by touching the “image group” "The whole".

  FIG. 4 is a diagram for explaining 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 a graphic image that is the same or similar to the specific target image A shown in the double frame 20 in the center of the test image 5 is in the surrounding images in the test image 5. If the same or similar graphic image is present in the target image, it is required to touch the position with a finger on the screen.

  That is, if there is the same or similar graphic image, the subject can make 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 same or similar graphic image as the target image A is not in the target image, the test subject answers that there is no graphic image that is the same or similar to the target image by depressing the foot switch 3 with the foot. It 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 part of the 3 × 3 matrix.

  In this way, the subject performs a trial test in which a graphic image that is the same as or similar to the target image specified in the test image is identified and determined from the target image.

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

  This test is the same as the trial test, but in this test, a repeated test is performed, and an average value thereof is obtained and a final evaluation is performed.

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

  FIG. 5 is a part of a material image group made up of a plurality of simple graphic images stored in the storage device 13. The test image used in this test is a matrix image of 3 × 3 or 3 × 5, 5 × 5, etc., which is a 3 × 3 on the outside of the target image centered around the target image, or more complexly multiplexed, from this material image group. Alternatively, the test images may be arranged in the same manner.

  FIG. 6 shows a part of a material image group made up of a plurality of more complex face images as figures stored in the storage device 13. One face image (an image surrounded by a thick frame in FIG. 6) randomly identified from the material image group of the plurality of face images is set as a target image. Furthermore, a plurality of other face images can be selected as target images from the material image group, and the selected target images can be arranged as test images so that the specified target image is located in the center.

  Further, FIG. 7 is an image of 15 × 3 × 5 houses obtained from a material image group having a plurality of house images stored in the storage device 13 in consideration of driving in an urban area when driving a car. It is an example which comprises a test image.

  In this example, an image of one specified house is set as the target image A. A plurality of target images are arranged so as to surround the periphery, and the target image A is placed at the center of the test image having a 3 × 5 array, for example. The test subject identifies an image that is the same as or similar to the target image A of the house in the urban area specified from the target image in the test image, and gives an answer by indicating the position of the image on the screen.

  In the example of the test image in 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 inputs an answer that the same or similar image does not exist in the target image by pressing down the foot switch 3 with his / her foot.

  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 simple and easy-to-identify graphic material image group as described with reference to FIGS. 4 and 5 and surrounds the target image in a single layer. Consists of images. On the other hand, the second test image is configured by using the target image and the target image selected from the complex graphic material image group as described in FIG. 6 and FIG. This includes a case in which a target image selected from a material image group of simple figures and a target image are used, and a plurality of target images are formed so as to surround the target image in a multiple manner.

  Here, the type (image, face, animal / plant, urban area, landscape, complicated pattern, etc.) and the complexity of a plurality of different test images based on the first test image and the second test image are changed, Further, by comparing the measured values obtained in the first test image and the second test image with each other, the subject's discrimination / reaction function is not normal (the discrimination / reaction function in the brain is It is possible to individually and quantitatively evaluate the type of disease and the degree of the disease in patients with anomaly / dementia. In particular, this matter is a feature of the present invention that is not disclosed or suggested in the previous application (Patent Document 1).

  Note that two different target images may exist in the same test image. In that case, when the second identification / answer is made, the answer of the test image is terminated.

  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 that position on the screen to answer (step S <b> 9). ). At this time, the time t elapsed from when the test image is displayed (step S7) until the position of the same or similar target image compared with the target image is identified and answered with fingers or feet is measured ( Step S8).

The elapsed time t is increased, when it reaches the specified time _{T 0} (step S8, No), the fact that exceeded the specified time _{T 0,} is recorded in a predetermined area of the storage device 13 (step S10). At this time, whether the image is the same or similar to the target image from the target image is judged as “error”, and a display indicating that the specified time t has been exceeded (for example, a buzzer is sounded) is performed (step S11). ).

