JP6451434B2 - Monitoring system - Google Patents

Description

  The present invention relates to a monitoring system, and more particularly to a technique for assisting a monitoring task of a monitoring person by determining an unauthorized act of a monitoring target person.

  There are various types of examinations in which a computer is used by a candidate who is a subject of monitoring. Since there is a risk of fraud using a computer in this type of test, in Patent Document 1 below, a screen capture request is sent from the information processing device used by the examiner to the terminal used by the examinee. The screen of the examinee's terminal captures the screen under examination and transmits the screen to the examiner's terminal. The examiner determines whether or not there is an illegal act by looking at the captured screen. If the examiner determines that there is fraud, the captured screen is sent to the venue server as evidence of fraud, and the captured screen can be stored as evidence of fraud on the venue server. Has been.

JP 2003-66826 A

  However, the technique disclosed in Patent Document 1 is a test in which a computer is not used as an examinee's terminal, that is, a question sheet and an answer sheet are distributed to the examinee, and the examinee enters the answer on the answer sheet. It cannot be applied to conventional tests. In such conventional tests, the examiner visually monitors each examinee for fraud.

  The number of examiners is increased according to the number of examinees in the examination hall, but very few examiners may be assigned to the number of examinees. In such a case, it is difficult for each examiner to visually monitor all candidates in his / her monitoring range. On the other hand, increasing the number of examiners is not realistic in terms of cost. For this reason, it is desired that a small number of examiners can efficiently monitor the actions of many examinees.

  The present invention has been made to solve the above-described problems, and has an object of assisting an examiner's monitoring work by making it possible to determine a misconduct of a monitoring target without depending on the labor of the monitoring person. .

A monitoring system according to one aspect of the present invention includes a monitoring target person device that monitors a monitoring target person,
An information processing device for a supervisor used by the supervisor,
The monitored person device is:
A pupil detection unit for detecting the pupil of the monitoring subject wearing the monitoring subject device;
A terminal side communication unit that transmits the detection result of the pupil detection unit to the information processing device for a supervisor,
The information processing apparatus for a supervisor is
A device-side communication unit that receives a detection result transmitted from the monitored person device;
A cheating determination unit that determines the presence or absence of cheating of each monitored person based on the detection results received from the plurality of monitoring target person devices;
A display unit;
A control unit that causes the display unit to display the determination result of the cheating determination unit ,
The monitoring subject apparatus is used by the monitoring subject being worn on the eye,
The pupil detection unit of the monitoring subject apparatus detects a line-of-sight position in the direction of the pupil,
The cheating determination unit
(1) The line-of-sight position detected by the pupil detection unit within a predetermined time is determined in advance based on the detection results by the pupil detection units received from the plurality of monitoring target person devices. It is determined whether or not the non-viewing time deviating from the visible object exceeds a predetermined value, and the non-viewing time is determined for any of the detection results received from the monitoring target person device. When it is judged that the value is exceeded,
Or (2) based on the detection results by each of the pupil detection units received from a plurality of the monitoring subject apparatuses, (2-1) the eye gaze position is not detected by the pupil detection unit, or ( 2-2) When it is determined that the line-of-sight position detected by the pupil detection unit is stopped for a certain period at one point within the range of the visual recognition object,
It is determined that the monitoring target person who uses the monitoring target person device that has transmitted the detection result has an illegal act .

  ADVANTAGE OF THE INVENTION According to this invention, it becomes possible to determine the fraudulent act of a monitoring subject irrespective of the labor of a monitoring person, and it becomes possible to assist the monitoring work of an examiner.

1 is a schematic diagram of a test supervisory system according to an embodiment of the present invention. It is a functional block diagram which shows the main internal structures of the terminal for examinees and the information processing apparatus for supervisors. It is a flowchart which shows an example of the fraud determination process by a test supervisor system. It is a figure which shows the relationship between a pupil detectable range and the range of a question paper or an answer paper. It is a flowchart which shows another example of the fraud determination process by a test supervisor system. (A) is an exemplary diagram of a test venue map displayed on the supervisor information processing apparatus, and (B) is an exemplary diagram of a test venue map when an illegal act is determined.

