JP7047891B1 - Elevator system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an elevator system capable of registering not only a default destination floor but also a changed destination floor when a user passes through a security gate using face recognition. SOLUTION: An elevator system has an image pickup unit (25) provided so as to be able to take an image of a user who is going to pass through a gate (20), and an information recording possessed by the user is arranged at or near the gate. An information acquisition unit (29) that acquires predetermined information from the medium (200), a face recognition unit (100) that authenticates the user's face based on the image captured by the image pickup unit, and a user's destination floor. The destination floor setting unit (100) for setting is provided, and the destination floor setting unit is specified based on the face authentication when the predetermined information is not acquired by the information acquisition unit when the face authentication is successful. If the default destination floor is set as the user's destination floor and the face recognition is successful and the predetermined information is acquired by the information acquisition unit, the changed destination floor indicated by the predetermined information is set as the user's destination floor. do. [Selection diagram] Fig. 2

Description

The present invention relates to an elevator system.

Patent Document 1 discloses an elevator system in which a user's destination floor is automatically registered in an elevator control device and a unit is assigned by acquiring user information from an IC card (ID card) with a security gate reader. ing.

Japanese Unexamined Patent Publication No. 2016-056017

Security gates that use face recognition are becoming widespread.

The present invention provides an elevator system that enables registration of not only a default destination floor but also a changed destination floor when a user passes through a gate using face recognition.

The elevator system of the present invention is
It is an elevator system that sets the destination floor of the user before boarding the elevator of the user.
An image pickup unit provided so that a user who is going to pass through a gate arranged on the movement route to the elevator landing can be imaged.
An information acquisition unit that is located near or near the gate and acquires predetermined information from the information recording medium possessed by the user.
A face recognition unit that authenticates the user's face based on the captured image captured by the image pickup unit,
It is equipped with a destination floor setting unit that sets the destination floor of the user.
The destination floor setting section is
If the face authentication unit succeeds in face authentication and the information acquisition unit does not acquire the specified information, the default destination floor specified based on the face authentication is set as the user's destination floor.
When the face authentication unit succeeds in face authentication of the user and the information acquisition unit acquires the predetermined information, the changed destination floor indicated by the predetermined information is set as the user's destination floor.

According to the present invention, it is possible to register not only the default destination floor but also the changed destination floor when the user passes through the gate using face recognition.

It is a schematic plan view which showed the equipment arrangement on the specific floor of the building to which the elevator system in Embodiment 1 is applied. It is a block diagram which showed the structure of an elevator system. It is a block diagram which showed the electrical composition of the destination floor registration apparatus. It is a front view schematically showing the appearance of the destination floor registration device. It is a figure which showed the display example in the display part of the destination floor registration apparatus. It is a block diagram which showed the electric structure of an elevator control device. It is a perspective view which showed the appearance of a security gate. It is a block diagram which showed the electric structure of a security server. It is a figure which showed the structure of the registration apparatus database stored in the storage part of a security server. It is a figure which showed the structure of the user database stored in the storage part of a security server. It is a figure which showed the display example in the display part of a mobile terminal. It is a flowchart explaining the call information signal generation processing by a security server. It is a flowchart explaining the allocation process by a group management control device. It is a figure which showed the display example in the gate display of a security gate. It is a block diagram which showed the structure of the elevator system in the 1st modification of Embodiment 1. FIG. It is a flowchart explaining the call information signal generation processing by the security server in the 1st modification of Embodiment 1. It is a flowchart explaining the allocation process by a group management control apparatus in the 1st modification of Embodiment 1. It is a block diagram which showed the system structure of the elevator system in the 2nd modification of Embodiment 1. FIG. It is a flowchart explaining the allocation process by a group management control apparatus in the 2nd modification of Embodiment 1. FIG. It is a schematic plan view which showed the equipment arrangement on the specific floor of the building to which the elevator system in Embodiment 2 is applied. It is a block diagram which showed the structure of the elevator system in Embodiment 2. It is a flowchart explaining the acquisition process of QR code data by the security server in Embodiment 2. It is a flowchart explaining the call information signal generation processing by the security server in Embodiment 2. It is a block diagram which showed the structure of the elevator system in the 1st modification of Embodiment 2. It is a flowchart explaining the allocation process by a group management control apparatus in the 1st modification of Embodiment 2. It is a block diagram which showed the system structure of the elevator system in the 2nd modification of Embodiment 2. It is a flowchart explaining the allocation process by a group management control apparatus in the 2nd modification of Embodiment 2.