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

  A test using the first test image is performed by the above processing, and the same main test using the updated test image is repeated. For example, if the number of test repetitions is 30 or less (No in step S15), the process returns to step S7, the new test image arrangement is displayed on the display device 2, and the position selection decision of the target image with respect to the same target image is performed. Answer will be made again by the subject. In the position selection determination of the target image, the subject needs to perform an input operation to an answer with a finger or a foot, together with visual recognition and identification determination.

  Here, if the number of repetitions of the test has reached 31 (step S15, Yes), a series of measurements is completed, and the processing device 11 recognizes the subject's identification / reaction speed 30 times recorded in the storage device 13. The correct / incorrect answer status is statistically processed and recorded, the necessary part is output from the output means 4, and the process is terminated (step S16).

  Here, the following is dealt with regarding the repetition of the above test.

  A test image (first configuration) composed of a simple graphic image as shown in FIG. 4 and a test image using a graphic image of a face as shown in FIG. 7 is a complicated urban image as described in FIG. 7 or a simple graphic image as shown in FIG. 5 where the target image is a complex image consisting of a large number of 3 × 5, 5 × 5, etc. (Second configuration) is used. And the said test by the test image of the said 1st, 2nd structure is repeated several times each independently. 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, an average value of results obtained by performing the measurement a plurality of times is obtained.

  Here, in the first configuration, it is considered that the subject outputs an answer exclusively by “moving fingers and feet in a conditionally reflective manner following input from visual recognition”. On the other hand, in the second configuration, it is thought that “after making full use of complex identification function in the brain following input from visual recognition”, the determination result is output by “moving fingers and feet”. .

Therefore, by subtracting the measurement value / response time according to the first configuration from the measurement value / response time according to the second configuration, that is,
“Measured value / response time by the second configuration” − “Measurement value / response time by the first configuration” = “Speed of the identification function in the brain / response time”
From this relationship, it becomes possible to measure "the speed of the identification function in the brain and the time required for response" for a complex image group such as a face or an urban area, individually and quantitatively.

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

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

  The response accuracy graph I shows that the ratio of one correct image (12.5%) to eight target images after the age of the subject rapidly decreased from the late 40s and after the 60s. ) Is approaching.

  On the other hand, in the response time graph II, until the subject's age is around the early 60s, the value of the response time does not change much and is almost constant, but then increases rapidly and the response accuracy tends to decrease at the same time. It is done.

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

  This test was conducted twice for 16 healthy men and women (aged 38-78 years). The first test was answered only by hand input, and the second test was once every four test images (out of 24). 6) shows a graph comparing the results of the test (input from the foot) in which the responses from the foot switch 3 by foot are mixed.

  This measured value shows only the value of the “discriminating function in the brain” after subtracting the individual “conditional reflex motor function” by a simple graphic image as shown in FIG.

  In FIG. 9, when both the graph I on the left vertical axis and the graph II on the right vertical axis compare the test result X including the foot switch response using the foot with the test result Y only of the finger response, the average value is 1 /. Answer accuracy for test X with 4 foot footswitch answers is 4% worse. Furthermore, the time required until the identification response is delayed by 0.8 seconds. As a result, since the test itself also assumes a braking operation by using the foot switch 3, for example, when acquiring or renewing a driver's license, this test is performed to evaluate the identification / reaction function in driving a subject. It shows that the application of the invention is effective.

  Furthermore, when obtaining or renewing a driver's license, especially a large license, the viewing angle is required to be more than specified. FIG. 10 is a diagram for explaining an embodiment for evaluating the presence / absence of a wide-range viewing angle identification function when driving such a large automobile.

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

  On the other hand, FIG. 10 is a diagram illustrating an example of a test image in which the target image B is arranged far from the target image A arranged in the center on the left and right.

  Now, it is assumed that the display width of the target image A is L = 1.0. In the example shown in FIG. 10, the target images B arranged on the left and right are arranged apart from the target image A on the left and right 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 left and right in accordance with the processing flow described above with reference to FIG.

  Since the target image A and the target image B are spaced apart from each other by a predetermined distance, it is necessary for the subject to make a determination at a predetermined viewing angle starting from the eye position. Therefore, it is possible to determine the wide viewing angle identification function of the subject 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, the eye position is fixed with the horizontal width L = 1 of the target image A as a reference, and the target image B is arranged in each of the separation widths L = 0, L = 2, and L = 3 from the target image A. The table summarizes the time (seconds) required to answer the same or similar target images.