  Hereinafter, a monitoring system according to an embodiment of the present invention will be described with reference to the drawings. FIG. 1 is a schematic diagram of a test monitoring system according to an embodiment of the present invention. Here, an example will be described in which the monitor is the examiner and the monitoring target is the test taker, and the tester monitors the test taker's attitude toward the test at the test venue where the test takers gather.

  The test supervisory system 1 which is an example of a monitoring system includes a test taker terminal 10 which is an example of a monitoring target person device used by a test taker and a supervisor information processing apparatus 20 used by a tester. In the present embodiment, the test supervisory system 1 will further be described as having a counting device 30.

  The examinee's terminal (monitored person device) 10 is, for example, a glasses-type terminal (information processing device). Each examinee wears the examinee's terminal 10 on the eye and takes the test.

  The supervisor information processing device (monitoring information processing device) 20 is, for example, a tablet PC. The supervisor information processing apparatus 20 can acquire various types of information from the examiner's terminal 10 by, for example, wireless communication with the examiner's terminal 10 worn by each examinee.

  The aggregation device 30 is, for example, a server device. The aggregation device 30 is connected to a network 40 such as a LAN or the Internet. The supervisor information processing apparatus 20 can access the counting apparatus 30 via the network 40 by wireless communication.

  FIG. 2 is a functional block diagram showing the main internal configuration of the examinee terminal 10 and the supervisor information processing apparatus 20.

In the examinee's terminal 10, the pupil detection unit 11 is a device that detects the pupil of the person wearing the terminal. The pupil detection unit 11 detects the position (line-of-sight position) at which the person is gazing in the visual field in the direction in which the person faces the face by detecting the direction of the pupil. Therefore, even if the head is not moved, only the eyes are moved, that is, the direction of the line of sight is changed by changing the direction of the pupil. The human visual field is about 90-100 degrees on the ear side, about 60 degrees on the nose side, about 60 degrees on the upper side, and about 70 degrees on the lower side in the horizontal direction of one eye with the pupil facing directly in front. It is said that you can move your eyes and watch what is in the field of view.

  A conventional technique can be used to detect the line-of-sight position. For example, the line-of-sight position can be detected by photographing one eye of a person with a visible light camera (not shown) and detecting the movement of the pupil with the eye head as a reference point. Alternatively, a near-infrared LED light source (not shown) irradiates the surface of one eye with near-infrared light, and the near-infrared camera (not shown) captures the reflected light (Purkinje image) and pupil of the near-infrared light. It is possible to detect the line-of-sight position more accurately from the relative positional relationship between the pupil and the pupil center. Alternatively, the line-of-sight position can be detected by measuring the electrooculogram of one eye.

  Note that the pupil detection unit 11 may continuously detect the line-of-sight position, or may detect the line-of-sight position at regular time intervals (for example, at intervals of 1 minute). By detecting the line-of-sight position at regular time intervals as in the latter case, the power consumption of the pupil detection unit 11 can be reduced. In particular, since the examinee's terminal 10 is driven by a battery, it is desirable that the power consumption of each component is small.

  The wireless communication interface (terminal-side communication unit) 12 is a device that wirelessly transmits the line-of-sight detection result of the pupil detection unit 11 to the supervisor information processing apparatus 20. As a wireless communication system, wireless LAN, Bluetooth (registered trademark), ZigBee (registered trademark), or the like can be used.

  On the other hand, in the supervisor information processing device 20, the wireless communication interface (device-side communication unit) 21 is a device that receives a line-of-sight detection result wirelessly transmitted from the examiner's terminal 10. As a wireless communication system, wireless LAN, Bluetooth (registered trademark), ZigBee (registered trademark), or the like can be used.

  In the example of FIG. 2, only one test taker terminal 10 is depicted, but actually, the wireless communication interface 21 receives the line-of-sight detection results from the plurality of test taker terminals 10.

  The cheating determination part 22 determines the presence or absence of cheating of each examinee based on the line-of-sight detection results received from the plurality of examinee terminals 10. A process for determining the presence or absence of cheating will be described later.

  The display unit 23 is, for example, a liquid crystal display, and displays the determination result of the cheating determination unit 22 on the screen. In the case of a tablet PC, the display unit 23 also has a touch panel function, and the examiner performs various operations by touching the screen.

