WO2022180816A1

WO2022180816A1 - Entry determination system, entry determination method, and program recording medium

Info

Publication number: WO2022180816A1
Application number: PCT/JP2021/007478
Authority: WO
Inventors: 晃亀井; 健一朗猪田; 知子西尾; 逸美加藤; 那孟鈴木
Original assignee: 日本電気株式会社
Priority date: 2021-02-26
Filing date: 2021-02-26
Publication date: 2022-09-01
Also published as: JPWO2022180816A1

Abstract

An entry determination system of the present invention is provided with: an acquiring unit which, in order to easily determine whether entry of a user should be permitted or not in view of the physical condition of the user in a predetermined period earlier than a time of arrival, acquires physical condition information which is information entered into a user terminal in the predetermined period earlier than the time of arrival and relating to the physical condition of the user; and a determining unit which determines whether entry should be permitted on the basis of the body temperature of the user measured at the time of arrival and the physical condition information.

Description

Admission judgment system, admission judgment method and program recording medium

The present invention relates to an entrance determination system, an entrance determination method, and a program recording medium.

Patent Document 1 discloses a physical condition management device that determines an individual's physical condition based on the measured body temperature obtained for a specified individual and the statistical value of body temperature accumulated in advance.

JP 2019-192035 A

However, the physical condition management device exemplified in Patent Document 1 could not determine admission permission in consideration of the deterioration of the physical condition of the visitor during a predetermined period prior to the visit. SUMMARY OF THE INVENTION Accordingly, it is an object of the present invention to provide an entrance determination system, an entrance determination method, and a program recording medium that can easily determine whether or not a visitor can enter.

According to one aspect of the present invention, an acquisition unit that acquires physical condition information, which is information related to the user's physical condition, which is information input to the user terminal for a predetermined period before the arrival time, and a physical condition information measured at the time of arrival. and a determination unit that determines whether or not to permit admission based on the body temperature of the user and the physical condition information.

According to another aspect of the present invention, the user's physical condition information input to the user terminal during a predetermined period before the arrival is acquired, and based on the user's body temperature measured at the time of arrival and the physical condition information, the entrance is performed. To provide an admission determination method for determining whether or not to

According to another aspect of the present invention, the computer acquires the user's physical condition information input to the user terminal for a predetermined period before the arrival time, and the user's body temperature and the physical condition information measured at the time of arrival. and a program recording medium recording a program for executing a process for determining whether or not to allow entry based on the above.

According to the present invention, it is possible to provide an entrance determination system, an entrance determination method, and a program recording medium that can easily determine whether or not a visitor can enter.

It is an example which shows the outline|summary of the entrance determination system in 1st Embodiment. It is an example which shows the block diagram of the entrance determination system in 1st Embodiment. It is an example showing a format in the first embodiment. 4 is a flow chart showing the flow of processing according to the first embodiment; 4 is a flow chart showing the flow of processing according to the first embodiment; 4 is a flow chart showing the flow of processing according to the first embodiment; It is an example which shows the block diagram of the entrance determination system in 2nd Embodiment. 9 is a flow chart showing the flow of processing according to the second embodiment; 9 is a flow chart showing the flow of processing according to the second embodiment; It is an example which shows the block diagram of the entrance determination system in 3rd Embodiment. 11 is a flow chart showing the flow of processing according to the third embodiment; FIG. 11 is an example showing a configuration diagram of an entrance determination system in modification 1; FIG. FIG. 11 is an example showing a configuration diagram of an entrance determination system in modification 2; FIG. It is an example of the hardware constitutions of the entrance determination system in each embodiment.

Exemplary embodiments of the present invention will be described below with reference to the drawings. In the drawings, similar or corresponding elements are denoted by the same reference numerals, and descriptions thereof may be omitted or simplified.

[First Embodiment]
FIG. 1 is a schematic diagram showing an entrance determination system according to this embodiment. First, the outline of the entrance determination system 1 in this embodiment will be described. The entrance determination system according to this embodiment performs entrance determination for users who have recorded their own physical conditions before arriving at the entrance of a facility. Facilities include, for example, event venues, stadiums, concert venues, stadiums, office buildings, theme parks, train stations, airports, accommodation facilities, and the like. In addition, the user records his or her physical condition using a user terminal carried by the user for a predetermined period prior to the time of arrival. Entry determination when a user attempts to enter a facility using a user terminal will be described below.