Embodiments of the present invention will be described with reference to the drawings.

(Embodiment 1)
1. 1. Configuration 1-1. Arrangement of Elevators, etc. FIG. 1 is a schematic plan view showing the arrangement of equipment on a specific floor of a building (building) to which the elevator system according to the first embodiment is applied. The specific floor is, for example, the lobby floor connected to the outside of the building, and the user of the building moves to another floor via the specific floor.

FIG. 1 shows an example in which the elevator system includes six elevators 60A to 60F (an example of a plurality of units) of Units 1 to 6. Elevator users board the elevators 60A to 60F from the elevator landing. In the following, the elevators 60A to 60F may be referred to as "elevator 60" without distinction.

A destination floor registration device 30 is arranged at or near the elevator landing on each floor including a specific floor.

On a specific floor, a plurality of security gates 20 are arranged on the user's movement route from the entrance to the elevator landing. The user enters the elevator landing from the entrance side through one of the security gates 20. The elevator landing is provided in a specific area. The specific area is an area in the building that cannot be entered without passing through the security gate 20 from the entrance side. The specific area includes an elevator landing, a space in the car of each elevator 60, and a space of each floor that can be moved by using the elevator 60.

On the floor surface on the entrance side of the security gate 20, a display indicating the face recognition area Ad is made.

1-2. System configuration 1-2-1. Schematic FIG. 2 is a block diagram showing a system configuration of an elevator system.

The elevator system includes a plurality of elevators 60A to 60F, a group management control device 10 that integrally controls the operation of these elevators 60A to 60F, and elevator control devices 40A to 40F provided corresponding to each elevator. , A destination floor registration device 30 arranged on each floor is provided. A security server 100 that manages the security of the building and controls the security gate 20 is connected to the group management control device 10.

The elevator system employs a destination floor registration method that allows the user to register the destination floor in advance before boarding the car. The destination floor can be registered, for example, by face recognition at the security gate 20, use of a QR code (registered trademark), manual registration at the destination floor registration device 30, and the like. The QR code is an example of predetermined information. The group management control device 10 assigns a call regarding the destination floor registered before boarding (destination floor call) to any one of a plurality of elevators 60, and uses information indicating the assigned unit. It is displayed on the gate display 70 of the security gate 20 and the destination floor registration device 30, whereby the user is allowed to board the assigned machine.

The destination floor registration device 30 on the specific floor is used when a user who has entered the specific area through the security gate 20 misses the elevator 60 displayed on the gate display 70, or a floor other than the default destination floor. It is provided to allow the elevator 60 to be used when moving to the floor.

Each elevator 60 (60A to 60F) has a car, a hoist (motor), a counterweight, and the like.

1-2-2. Group management control device The group management control device 10 controls the operation of the elevators 60A to 60F in an integrated manner. Further, the group management control device 10 controls the allocation of new calls to each unit while communicating with the security server 100 and the destination floor registration device 30. Each device is connected via a network capable of transmitting information. The network is configured by a LAN (Local Area Network) such as Ethernet (registered trademark), and various information is transmitted / received between each device according to various protocols such as TCP / IP. Each of the above-mentioned devices connected to the network is capable of signal transmission (information transmission) by communication according to various protocols such as TCP / IP. It should be noted that the devices constituting the elevator system may be connected via a network of other signal formats or a dedicated signal network.

The group management control device 10 is configured by using a computer, and includes a control unit 11, a storage unit 12, and an input / output interface 13.

The storage unit 12 is configured by using, for example, a RAM, a ROM, an HDD, an SSD, or the like, and stores a program and various data. The program includes a program for realizing various functions of the group management control device 10 of the present embodiment.

The control unit 11 is configured by using, for example, a CPU, an MPU, or the like. The control unit 11 realizes various functions described later in the group management control device 10 by performing arithmetic processing using various data and the like based on the above program read from the storage unit 12.