  It can be seen that the time required for answering the same or similar target images by the eight subjects is longer as the target image B is separated from the target image A, as represented by the average value. . That is, the more the target image B is away from the target image A, the more difficult it is to identify and determine. By using such a devised test image, it is possible to measure and evaluate the identification / reaction function of a subject's individual viewing angle. .

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

  In the initial state, the target image B is arranged away 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 so as to move randomly at a constant speed in the left and right and diagonally up and down directions as indicated by arrows independently. When moving in the direction of the arrow and reaching the upper and lower ends or both ends, the movement of moving in the reverse direction or the reflecting direction is repeated. In the process, the subject visually distinguishes the target image that is the same as or similar to the target image A among various movements, determines which one of the target images is moving, and answers with the fingers or feet.

  This determination requires a moving object visual recognition function that touches the moving target image with a finger at the same time as determining the subtle difference of the target image together with the viewing angle, such as when acquiring or renewing a driver's license, baseball, table tennis, etc. It can also be used when determining athletic ability in sports.

  In FIG. 12, the movement of the target image B may be moved back and forth in the screen depth direction. Accordingly, it is possible to determine when the target image B moves back and forth and is aligned with the “reference point” by using the three-dimensional display image and the dedicated glasses. It is possible to apply to an evaluation test similar to “depth inspection”.

  Here, in each of the embodiments described above, it is possible to perform measurement by applying an environmental load to the subject in consideration of the purpose of application of the identification / reaction measurement device.

  As one of them, a light background color is added as a disturbance / noise effect to both the target image and the target image and / or to a blank area without an image. The background color affects the subject's original image identification function. As another method, it is possible to give voice or vibration sensed by the subject as disturbance or noise from the identification / reaction measurement device, for example, to give vibration to the seat surface of the subject.

  In this way, to determine the degree of influence on the determination result of the subject by giving disturbance / noise in the identification / reaction measurement process by image identification to the subject by numerical values (accuracy of image determination and time required for answer) Is possible.

  Furthermore, 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 an answer of the identification / reaction function. It may be.

  In the above description, the embodiment of the present invention has been described mainly on the assumption that the driver's license is acquired or renewed. It is possible to target educational learning ability and results.

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 unit (CPU)
12 RAM
13 Storage device 14 Bus

Claims (15)