The "predetermined period" is the period established prior to the time of arrival. Examples of the predetermined period include a period from two weeks before the visit to the current day, and a period from five days before the visit to the day before the visit. The predetermined period is a period set in the past from the time of arrival, and can be appropriately set in addition to the examples described above.

As shown in FIGS. 1 and 2, the entrance determination system 1 according to this embodiment includes a user terminal 10, a management server 20, and a gate device 30. A user terminal 10 is a terminal owned by a user. The gate device 30 is installed at the entrance of the facility. The management server 20 is installed at a place away from the entrance. The number of user terminals 10 and gate devices 30 that communicate with the management server 20 may be plural.

The user terminal 10 is, for example, a smartphone, tablet, wearable device, etc., and is a terminal that a person carries and operates. The wearable device includes wearable devices such as contact lens type, hat type, sunglasses type, glasses type, and watch type. In this embodiment, the user terminal 10 is a terminal carried by a user visiting the facility.

At the entrance, along with the gate device 30, a visible light camera, an infrared camera, a barcode reader, etc. are installed. The gate device 30, the visible light camera, the infrared camera, the bar code reader, etc. are network-connected via the network NW and can communicate with each other. The management server 20 and the gate device 30 are network-connected via the network NW and can communicate with each other.

The gate 34 of the gate device 30 shields the aisle during standby, and upon receiving a control signal, unshields the aisle and allows the user to enter the facility. The gate 34 is, for example, a gate provided with two or one flapper, an arm type gate in which several bars rotate, a gate provided with a sliding panel, a gate provided with a rotating door, or the like. Yes, but not limited to.

The acquisition unit 31 of the gate device 30 acquires information stored in the user terminal 10 by communicating via the code or the like displayed on the user terminal 10 . The communication between the acquisition unit 31 and the user terminal 10 includes, for example, acquiring information stored in the two-dimensional barcode by reading the two-dimensional barcode displayed on the user terminal 10 . Alternatively, wireless communication such as RFID (Radio Frequency Identification) may be used for communication between the acquisition unit 31 and the user terminal 10 . For convenience, in the embodiments described later, an example in which the acquisition unit 31 and the user terminal 10 communicate by reading a two-dimensional barcode displayed on the user terminal 10 will be described.

The body temperature measurement unit 32 is installed in the gate device 30 in a state of being built in or connected so as to be communicable. The body temperature measurement unit 32 acquires the body temperature of the user by sensing the user. The body temperature measurement unit 32 is, for example, an infrared camera, and measures the temperature of the body surface of the user by capturing an image of the user. Note that the body temperature measurement unit 32 is not limited to an infrared camera, and may be any other sensor capable of measuring body temperature.

The gate device 30 controls the gate 34 based on the measured body temperature of the user and the information obtained from the user terminal 10 to keep the passage open or shielded.

As a result, the entrance determination system 1 can allow the user to enter when the body temperature of the user who is about to pass through the gate device 30 and the information obtained from the user terminal 10 satisfy predetermined conditions. On the other hand, the entrance determination system 1 can prevent the user from entering when the body temperature of the user who is about to pass through the gate device 30 and the information obtained from the user terminal 10 do not satisfy predetermined conditions.

Next, each component of the admission determination system 1 in this embodiment will be described in detail using FIG. The user terminal 10 includes a sensor 11 , an input section 12 , a storage section 13 , a code generation section 14 and a display section 15 . Note that a dedicated application may be installed in the user terminal 10, and the functions described later may be provided via the application.

The sensor 11 acquires biometric information from the user for a predetermined period prior to the time of arrival. For example, the sensor 11 acquires biometric information from the user at a constant frequency over a predetermined period of time. The sensor 11 is, for example, a visible light camera, an infrared camera, an audio microphone, or the like. These sensors 11 may be detachable from the user terminal 10 or may be devices that can be attached as extended functions of the user terminal 10 . Further, the frequency at which the sensor 11 acquires biological information is an arbitrary period such as once every few hours, once every day, once every several minutes, once every two days, and is not limited to this.

　The biometric information to be acquired during the predetermined period will be explained. For example, if sensor 11 is an infrared camera, sensor 11 measures the body temperature of the user. The sensor 11 detects the user's body temperature based on the RGB values of the infrared image data of the user. Further, when the sensor 11 is a voice microphone, the sensor 11 measures the sound of the user's coughing or sneezing, and obtains an index indicating whether or not the disease to be detected is suspected. Details of the index acquisition method will be described later.