The input / output interface 13 is configured by using, for example, a LAN adapter or the like. The input / output interface 13 is an interface for the group management control device 10 to send and receive various signals to and from the security server 100, the gate display 70 of the security gate 20, the destination floor registration device 30, and the elevator control device 40. be. The input / output interface 13 converts the signal output from the control unit 11 into a signal of a predetermined format and outputs the signal to the security server 100, the gate display 70 of the security gate 20, the destination floor registration device 30, and the elevator control device 40. .. Further, the input / output interface 13 converts the signals input from the security server 100, the gate display 70 of the security gate 20, the destination floor registration device 30, and the elevator control devices 40A to 40F into signals of a predetermined format, and is a control unit. Output to 11.

1-2-3. Elevator control device The elevator control devices 40A to 40F are provided corresponding to the elevators 60A to 60F. The elevator control devices 40A to 40F control the operation of the hoisting machine (motor) or the like of the corresponding elevators 60A to 60F according to the control signal from the group management control device 10, so that the elevator 60A to 60F car rises. , Descent, stop, etc. are controlled. Further, the elevator control devices 40A to 40F detect the car state such as the car position, traveling direction, door opening / closing, load, etc. of the corresponding elevators 60A to 60F, and perform group management control such as information indicating the detected car state. Output to device 10. In the following, the elevator control devices 40A to 40F may be referred to as "elevator control device 40" without distinction.

Like the group management control device 10, the elevator control device 40 is configured by using a computer including a control unit, a storage unit, an input / output interface, and the like.

1-2-4. Destination Floor Registration Device FIG. 3 is a block diagram showing an electrical configuration of the destination floor registration device 30.

The destination floor registration device 30 is a device that accepts registration (designation) of the destination floor by the user. The destination floor registration device 30 includes a control unit 31, a storage unit 32, an input / output interface 33, a display unit 34, and an operation unit 35.

The storage unit 32 is configured by using, for example, a RAM, a ROM, an HDD, an SSD, or the like, and stores a program and various data. The program includes a program for realizing various functions of the destination floor registration device 30 of the present embodiment.

The control unit 31 is configured by using, for example, a CPU, an MPU, or the like. The control unit 31 realizes various functions described later in the destination floor registration device 30 by performing arithmetic processing using various data and the like based on the above program read from the storage unit 32.

The input / output interface 33 is configured by using, for example, a LAN adapter or the like. The input / output interface 33 is an interface for the destination floor registration device 30 to send and receive various signals to and from the group management control device 10. The input / output interface 33 converts the signal output from the control unit 31 into a signal of a predetermined format and outputs the signal to the group management control device 10. Further, the input / output interface 33 converts the signal input from the group management control device 10 into a signal of a predetermined format and outputs the signal to the control unit 31.

The display unit 34 displays an image or the like based on the display signal output from the control unit 31.

The operation unit 35 is an interface for receiving a user operation on the destination floor registration device 30. The operation unit 35 outputs a signal according to the operation content to the control unit 31.

The display unit 34 and the operation unit 35 are integrally configured by, for example, a touch panel type display device using a liquid crystal display panel or an organic EL display panel. The display unit 34 and the operation unit 35 may be configured separately by using different parts as long as it is possible to specify the same as the object such as a button displayed on the display unit 34. ..

FIG. 4 is a front view schematically showing the appearance of the destination floor registration device 30. FIG. 5 is a diagram showing a display example in the display unit 34 of the destination floor registration device 30.

A face recognition camera 36 is arranged above the destination floor registration device 30, and is configured to allow the user to perform face recognition when registering the destination floor.

The face recognition camera 36 captures a subject in a predetermined angle of view region in front of the subject at a predetermined frame rate and a predetermined resolution, generates image data of the captured image (captured image), and uses the generated image data as a security server. Output to 100. The face recognition camera 36 is an example of an imaging unit. The predetermined angle of view area is set to an angle of view that allows the user to image the user's face in a size that allows proper face recognition when the user is in front of the destination floor registration device 30. .. The predetermined resolution may be any resolution as long as it can detect the face, and may be, for example, a resolution of HD or FHD. The frame rate may be any rate, but may be, for example, 15 fps or 30 fps.