  The control unit 25 controls the overall operation of the supervisor information processing apparatus 20. The control unit 25 causes the display unit 23 to display the determination result by the fraud determination unit 22 on the screen. For example, a processor (CPU) provided in the supervisor information processing apparatus 20 functions as the control unit 25 and the fraud determination unit 22.

  Next, an example of fraud determination processing by the test supervisory system 1 will be described. FIG. 3 is a flowchart showing an example of fraud determination processing by the test supervisory system 1.

  In each test taker terminal 10, the pupil detection unit 11 calculates the line-of-sight position of the test taker wearing the test taker terminal 10 every time a predetermined time is measured by a built-in timer (YES in S 1). Detect (S2). The line-of-sight position detected by the pupil detection unit 11 is wirelessly transmitted to the supervisor information processing apparatus 20 through the wireless communication interface 12 (S3).

  The wireless communication interface 21 of the supervisor information processing device 20 receives the line-of-sight position of each examinee transmitted from each examinee's terminal 10 (S11). The cheating determination unit 22 obtains each examinee's gaze position detected by the pupil detection unit 11 of each examinee's terminal 10 via the wireless communication interface 21, and the gaze position is a question sheet or answer sheet. It is determined whether it is out of range (S12).

  Here, the relationship between the gaze position detectable range by the pupil detection unit 11 and the range of the question sheet or answer sheet will be described. FIG. 4 is a diagram showing the relationship between the range of gaze position detectable by the pupil detection unit 11 and the range of the question sheet or answer sheet. The pupil detection unit 11 takes an examination in a range of about 90 to 100 degrees in the horizontal direction on the ear side, about 60 degrees on the nose side, about 60 degrees on the upper side, and about 70 degrees on the lower side with the pupil facing directly in front. The gaze position of the person can be detected, and this is set as a gaze position detectable range 101. That is, the line-of-sight position detected by the pupil detection unit 11 is expressed as coordinates of the X axis and the Y axis.

Candidates are usually considered to look at the question sheet and answer sheet in the center of the field of view. That is, it can be considered that a certain area at the center of the line-of-sight position detectable range 101 is the range 102 of the question sheet or answer sheet. Therefore, if the coordinates of the line-of-sight position 103 detected by the pupil detection unit 11 are within the question sheet or answer sheet range 102, the examinee is looking at the question sheet or answer sheet and is outside the question sheet or answer sheet range 102. If it is, the examinee can determine that he / she is looking at something other than the question sheet or answer sheet. If the pupil detection unit 11 cannot detect the line-of-sight position, it can be determined that the examinee is closing his eyes, that is, asleep. The question sheet or answer sheet here is an example of a predetermined visual object in the scope of claims.

  Returning to FIG. 3, if the fraud determination unit 22 determines that the line-of-sight position detected by the pupil detection unit 11 of each examinee's terminal 10 is out of the range of the question sheet or answer sheet (YES in S12), The time (hereinafter, non-viewing time) is counted by the timer (S13). The count is the total non-viewing time within the monitoring time (within the test time from the start of the test to the end of the test or within a certain period of the test time). If the counted non-viewing time is greater than a predetermined value (YES in S14), the cheating determination unit 22 determines that the examinee has cheating (S15).

  On the other hand, the cheating determination unit 22 determines that the line-of-sight position detected by the pupil detection unit 11 of each examinee's terminal 10 is within the range of the question sheet or answer sheet (NO in S12), or the above If the non-viewing time is shorter than the predetermined value (NO in S14), it is determined based on the line-of-sight position of each examinee from each examinee's terminal 10 without determining that there is an illegal act at that time. To continue the process of determining whether there is fraud.

  Note that the predetermined value in step S14 is, for example, about 4 minutes when determining the presence or absence of fraudulent activity with the predetermined period of time being about 10 minutes, and within the entire period of the test time from the start to the end of the test. If it is determined whether or not there is any fraudulent activity, it takes about 20 minutes. That is, here, the fraud determination unit 22 determines whether the examinee has not looked at the question sheet or the answer sheet within a part of the time of the entire test (for example, 10 minutes) or the entire time of the test. The presence or absence of cheating is determined based on the above.