Coughing sounds contain subtle patterns based on lung and respiratory capacity, muscle weakness, etc. The sensor 11 may be provided with a discriminator that receives a coughing sound as an input and outputs an index indicating the possibility of the disease to be detected. The discriminator takes as input the sound of a person coughing and outputs various waveform patterns contained in the cough sound, and a first neural network that outputs various waveform patterns contained in the cough sound. and a second neural network that outputs indices such as The first neural network learns using the waveform of the coughing sound itself of a person with a disease to be detected and various waveform patterns including the coughing sound as teacher data. The second neural network learns using the feature values resulting from weakening of the lungs, respiratory organs, and muscles extracted from various waveform patterns and the label indicating the disease to be detected as teacher data. With the above configuration, the classifier receives the sound of a person's cough as an input and outputs an index indicating whether or not there is a suspicion of the disease to be detected. Note that the classifier generation method is just an example, and the present invention is not limited to this.

The input unit 12 provides a function of inputting information regarding the user's own physical condition. The input unit 12 may be used by the user to input his/her own physical condition in the form of a self-report, or may input information acquired by the sensor 11 to the storage unit 13 .

　Fig. 3 is an example of a format showing the items that the user inputs regarding his/her physical condition. The display unit 15 displays the format FM. The input unit 12 inputs the information input in the format FM to the storage unit 13 . Note that the input unit 12 may receive the input for the format FM a plurality of times in a predetermined period, or may receive the input once.

Returning to FIG. 2, the storage unit 13 stores information about physical condition such as biometric information input by the function of the input unit 12 and information input in the format. Hereinafter, the information received by the input unit 12, such as the biometric information and the information input in the format, will be referred to as physical condition information. The storage unit 13 also stores ticket information purchased online in advance before entering the facility. Ticket information indicates information such as a ticket issued for entering a facility, an entrance pass, a permit, and the like.

The code generation unit 14 generates a code that can be read by the gate device 30 based on the physical condition information stored in the storage unit 13 . A code is, for example, a bar code, a two-dimensional bar code, an identification number, or other image that is generated in a predetermined pattern and stores certain information. Also, the code generation unit 14 may generate a code including ticket information in addition to the physical condition information.

The display unit 15 displays the code generated by the code generation unit 14. Further, the display unit 15 may display the determination result of admission permission based on the information received from the management server 20 . Note that the display unit 15 may be, for example, an optical projection device other than a display.

The management server 20 has a determination unit 21 . The gate device 30 includes an acquisition section 31 , a body temperature measurement section 32 , a gate control section 33 and a gate 34 . The acquisition unit 31 reads the code displayed on the user terminal 10 and acquires physical condition information indicated by the code. In other words, the acquisition unit 31 acquires physical condition information from the user terminal 10 via the code displayed on the user terminal 10 . The acquisition unit 31 is installed, for example, on the entrance side of the gate 34 . The acquisition unit 31 is, for example, a two-dimensional barcode reader, a barcode reader, an OCR (Optical Character Recognition) reader, or the like.

The body temperature measurement unit 32 measures the body temperature of the user positioned in front of the gate device 30 on the condition that the acquisition unit 31 reads the code and acquires the physical condition information indicated by the code. The body temperature measurement unit 32 is, for example, an infrared camera, but is not limited to this, and may be any device that measures the body temperature of the user.

The determination unit 21 determines whether or not to permit entry based on the body temperature measured by the body temperature measurement unit 32 and the physical condition information acquired by the acquisition unit 31 . In other words, permission to enter is determined based on the physical condition information for a predetermined period prior to the visit and the body temperature measured at the visit. Next, details of how the determination unit 21 determines whether or not to permit entry will be described.

The physical condition information includes information that the user has input for each item within a predetermined period of time or biometric information of the user that the sensor 11 has acquired within the predetermined period of time. In addition, the physical condition information includes information indicating a valid immunity certificate at the time of visit, information indicating whether or not the user has come into contact with a person who has developed an infectious disease (infected person) within a predetermined period, and information obtained from an external server. may include any of the user's own health information.

The determination unit 21 determines that admission is permitted when the body temperature measured by the body temperature measurement unit 32 is less than the threshold and the physical condition information does not contain any indication of symptoms of an infectious disease. On the other hand, if the body temperature is equal to or higher than the threshold value, or if the physical condition information includes information indicating symptoms of an infectious disease, it is determined that admission is not permitted. The information indicating symptoms of an infectious disease is information indicating symptoms such as coughing, sneezing, fever, chills, and headache, in the information input by the user himself/herself. In addition, the information indicating the symptoms of an infectious disease is, in the physical condition information acquired by the sensor 11, whether or not the body temperature acquired by the sensor before the time of arrival is less than a threshold value, or an index indicating the possibility of suspicion of an infectious disease. etc.