FIG. 4 shows an example in which a guidance screen as a default screen is displayed on the display unit 34 of the destination floor registration device 30. On this guidance screen, for example, the message "It can be used by face recognition. Please perform face recognition with the above camera" is displayed. When the user comes to the front of the face recognition camera 36 while the guidance screen of FIG. 4 is displayed on the display unit 34, the face is faced by the security server 100 based on the captured image captured by the face recognition camera 36. Authentication processing is performed. If the face recognition is successful, for example, an operation screen as shown in FIG. 5A is displayed. On the operation screen of FIG. 5 (a), the message "Please register the destination floor" is displayed on the display unit 34, and the permitted floor linked to the user who has succeeded in face recognition in the user database (described later). Destination floor button is displayed. In FIG. 5A, the destination floor buttons on the 9th, 10th, and 11th floors, which are the permitted floors associated with the user ID “10004” registered in the user database described later, are displayed. An example is shown. The permitted floor is a floor on which the user is permitted to use, and the floor is different depending on the user who has succeeded in face recognition. When any of the destination floor buttons is pressed (touched) by the user on the operation screen of FIG. 5 (a), the elevator is assigned, for example, the assigned machine notification as shown in FIG. 5 (b). The screen is displayed. On the assigned unit notification screen of FIG. 5B, the message "10F Unit 1" is displayed on the display unit 34.

1-2-5. Security Gate The security gate 20 is a device that controls the entry of a user into a specific area inside a building. Specifically, the security gate 20 is a device that permits the entry of regular users into a specific area inside the building, while restricting the entry of non-regular users. A legitimate user is a user registered in a user database (hereinafter referred to as "user DB"), and a non-regular user is a user who is not registered in the user DB.

FIG. 6 is a block diagram showing an electrical configuration of the security gate 20 according to the first embodiment. FIG. 7 is a perspective view showing the appearance of the security gate 20. Note that FIG. 7 is a perspective view of the leftmost security gate 20 among the three security gates 20 of FIG.

As shown in FIG. 7, a QR code reader 29, a first sensor 26, a second sensor 27, a gate flapper 28, and a gate display 70 are provided in the gate body 20a, which is the housing of the security gate 20. It is prepared. Further, a face recognition camera 25 is provided on the exit 20e side of the gate body 20a. The face recognition camera 25 may be attached to the gate body 20a or may be provided independently.

The face recognition camera 25 captures a subject in a predetermined angle of view region in front of the subject at a predetermined frame rate and a predetermined resolution, generates image data of the captured image (captured image), and outputs the image data to the security server 100. The face recognition camera 25 is an example of an imaging unit. The predetermined angle of view area is set to an angle of view that allows the user to image the user's face in a size that enables proper face recognition when the user is in the face recognition area Ad (see FIG. 1). ing. The predetermined resolution may be any resolution as long as it can detect the face, and may be, for example, a resolution of HD or FHD. The frame rate may be any rate, but may be, for example, 15 fps or 30 fps.

The QR code reader 29 is arranged on the entrance 20i side of the upper surface of the gate body 20a. The QR code reader 29 includes an optical reader (scanner or camera) and a data output unit. The optical reader optically reads a QR code held by the user at a position closer than a predetermined distance. The data output unit is a security server that contains a signal including QR code image data (hereinafter referred to as "QR code data") read by an optical reader and a registration device ID (registration device identification information) of the QR code reader 29. Send to 100. The QR code to be read may be displayed on the display unit of the mobile terminal 200, or may be printed on paper or the like.

The first sensor 26 is composed of, for example, a photoelectric sensor, and detects a user passing through the entrance 20i side of the passage PA of the security gate 20. When the first sensor 26 detects a user, the first sensor 26 outputs a detection signal to the security server 100 via the control unit 21.

The second sensor 27 is composed of, for example, a photoelectric sensor, and detects a user passing through the exit 20e side of the passage PA of the security gate 20. When the second sensor 27 detects the user, the second sensor 27 outputs a detection signal to the security server 100 via the control unit 21.

The gate flapper 28 is a door that can be opened and closed.

The gate display 70 displays a screen corresponding to various display signals output from the group management control device 10. For example, the gate display 70 displays an allocation unit notification screen for notifying the name of the allocated elevator (allocation unit) when the allocation result signal output from the group management control device 10 is received.

Further, as shown in FIG. 6, the control unit 21, the storage unit 22, the input / output interface 23, and the like are housed inside the gate body 20a.

The storage unit 22 is configured by using, for example, a RAM, a ROM, an HDD, an SSD, or the like, and stores a program and various data. The program includes a program for realizing various functions of the security gate 20 in the present embodiment.