An identification / reaction measurement device for measuring a subject's identification / reaction function using an image,
A storage device for storing a plurality of material images;
A display device for displaying test images;
A control device for controlling 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, configures the test image, and displays the test image on the display device,
Among the plurality of target images in the configured test image, the subject is made to identify and determine a target image that is the same as or similar to the target image. When evaluating the subject's identification and response function from the measured time taken,
The test image has a first configuration based on a simple image and a second configuration based on a complex image.
The subject obtained from a numerical value obtained by subtracting the measured value of the identification determination result by the subject using the test image according to the first configuration from the measured value of the identification determination result by the subject using the test image according to the second configuration. Evaluate the identification / reaction function of
An identification / reaction measurement device characterized by that. In claim 1,
The measurement value of the discrimination determination result by the subject using the test image according to the first configuration and the measurement value of the discrimination determination result by the subject using the test image according to the second configuration are each repeated a plurality of times. Using the average value of the plurality of measured values of the identification determination results obtained
An identification / reaction measurement device characterized by that. In claim 1 or 2,
Further, when the subject identifies and determines a target image that is the same as or similar to the target image, a response for determining that an image that is the same or similar to the target image does not exist in the target image is provided. A foot switch for inputting the answer by a stepping operation;
An identification / reaction measurement device characterized by that. In claim 3,
The test image is arranged in a matrix by arranging the target image at the center and arranging a plurality of target images around the target image.
An identification / reaction measurement device characterized by that. In claim 4,
In the second configuration using the complex image, when the material image itself is composed of a complex image, or when a plurality of target images are arranged so as to surround the target image arranged in the center, a test image is formed. Including when configured,
An identification / reaction measurement device characterized by that. An identification / reaction measurement device for measuring a subject's identification / reaction function using an image,
A storage device for storing a plurality of material images;
A display device for displaying test images;
A control device for controlling display of the test image on the display device;
The controller is
Obtaining a target image and a plurality of target images from a plurality of material images stored in the storage device;
As the test image, the target image is arranged in the center, the target images are arranged on both the left and right sides of the target image, and the target images arranged on the left and right sides are blank between the target images. An area is arranged and arranged to take a wide viewing angle from the subject,
Displaying the configured test image on the display device;
Let the subject identify and determine the same or similar target image as the target image among the plurality of target images in the test image,
Evaluation accuracy of the subject's identification and reaction from the 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,
An identification / reaction measurement device characterized by that. In claim 6,
The control device displays each of the target images arranged on the left and right sides at a constant speed in a random direction, and when each image reaches the upper and lower ends or both side ends, it is opposite to the moving direction. Continue to move in the direction or the direction reflected by the end face,
An identification / reaction measurement device characterized by that. In any one of Claims 1 thru | or 7,
A light background color is added to the target image and the blank area without the target image and the image to give a disturbance / noise effect.
An identification / reaction measurement device characterized by that. In any one of Claims 1 thru | or 7,
When the subject performs identification determination, the subject is given vibration as a disturbance / noise effect from the seating surface,
An identification / reaction measurement device characterized by that. A program for executing and controlling measurement of a subject's identification / reaction function in an identification / reaction measurement device for measuring a subject's identification / reaction function using an image,
To the control unit,
A target image and a plurality of target images are acquired from a plurality of material images stored in a storage device,
A test image is composed of the acquired target image and a plurality of target images to be displayed on the display device,
Among the plurality of target images in the configured test image, the subject is allowed to identify and determine a target image that is the same as or similar to the target image,
In the test image identification test by the subject, the accuracy of the response, and the measured value of the time required for the identification response,
When evaluating the subject's identification and response function from the obtained measurement value,
The test image has a first configuration based on a simple image and a second configuration based on a complex image.
The subject obtained from a numerical value obtained by subtracting the measured value of the identification determination result by the subject using the test image according to the first configuration from the measured value of the identification determination result by the subject using the test image according to the second configuration. To evaluate the identification and reaction function of
A program for executing and controlling measurement of a subject's identification / reaction function. In claim 10,
As the measurement value of the result of the identification determination by the subject using the test image according to the first configuration and the measurement value of the result of the identification determination by the subject using the test image according to the second configuration in the control device , Using the average value of the multiple measured values of the identification determination result obtained by repeating each multiple times,
A program for executing and controlling subject identification / reaction function measurement. A program for executing and controlling measurement of a subject's identification / reaction function in an identification / reaction measurement device for measuring a subject's identification / reaction function using an image,
To the control unit,
A target image and a plurality of target images are acquired from a plurality of material images stored in a storage device,
As the test image, the target image is arranged in the center, the target images are arranged on both the left and right sides of the target image, and the target images arranged on the left and right sides of the target image are blank areas between the target images. Put a wide viewing angle from the subject,
Displaying the test image on the display device;
Let the subject identify and determine the same or similar target image as the target image among the plurality of target images in the test image,
Answer accuracy in the test image identification determination by the subject and the measurement value of the time required for the identification answer,
A program for executing and controlling measurement of a subject's identification / reaction function. In claim 12,
The control device displays each of the target images arranged on the left and right sides at a constant speed in a random direction, and when each image reaches the upper and lower ends or both side ends, it is opposite to the moving direction. Continue to move in the direction or the direction reflected by the end face,
A program for executing and controlling subject identification / reaction function measurement. 14. In any one of claims 10 to 13,
The control device adds a disturbance / noise effect by adding a light background color to the target image and a blank area without the target image and image,
A program for executing and controlling subject identification / reaction function measurement. In any one of Claims 10 thru | or 13,
When the subject makes the identification determination to the control device, the subject is given vibration from the seating surface as a disturbance / noise effect,
A program for executing and controlling subject identification / reaction function measurement.

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