The gate control unit 33 controls opening and closing of the gate 34 based on the determination result of the determination unit 21 . The gate 34 to be controlled is provided so as to block the passage during standby.

The gate 34 is released from the closed state during standby under the control of the gate control unit 33, thereby unblocking the passageway and allowing the user to enter the facility. The gate 34 is, for example, a gate provided with two or one flapper, an arm type gate in which several bars rotate, a gate provided with a sliding panel, a gate provided with a rotating door, or the like. Yes, but not limited to.

Next, the processing flow of this embodiment will be described using FIGS. 4 and 5. FIG. FIG. 4 is a flow chart showing the processing flow of the user terminal 10. As shown in FIG.

The sensor 11 acquires biometric information from the user for a predetermined period before the time of arrival (S101).

The input unit 12 provides a function for inputting information regarding the physical condition of the user (S102).

The storage unit 13 stores information about physical condition (physical condition information) input by the function of the input unit 12 (S103).

The code generation unit 14 generates a code that can be read by the gate device 30 based on the physical condition information stored in the storage unit 13 (S104). Codes are, for example, barcodes, two-dimensional barcodes, identification numbers, and the like.

The display unit 15 displays the code generated by the code generation unit 14 (S105).

FIG. 5 is a flow chart showing the processing flow of the management server 20 and the gate device 30. FIG.

Continuing from FIG. 4, the acquisition unit 31 reads the code displayed on the user terminal 10 (S111) and acquires the physical condition information indicated by the code (S112).

The body temperature measurement unit 32 measures the body temperature of the user positioned in front of the gate device 30 on condition that the acquisition unit 31 has acquired the physical condition information from the code (S113).

The determination unit 21 determines whether or not to permit entry based on the body temperature measured by the body temperature measurement unit 32 and the physical condition information acquired by the acquisition unit 31 (S114). In other words, permission to enter is determined based on the physical condition information for a predetermined period prior to the visit and the body temperature measured at the visit.

An example of the details of step S114 will be explained using FIG. The determination unit 21 determines whether the body temperature measured by the body temperature measurement unit 32 is less than the threshold (S1131). When it is more than a threshold value, it progresses to step S117 (S1131, YES). If it is less than the threshold (S1131, NO), the determination unit 21 determines whether or not the item of the format satisfies a predetermined condition (S1132). The predetermined condition in step S1132 is, for example, the case where the condition input in the format indicates subjective symptoms such as coughing, sneezing, fever, chills, headache, and the like. If the predetermined condition is satisfied (S1132, YES), the process proceeds to step S117. If the predetermined condition is not met (S1133), the determination unit 21 determines whether the physical condition information acquired from the sensor satisfies the predetermined condition. The predetermined condition in step S1133 is, for example, that the body temperature acquired by the sensor before the arrival time is equal to or higher than a threshold value, or that an index indicating symptoms of an infectious disease exceeds a threshold value, or the like. If the predetermined condition is met (S1133, YES), the process proceeds to step S117. If the predetermined condition is not met (S1133), the process proceeds to step S116. 6, either one of steps S1132 and S1133 may be omitted, and the processing of the determination unit 21 is not limited to the specific example of FIG. For example, after step S113, the determination unit 21 may process all of steps S1131, S1132, and S1133 in parallel.

Returning to FIG. 5, when the determination unit 21 determines that entry is permitted (S114, YES), the gate control unit 33 performs control to open the gate (S116). On the other hand, when the determination unit 21 determines that entry is not permitted (S114, NO), the gate control unit 33 performs control to close the gate (S117). Under the control of the gate control unit 33, the gate 34 uncovers the passageway and allows the user to enter the facility. Alternatively, the gate 34 maintains the shielding of the passage under the control of the gate controller 33 .

[Effect of the invention]
It is assumed that before the user enters the event site, etc., the attendant checks the user's temperature, and if the user does not have a fever, the user is permitted to enter. In this case, admission is permitted only by referring to the body temperature taken at the time of arrival, so it was not possible to prevent entry of people who had an infectious disease but did not have a fever when the temperature was taken. According to this embodiment, by considering both the physical condition before the user's arrival and the body temperature at the time of arrival, it is possible to consider whether the user has an infectious disease. It is possible to objectively determine whether or not to permit admission. Furthermore, by preventing people with symptoms from visiting before the time of arrival, it is possible to reduce the risk of mass infection at event venues and facilities where people tend to gather.