The input / output interface 23 is configured by using, for example, a LAN adapter or the like. The input / output interface 23 is an interface for the security gate 20 to send and receive various signals to and from the security server 100. The input / output interface 23 converts the signal output from the control unit 21 into a signal of a predetermined format and outputs the signal to the security server 100. Further, the input / output interface 23 converts the signal input from the security server 100 into a signal of a predetermined format and outputs the signal to the control unit 21.

The control unit 21 is configured by using, for example, a CPU, an MPU, or the like. The control unit 21 realizes various functions described later in the security gate 20 by performing arithmetic processing using various data and the like based on the program stored in the storage unit 22.

The control unit 21 opens and closes the gate flapper 28 based on the detection signals from the first sensor 26 and the second sensor 27, and the open signal and the close signal from the security server 100. Further, when the control unit 21 receives the detection signal from the first sensor 26 and then receives the detection signal from the second sensor 27, the control unit 21 transmits the user passage signal to the security server 100.

1-2-6. Security server The security server 100 performs face recognition processing on the user in order to ensure the security in the building based on the captured image indicated by the image data output from the face recognition camera 25 and the face recognition camera 36. For example, the security server 100 performs face detection processing on the captured image, and when the face is detected, further performs face feature point detection processing. Then, when the face feature points are detected from the captured image, the detected face feature point data (face data) and the face feature point data (face data) of each user registered in the user DB are sequentially compared (face data). Match) to find the match rate. Then, it is determined whether the face data (face feature point data) having a matching rate equal to or higher than the predetermined matching rate with respect to the detected face data (face feature point data) is registered in the user DB. That is, it is determined whether or not the face data having a matching rate equal to or higher than the predetermined matching rate is registered in the user DB with respect to the detected face data. When face data having a match rate equal to or higher than a predetermined match rate is registered in the user DB, the user who tries to pass through the security gate 20 (the user whose face is detected) is registered in the registered face data. Identify the user as the corresponding user and determine that face recognition was successful. In addition, it is preferable that the predetermined match rate is set so high that it cannot be reached in the case of another person. As a result, face recognition can be appropriately performed. The face detection process, the face feature point detection process, and the collation process (authentication process) can be performed by using various known methods.

Further, the security server 100 controls the opening and closing of the security gate 20 according to the face authentication result. Further, the security server 100 generates a call information signal including information such as the destination floor of the user and outputs the call information signal to the group management control device 10. The user ID is an example of user identification information.

FIG. 8 is a block diagram showing an electrical configuration of the security server 100. The security server 100 is configured by using a computer, and includes a control unit 101, a storage unit 102, and an input / output interface 103.

The storage unit 102 is configured by using, for example, a RAM, a ROM, an HDD, an SSD, or the like, and stores a program and various data. The program includes a program for realizing various functions described later of the security server 100 of the present embodiment. The storage unit 102 stores the user DB as data. The configuration of the user DB will be described later.

Further, the storage unit 102 stores a registration device database (hereinafter referred to as “registration device DB”) as data. The configuration of the registration device DB will be described later.

The control unit 101 is configured by using, for example, a CPU, an MPU, or the like. The control unit 101 realizes various functions described later in the security server 100 by performing arithmetic processing using various data and the like based on the program read from the storage unit 102.

The input / output interface 103 is configured by using, for example, a LAN adapter or the like. The input / output interface 103 is an interface for the security server 100 to send and receive various signals to and from the face recognition camera 25, the QR code reader 29, the group management control device 10, and the security gate 20. The input / output interface 103 converts the signal output from the control unit 101 into a signal of a predetermined format, and has a face recognition camera 25, a QR code reader 29, a face recognition camera 36, a group management control device 10, and a security gate. Output to 20. Further, the input / output interface 103 converts the signals input from the face authentication camera 25, the QR code reader 29, the face authentication camera 36, the group management control device 10, and the security gate 20 into signals of a predetermined format. Output to the control unit 101.

FIG. 9 is a diagram showing a configuration of a registration device DB stored in the storage unit 102 of the security server 100. The registration device DB stores information on the installation floor of the registration device and the location where the registration device is installed in association with the registration device ID. The registration device here is a general term for the destination floor registration device 30 and the security gate 20 used for registration of the user's destination floor.

The "installation floor" is information indicating the floor on which the registration device corresponding to the registration device ID is installed. The installation floor is used as the departure floor for users who have used the registration device. In the "call information signal" described later, the "installation floor" is referred to as the "departure floor".