  Next, another example of fraud determination processing by the test supervisor system 1 will be described. FIG. 5 is a flowchart showing another example of fraud determination processing by the test supervisory system 1.

  In each test taker's terminal 10, the pupil detection unit 11 detects the line-of-sight position of the test taker wearing the test taker's terminal 10 every time a predetermined time has elapsed (YES in S21) (S22). ). The line-of-sight position detected by the pupil detection unit 11 is wirelessly transmitted to the supervisor information processing apparatus 20 through the wireless communication interface 12 (S23).

  The wireless communication interface 21 of the supervisor information processing device 20 receives the line-of-sight position of each examinee transmitted from each examinee's terminal 10 (S31). The cheating determination unit 22 obtains each examinee's line-of-sight position from the wireless communication interface 21, and the line-of-sight position detected by the pupil detection unit 11 of each examinee's terminal 10 is within the range of the question sheet or answer sheet. It is determined whether or not a predetermined movement is being performed (S32).

  For example, if the examinee has taken the exam correctly, the examinee's gaze position should have moved moderately within the scope of the question sheet or answer sheet. On the other hand, if (1) the examinee is asleep, the position of the examinee's line of sight is not detected, and (2) the student is either cheating or not taking the exam If it is in the state, the examinee's gaze position stops at a single point for a long time. For this reason, the fraud determination unit 22 stores these (1) and (2) as abnormal movements, and the line-of-sight position detected by the pupil detection unit 11 is within a certain period of time (1) and (2). Is determined that there is an illegal act.

  That is, when the fraud determination unit 22 determines that the line-of-sight position detected by the pupil detection unit 11 of each examinee's terminal 10 is moving abnormally within the range of the question sheet or answer sheet (in S32) YES), it is determined that the examinee has cheating (S33). On the other hand, the fraud determination unit 22 does not perform the abnormal movement of the line-of-sight position detected by the pupil detection unit 11 of each examinee's terminal 10, that is, moves normally within the range of the question sheet or the answer sheet. If it is determined that the student has been cheating (NO in S32), the process of determining the presence or absence of cheating continues from each examinee's terminal 10 based on the line-of-sight position of each examinee without determining that there is any cheating at that time. Continue.

  Further, the cheating determination unit 22 may send the determination result to the counting device 30, and the counting device 30 may count the determination result of the cheating determination unit 22 for each examinee and store the counting result. This makes it possible to use each test taker in various aspects based on the presence or absence of each student's cheating after the test. For example, it is possible to give the determination result of the fraud determination unit 22 to a document or data indicating the test result.

  Next, a screen display example of the supervisor information processing apparatus 20 will be described. FIG. 6A is an exemplary diagram of a test venue map displayed on the supervisor information processing apparatus 20, and FIG. 6B is an exemplary diagram of the test venue map when an illegal act is determined. . The test site map is a layout showing the positions of each examinee in the test site.

  The control unit 25 of the supervisor information processing apparatus 20 displays, on the display unit 23, an image showing the test venue map, as shown in FIG. 6A, for each examinee's seat in the test venue. Display the examination number at the location. As a result, the examiner can see at a glance which examinee is seated and where by taking a look at the screen of the supervisor information processing apparatus 20.

  When the test is started, as described above, the cheating determination unit 22 of the supervisor information processing device 20 is placed at the line-of-sight position of each examinee sent from the examinee's terminal 10 worn by each examinee. Based on this, the presence or absence of cheating is determined. When the cheating determination unit 22 determines that there is cheating, the control unit 25 highlights on the display unit 23 the examination number of the examinee who performed the cheating in the test site map (FIG. 6B). )). FIG. 6B is a screen display example when it is determined that the examinees with examination numbers 006 and 023 are engaged in cheating. There are various highlighting methods, such as changing the color and size of the displayed examination number or blinking. Thereby, the examiner can know the examinee who should enhance the monitoring by looking at the screen of the supervisory information processing apparatus 20.

  According to the present embodiment, even if the test is a test in which a question sheet and an answer sheet are distributed to the examinee without using a computer as the examinee's terminal, and the examinee writes the answer on the answer sheet, Instead, the examination supervisory system 1 can determine each examinee's fraud. For this reason, according to the test supervisory system 1 according to the present embodiment, it is possible to determine an illegal act of a monitoring target person without depending on the labor of the monitoring person, and to assist the monitoring work of the examiner. As a result, even a small number of examiners can efficiently monitor the actions of many examinees.