Also, in the past, the staff visually checked both the temperature measurement results and the contents of the ticket, which took time. Therefore, when the number of users is large, the waiting time for entry increases, which is one of the causes of queues. According to this embodiment, it is possible to obtain the temperature measurement result and ticket information at the time of arrival, as well as the physical condition before the time of arrival, with a small number of operations, and determine whether or not to allow entry. As a result, it is possible to reduce the work load of the staff, and contribute to the reduction of waiting time for users and the occurrence of queues.

In addition, in order to prevent the spread of infection, it is preferable for the event organizer to obtain from the participants whether their physical condition meets the predetermined content during the period before the event and their body temperature on the day of the event. According to this embodiment, it is possible to smoothly acquire body temperature and physical condition information for a predetermined period prior to the time of arrival as conditions for entry.

In addition, in the entrance determination system 1 of the present embodiment, the user terminal 10 includes the sensor 11 and mechanically acquires the user's biometric information. This makes it possible to acquire objective physical condition information without relying on self-reported false information.

In addition, the admission determination system 1 of this embodiment measures the user's body temperature on the condition that physical condition information has been acquired. In order to prevent congestion at the entrance and an increase in waiting time, it is preferable to smoothly perform the processing necessary for entry. Since physical condition information can be acquired in a continuous flow, waiting time can be reduced.

Also, the admission determination system 1 of this embodiment acquires physical condition information via the code displayed on the user terminal 10 . According to this, even if a third party peeps at the screen of the user terminal 10, it is possible to prevent the content indicated by the code from being revealed.

[Second embodiment]
Next, each component of the admission determination system 2 in this embodiment will be described in detail with reference to FIG. The entrance determination system 1 of this embodiment differs from that of the first embodiment in that it includes an installation terminal 40 . Further, the user terminal 10 displays the determination result of admission permission, and is different from the first embodiment in that the attendant can determine whether or not the user having the user terminal can enter. In the following description, descriptions of configurations and functions common to the first embodiment will be omitted.

The entrance determination system 1 in this embodiment further includes an installation terminal 40 . The installed terminal 40 can communicate with the management server 20 and the like via the network NW, like the gate device 30 . The installation terminal 40 includes an acquisition unit 31 and a body temperature measurement unit 32, similar to the gate device 30. FIG. The functions of the acquisition unit 31 and the body temperature measurement unit 32 included in the installed terminal 40 are common to those of the gate device 30 .

As in the first embodiment, the user terminal 10 displays the code. The acquisition unit 31 of the installed terminal 40 reads the code displayed on the user terminal 10 and acquires the physical condition information indicated by the code. The body temperature measurement unit 32 of the installation terminal 40 measures the body temperature of the user positioned in front of the installation terminal 40 on condition that the acquisition unit 31 has read the code and acquired the physical condition information.

The determination unit 21 of the management server 20 determines whether or not to permit entry based on the body temperature measured by the body temperature measurement unit 32 and the physical condition information acquired by the acquisition unit 31 . Here, the determination unit 21 transmits the determination result to the user terminal 10 via the network NW. The display unit 15 of the user terminal 10 displays an image according to the determination result. More specifically, when the determination result is admission, the display unit 15 displays an image indicating admission. On the other hand, when the determination result is that entry is not permitted, the display unit 15 displays an image indicating that entry is not permitted.

By checking the determination result displayed on the user terminal 10, the staff member who manages admission at the entrance of the facility can determine that the user with the user terminal 10 is allowed to enter.

Next, the processing flow of this embodiment will be described using FIGS. 8 and 9. FIG. FIG. 9 is a flow chart showing the processing flow of the management server 20 and the installed terminal 40. As shown in FIG. FIG. 9 differs from FIG. 5 in the flow after step S114. After step S114, the determination unit 21 transmits the determination result to the user terminal 10 (S216).

FIG. 9 is a flowchart showing the processing flow of the user terminal 10. FIG. FIG. 8 differs from FIG. 4 in the flow after step S105. When the user terminal receives the determination result (S206), the display unit 15 displays an image corresponding to the determination result (S207).

[Effect of the invention]
According to this embodiment, the attendant checks the image displayed on the user terminal to determine whether the user is a person who has been determined to be able to enter based on the physical condition in advance and the body temperature at the time of arrival. be able to. As a result, in determining whether or not the user can enter, it is possible to encourage an objective determination without relying on the subjectivity of the attendant. In addition, since the judgment of the attendant can be assisted, it can be expected that the time required for the judgment of the attendant will be shortened, and the user's waiting time will be reduced.