The "location" is information indicating the position where the registration device corresponding to the registration device ID is installed on the installation floor. The location is indicated by a serial number such as "1", "2", "3", etc. for each installation floor.

In the example shown in FIG. 9, "1" and "1" are registered as the installation floor and location in association with the registration device ID "0001". "1" and "2" are registered as the installation floor and location in association with the registration device ID "0002". Similarly, for the remaining registration device IDs, information on the installation floor and location is registered in association with the registration device ID.

FIG. 10 is a diagram showing a configuration of a user DB stored in the storage unit 102 of the security server 100. The user DB records the face data, the default destination floor, and the permitted floor in association with the user ID. The password may be further recorded in association with the user ID. Registration of such information in the user DB is performed by, for example, a building manager.

The "user ID" is identification information (user identification information) set to uniquely identify a user.

The "face data" is face feature point data indicating the facial features of the user specified by the "user ID". The facial feature point data is data showing features of positions and shapes such as eyes, nose, and mouth, for example. The facial feature point data is generated based on the user's facial image provided or captured at the time of registration of the user in the user DB.

The "default destination floor" is information indicating the default destination floor of the user specified by the "user ID". As the default destination floor, for example, the numerical value of the floor on which the user is occupying is set. It is also possible not to set the "default destination floor" according to the user's wishes. In this case, the symbol "-" is set as the default destination floor. The symbol "-" is an example of destination floor unset information.

The "permitted floor" is information indicating a floor on which the user specified by the "user ID" is permitted to use. As the permitted floor, for example, a common floor in the building is set.

In the example shown in FIG. 10, "face data 1", "10", and "9, 10, 11" are registered as the face data, the default destination floor, and the permitted floor in association with the user ID "10001". Has been done. "Face data 2", "8", and "7,8" are registered as face data, default destination floor, and permitted floor in association with the user ID "10002". "Face data 3", "13", and "12,13" are registered as face data, default destination floor, and permitted floor in association with the user ID "1003". "Face data 4", "-", and "9,10,11" are registered as face data, default destination floor, and permitted floor in association with the user ID "10004". The symbol "-" in the default destination floor is the destination floor unset information indicating that the default destination floor is not set. Similarly, for the remaining user IDs, face data, default destination floors, and permitted floor information are registered in association with the user IDs.

1-2-7. Mobile terminal The mobile terminal 200 is composed of a computer including a control unit, a storage unit, a communication interface, a display unit, an operation unit, and the like. The mobile terminal 200 is, for example, a smartphone or a tablet computer. A destination floor setting application is installed in the storage unit of the mobile terminal 200. The destination floor setting application is used to generate a QR code when a user registers a destination floor (changed destination floor) other than the default destination floor in the elevator system when using the elevator.

FIG. 11 is a diagram showing a display example in the display unit of the mobile terminal 200.

When the user activates the destination floor setting application on the mobile terminal 200, the destination floor setting screen shown in FIG. 11A is displayed on the display unit 210 of the mobile terminal 200. On the destination floor setting screen, the destination floor input frame Fi, the QR code generation button Bi, and the like are displayed. When the user inputs the destination floor in the destination floor input frame Fi and touches the QR code generation button Bi, the QR code is generated and the QR code is generated on the display unit 210 of the mobile terminal 200, for example, QR as shown in FIG. 11 (b). The QR code display screen displaying the code Cd is displayed. The QR code Cd stores information indicating the destination floor input in the destination floor input frame Fi and information indicating the user ID stored in the storage unit.

2. 2. Operation 2-1-1. Face recognition processing and open / close control of the gate flapper of the security gate The security server 100 performs face recognition for the user in order to ensure security in the building based on the captured image indicated by the image data output from the face recognition camera 25. Perform processing. Specifically, when a user tries to pass through the security gate 20 in order to move from the entrance to the elevator landing in a specific area, a face is detected in the face recognition area Ad (see FIG. 1) on the entrance side of the security gate 20. , Further, facial feature point detection processing is performed.