  The present invention is not limited to the configuration of the above embodiment, and various modifications can be made. For example, in the above-described embodiment, the pupil detection unit 11 detects the position (line-of-sight position) at which the person is gazing in the field of view in the direction in which the person is facing by detecting the orientation of the pupil. However, the pupil detection unit 11 may further detect the focus based on the size of the pupil. The cheating determination unit 22 acquires information indicating the line-of-sight position and focus of each examinee detected by the pupil detection unit 11 via the wireless communication interface 21, and the line-of-sight position is obtained from the range of the question sheet or the answer sheet. Determining that an examinee who satisfies the conditions is cheating on the condition that it is off and the focus is set at the position assumed as the position of the question sheet or answer sheet Also good.

  Note that the configuration and processing shown in the above embodiment using FIGS. 1 to 6A and 6B are only one embodiment of the present invention, and are not intended to limit the present invention to the configuration and processing. .

DESCRIPTION OF SYMBOLS 1 Test supervision system 10 Terminal 11 for examinees Pupil detection part 12 Wireless communication interface 20 Information processing apparatus 21 for supervisors Wireless communication interface 22 Fraud determination part 23 Display part 25 Control part 30 Counting apparatus

Claims (6)

A monitoring target device for monitoring the monitoring target;
An information processing device for a supervisor used by the supervisor,
The monitored person device is:
A pupil detection unit for detecting the pupil of the monitoring subject wearing the monitoring subject device;
A terminal side communication unit that transmits the detection result of the pupil detection unit to the information processing device for a supervisor,
The information processing apparatus for a supervisor is
A device-side communication unit that receives a detection result transmitted from the monitored person device;
A cheating determination unit that determines the presence or absence of cheating of each monitored person based on the detection results received from the plurality of monitoring target person devices;
A display unit;
A control unit that causes the display unit to display the determination result of the cheating determination unit ,
The monitoring subject apparatus is used by the monitoring subject being worn on the eye,
The pupil detection unit of the monitoring subject apparatus detects a line-of-sight position in the direction of the pupil,
The cheating determination unit
(1) The line-of-sight position detected by the pupil detection unit within a predetermined time is determined in advance based on the detection results by the pupil detection units received from the plurality of monitoring target person devices. It is determined whether or not the non-viewing time deviating from the visible object exceeds a predetermined value, and the non-viewing time is determined for any of the detection results received from the monitoring target person device. When it is judged that the value is exceeded,
Or (2) based on the detection results by each of the pupil detection units received from a plurality of the monitoring subject apparatuses, (2-1) the eye gaze position is not detected by the pupil detection unit, or ( 2-2) When it is determined that the line-of-sight position detected by the pupil detection unit is stopped for a certain period at one point within the range of the visual recognition object,
The monitoring system which determines with the monitoring subject who uses the said monitoring subject person apparatus which has transmitted the said detection result having a fraud . The monitoring system according to claim 1 , wherein the predetermined time is a time from the start to the end of monitoring. The pupil detection unit of the monitoring subject apparatus further detects a focal point according to the size of the pupil,
  In the fraud determination unit, the line-of-sight position of the monitoring target indicated by the detection result by the pupil detection unit is out of the visual recognition object, and the focus detected by the pupil detection unit is the position of the visual recognition object The monitoring system according to claim 1, wherein the monitoring system determines that the person to be monitored has an illegal act even if it is determined that The control unit causes the display unit to display an image of a layout diagram indicating the position of each monitoring target person within a predetermined monitoring area, and the monitoring target person determined to have a cheating action by the cheating determination part The monitoring system according to any one of claims 1 to 3 , wherein the image is highlighted on the image of the layout drawing. The pupil detection unit, the monitoring system according to any one of claims 1 to 4 for detecting a pupil at regular time intervals. Monitoring system according to each person to be monitored, to any one of claims 1 to 5 comprising a collection apparatus to save the results the aggregation aggregates the determination result of the fraud determination unit.