[Third Embodiment]
Next, each component of the admission determination system 3 in this embodiment will be described in detail with reference to FIG. The admission determination system 3 in this embodiment includes an acquisition unit 301 and a determination unit 302 .
The acquisition unit 301 acquires the user's physical condition information input to the user terminal during a predetermined period before the visit. A determination unit 302 determines whether or not to allow entry based on the user's body temperature measured at the time of arrival and the physical condition information.

Next, the processing flow of the admission determination system 3 in this embodiment will be described using FIG. The acquisition unit 301 acquires physical condition information, which is information about the user's physical condition, which is information input to the user terminal during a predetermined period prior to the visit (S301). The determination unit 302 determines whether or not to allow entry based on the body temperature of the user measured at the time of arrival and the physical condition information (S302).

[Effect of the invention]
Conventionally, before a user enters an event site or the like, an attendant or a device checks the user's temperature, and if the user does not have a fever, the user is permitted to enter. However, since admission is permitted only by referring to the body temperature taken at the time of arrival, it was not possible to prevent the entry of people who had an infectious disease but did not have a fever at the time of the temperature measurement. According to this embodiment, by considering both the physical condition before the user's arrival and the body temperature at the time of arrival, it is possible to consider whether the user has an infectious disease. It is possible to objectively determine whether or not to permit admission. Furthermore, by preventing people with symptoms from visiting before the time of arrival, it is possible to reduce the risk of mass infection at event venues and facilities where people tend to gather.

[Modification 1]
Modifications applicable to the first to third embodiments described above will be described. Modification 1 will be described with reference to FIG. In Modified Example 1, the acquisition unit 31 acquires the face information of the user instead of the code such as the two-dimensional barcode. The management server 20 further has a management information storage section 22 and a collation section 23 . This collation unit 23 serves as a first collation unit. Also, descriptions of configurations and functions overlapping with those of the above-described embodiments are omitted.

The user terminal 10 transmits information stored in the storage unit 13 to the management server 20 via the input/output interface 3A. The management information storage unit 22 stores information received from the user terminal 10 . The information received from the user terminal 10 includes user's physical condition information, ticket information purchased by the user, and the like.

The management information storage unit 22 stores pre-registered user IDs (Identification), face information, and information received from the user terminal 10 in association with each other. The face information includes a face image, a feature amount extracted from the face image, and the like. Here, the user's face information registered in advance is referred to as registered face information.

The acquisition unit 31 includes an imaging mechanism and acquires face information of a person in the imaging range. The imaging mechanism is a visible light camera, a stereo camera, or the like.

The collation unit 23 of the management server 20 collates the face information acquired from the user by the acquisition unit 31 with the registered face information stored in the management information storage unit 22, and authenticates the user's ID based on the collation result. A series of processes from this face information collation to user ID authentication may be referred to as face authentication.

The determination unit 21 determines whether or not the user can enter based on the physical condition information associated with the identified user's ID and the body temperature measured by the body temperature measurement unit 32 .

In the above description, an example in which the acquisition unit 31 acquires face information has been described. The information used may be adopted. In place of or in addition to face collation, a plurality of pieces of information used for biometric authentication may be combined and adopted.
[effect]
According to Modification 1, since the user does not need to take out the user terminal 10 when entering, it is possible to prompt the user to enter smoothly without being confused.

[Modification 2]
Next, Modification 2 will be described with reference to FIG. Modification 2 differs from the above-described embodiment and modification in that the management server 20 includes a measurement period setting unit 24 .

The measurement period setting unit 24 serves as a setting unit that changes the length of the predetermined period according to the type of the input infectious disease. More specifically, the measurement period setting unit 24 changes the effective measurement period during which physical condition should be checked before the visit, depending on the type of infectious disease of concern. For example, if infectious disease A is the target, the measurement period is three days, and if infectious disease B is the target, the measurement period is five days. The measurement period setting unit 24 receives an input of target infectious diseases from the administrator who operates the management server 20 via the input/output interface 3A. The measurement period setting unit 24 sets the measurement period according to the input type of infectious disease. In other words, the measurement period setting unit 24 varies the measurement period of the sensor 11 according to the target infectious disease.

[effect]
As a result, it is possible to flexibly change the period during which the physical condition is acquired before the visit, thereby minimizing the user's burden related to pre-measurement.

[Modification 3]
Next, modification 3 will be described. The user terminal 10 may have a face matching unit (not shown). In that case, the sensor 11 acquires the user's biometric information and face information. The face collation unit collates face information acquired by the sensor 11 with pre-registered face information. The face matching section serves as the second matching section. The storage unit 13 stores the biometric information when the collation is successful. Note that the sensor 11 may include a camera, depth sensor, scanner, radar, and the like.

[effect]
According to Modified Example 3, spoofing can be prevented when acquiring biometric information that is the basis of physical condition information before the time of arrival.

[Modification 4]
Next, modification 4 will be described. The user terminal 10 or the management server 20 differs from the above embodiments and modifications in that it communicates with an external server (not shown).

The user terminal 10 has an ID that identifies the user in advance. The management server 20 acquires the ID from the user terminal 10 via the acquisition unit 31 . The management server refers to the external server based on the acquired ID and acquires the history information of the person with the ID. History information is the health record of the person in question in the past. Also, the ID may be information indicating a municipality such as an address arbitrarily declared by the user. In addition, it is preferable to obtain consent from the user before acquiring the person's history information from the external server. For example, a method of displaying a screen for selecting whether or not to approve on the user terminal 10 and using the ID to refer to an external server when consent is selected may be used. It should be noted that, when communicating with an external server, it is preferable to perform anonymization processing during the communication process or the like.

[Modification 5]
Next, modification 5 will be described. In any of the above embodiments, the user terminal 10 may have part or all of the configuration provided by the management server 20 . For example, the user terminal 10 may have the determination unit 21 .

[Modification 6]
Next, modification 6 will be described. An example of the "time of arrival" in the embodiment and modification described above will be described in detail. The time of arrival may indicate the time when the user visits the facility, or the time when the gate device 30 or the installation terminal 40 receives the physical condition information from the user terminal 10 . The time of arrival may indicate the time when the acquisition unit 31 reads the code displayed on the user terminal 10, or the time when the acquisition unit 31 acquires the user's face image. There may be. In another example, the time of arrival may indicate the time when the body temperature measurement unit 32 measures the body temperature of the user. In addition, the time of arrival may be the time when the admission determination system (1, 2, 3) executes a process caused by the user's action when he/she visits the facility.

[Modification 7]
Next, modification 7 will be described. The body temperature measurement unit 32 in the above-described embodiment and modification may measure the body temperature of the user on condition that the acquisition unit 31 acquires the code or the face image. Further, the body temperature measurement unit 32 may measure the user's body temperature on condition that the acquisition unit 31 acquires the physical condition information indicated by the symbol, or the acquisition unit 31 may measure the physical condition associated with the captured face image of the user. The body temperature of the user may be measured on the condition that the information is acquired.

[Modification 8]
Next, modified example 8 will be described. The entry determination system (1, 2, 3) in the above-described embodiment and modification may determine whether or not to allow a user to board a mobile object. In that case, the gate device 30 or the installation terminal 40 is installed at the boarding/alighting entrance inside the moving body or at the stop of the moving body. Mobile objects are, for example, buses, taxis, trains, airplanes, and the like.

[Hardware configuration example]
Next, hardware for realizing the user terminal 10, the management server 20, the gate device 30, the installation terminal 40, and the entrance determination system (1, 2, 3) in each of the above-described embodiments using one or more computers An example of the configuration will be described. Each functional unit included in the user terminal 10, the management server 20, the gate device 30, the installation terminal 40, and the admission determination system (1, 2, 3) includes at least one CPU (Central Processing Unit) of any computer, at least one It is implemented by an arbitrary combination of hardware and software centering on a memory, a program loaded into the memory, a storage unit such as at least one hard disk for storing the program, an interface for network connection, and the like. It should be understood by those skilled in the art that there are various modifications to this implementation method and apparatus. The storage unit can store not only programs stored before shipment of the device, but also programs downloaded from recording media such as optical discs, magneto-optical discs, semiconductor flash memories, and servers on the Internet.

FIG. 14 is a block diagram illustrating the hardware configuration of the user terminal 10, management server 20, gate device 30, installation terminal 40, and entrance determination system (1, 2, 3). As shown in FIG. 14, the user terminal 10, the management server 20, the gate device 30, the installation terminal 40, and the entrance determination system (1, 2, 3) include a processor 1A, a memory 2A, an input/output interface 3A, a peripheral circuit 4A, It has a communication interface 5A and a bus 6A. The peripheral circuit 4A includes various modules. The user terminal 10, the management server 20, the gate device 30, the installed terminal 40, and the entrance determination system (1, 2, 3) may not have the peripheral circuit 4A. The user terminal 10, the management server 20, the gate device 30, the installed terminal 40, and the entrance determination system (1, 2, 3) may be configured by a plurality of physically and/or logically separated devices. In this case, each of the plurality of devices can have the above hardware configuration.

A bus 6A is a data transmission path for mutually transmitting and receiving data between the processor 1A, memory 2A, input/output interface 3A, peripheral circuit 4A, and communication interface 5A. The processor 1A is, for example, an arithmetic processing device such as a CPU, a GPU (Graphics Processing Unit), or a microprocessor. The processor 1A can, for example, execute processing according to various programs stored in the memory 2A.

The memory 2A is a memory such as RAM (Random Access Memory) or ROM (Read Only Memory), for example, and stores programs and various data.

The input/output interface 3A is an interface for acquiring information from an input device, an external device, an external storage unit, an external sensor, a camera, etc., an interface for outputting information to an output device, an external device, an external storage unit, etc. including. The input device is, for example, a touch panel, keyboard, mouse, microphone, camera, or the like. Output devices are, for example, displays, speakers, printers, lamps, and the like.

The processor 1A can issue commands to each module and perform calculations based on their calculation results.

The communication interface 5A realizes mutual communication between the user terminal 10, the management server 20, the gate device 30, the installation terminal 40, and the entrance determination system (1, 2, 3) with external devices. 20, the gate device 30, the installation terminal 40, and the entrance determination system (1, 2, 3) are realized to communicate with each other. Some functions of the user terminal 10, the management server 20, the gate device 30, the installation terminal 40, and the entrance determination system (1, 2, 3) may be configured by a computer.

It should be noted that the configurations of the above-described embodiments may be combined or some components may be replaced. Also, the configuration of the present invention is not limited to the above-described embodiments, and various modifications may be made without departing from the gist of the present invention. For example, the configurations and processes disclosed in each embodiment and modifications may be combined with each other.

1, 2, 3 entrance determination system 10 user terminal 20 management server 30 gate device 40 installation terminal 11 sensor 12 input unit 13 storage unit 14 code generation unit 15 display unit 21 determination unit 22 management information storage unit 23 collation unit 24 measurement period setting Unit 31 Acquisition unit 32 Body temperature measurement unit 33 Gate control unit 34 Gate 301 Acquisition unit 302 Determination unit NW Network FM Format 1A Processor 2A Memory 3A Input/output interface 4A Peripheral circuit 5A Communication interface 6A Bus

Claims

an acquisition unit that acquires physical condition information, which is information about the user's physical condition, which is information that was input to the user terminal during a predetermined period prior to the time of arrival;
a determination unit that determines whether or not to allow entry based on the body temperature of the user measured at the time of arrival and the physical condition information;
admission decision system.
　The admission determination system according to claim 1, comprising a measurement unit that measures the body temperature of the user on condition that the physical condition information is acquired.
3. The admission determination system according to claim 1 or 2, wherein the acquisition unit acquires the physical condition information from the user terminal via a code displayed on the user terminal.
A first matching unit for matching the user's face based on the face image,
3. The admission determination system according to claim 1, wherein said acquisition unit acquires said physical condition information from said user terminal based on a collation result of said user.
the user terminal that receives input of the user's physical condition information during the predetermined period;
5. The admission determination system according to any one of claims 1 to 4, further comprising a setting unit that changes the length of the predetermined period according to the type of infectious disease that has been input.
The user terminal comprises a sensor that acquires biometric information from the user,
The physical condition information includes the biological information acquired by the sensor during the predetermined period,
6. The admission determination system according to claim 5.
The user terminal comprises a second matching unit for matching the user's face,
the sensor acquires the biometric information of the user based on the matching result of the second matching unit;
7. The admission determination system according to claim 6.
The physical condition information further includes information input by the user himself, information indicating an immunity certificate, information indicating the history of contact of the user with an infected person during the predetermined period, and information indicating the user's own health acquired from an external server. including any of the information
The admission determination system according to any one of claims 1 to 7.
Acquiring physical condition information, which is information about the user's physical condition, which is information input to the user terminal during a predetermined period before the visit,
Based on the body temperature of the user measured at the time of arrival and the physical condition information, it is determined whether or not to enter.
Admission decision method.
to the computer,
A process of acquiring physical condition information, which is information about the user's physical condition, which is information input to the user terminal during a predetermined period before the arrival time;
a process of determining whether or not to allow entry based on the body temperature of the user measured at the time of arrival and the physical condition information;
A program recording medium on which a program for executing