When the security server 100 detects a face feature point from the captured image, the security server 100 sequentially compares (verifies) the detected face feature point data with each face data (face feature point data) registered in the user DB. Find the match rate. Then, it is determined whether the face data (face feature point data) having a matching rate equal to or higher than the predetermined matching rate with respect to the detected face data (face feature point data) is registered in the user DB. When face data having a match rate equal to or higher than a predetermined match rate is registered in the user DB, the security server 100 registers the user (user whose face is detected) who intends to pass through the security gate 20. It is determined that the user is the user corresponding to the face data and the face authentication is successful. In this case, the security server 100 transmits an open signal to the security gate 20. As a result, the user registered in the user DB can pass through the security gate 20.

On the other hand, when face data (face feature point data) having a matching rate equal to or higher than a predetermined matching rate does not exist in the user DB, the security server 100 allows the user who intends to pass through the security gate 20 to pass through the security gate 20. Judge that the user is not registered in. In this case, the security server 100 transmits a closing signal to the security gate 20. The control unit 21 of the security gate 20 closes the gate flapper 28. As a result, a user who is not registered in the user DB cannot pass through the security gate 20. That is, it is possible to prevent a user who is not registered in the user DB from passing through the security gate 20.

The control unit 21 of the security gate 20 uses the first sensor 26 to allow the user to use the first sensor 26 in a situation where neither the open signal nor the close signal is received from the security server 100, that is, the face recognition process is not completed. If detected, the gate flapper 28 is closed. As a result, it is possible to prevent a user who has not completed the face recognition process from passing through the security gate 20.

In this way, the user registered in the user DB can enter the specific area, but the other user cannot enter the specific area. Therefore, the security in the building is ensured.

2-1-2. Unit allocation process 2-1-2-1. Destination floor setting processing and unit allocation processing when using the security gate In the face recognition processing for the user who is going to pass through the security gate 20, if it is determined that the user is a user registered in the user DB, security The server 100 sets the default destination floor or the changed destination floor as the user's destination floor depending on the determination result of whether or not the QR code data is received from the QR code reader 29 within a predetermined time T (seconds) after face authentication. It is set, a call information signal including information such as a departure floor, a location, and a destination floor is generated, and the call information signal is transmitted to the group management control device 10. The "departure floor" in the call information signal is equal to the "installation floor" of the registration device as described above.

When the group management control device 10 receives the call information signal from the security server 100, the group management control device 10 determines an allocation unit to which the user's destination floor is assigned based on the received call information signal, and outputs an allocation result signal indicating the determined allocation unit. , The call information signal is transmitted to the gate indicator 70 located at the departure floor and the location.

When the gate display 70 receives the allocation result signal from the group management control device 10, the gate display 70 displays the allocation unit notification screen.

More detailed destination floor setting processing and unit allocation processing will be described later.

2-1-2-2. Destination floor setting process and unit allocation process when using the destination floor registration device The security server 100 uses the user registered in the user DB in the face authentication process for the user who intends to use the destination floor registration device. When it is determined that the user is a person, the information of the default destination floor and the permitted floor associated with the user is read from the user DB, and the registration device of the face authentication camera 36 attached to the destination floor registration device 30 is used. The installation floor and location information are read from the registration device DB based on the ID, and the default destination floor and permission floor information read from the user DB, and the installation floor (departure floor) and location information read from the registration device DB, etc. A call information signal including the above is generated, and the call information signal is transmitted to the group management control device 10.

When the group management control device 10 receives the call information signal from the security server 100, the group management control device 10 generates a reception permission signal including at least the information of the permission floor based on the received call information signal, and the departure floor and the location indicated by the call information signal. It is transmitted to the destination floor registration device 30 arranged in.

Upon receiving the reception permission signal, the destination floor registration device 30 displays the destination floor button of the permission floor indicated by the information of the permission floor on the display unit 34, and accepts the user to specify the destination floor. When there is a destination floor designation operation, the destination floor registration device 30 transmits an allocation request signal requesting that any unit be assigned to the designated destination floor to the group management control device 10.

Upon receiving the allocation request signal, the group management control device 10 determines the allocation unit to which the user's destination floor is to be allocated, and the allocation result signal indicating the determined allocation unit is arranged at the departure floor and the location indicated by the call information signal. It is transmitted to the destination floor registration device 30.

When the destination floor registration device 30 receives the allocation result signal from the group management control device 10, the destination floor registration device 30 displays the allocation unit notification screen displaying the allocation unit on the display unit 34.

2-1-3. Specific operation of the elevator system The destination floor setting process and the unit allocation process when the user uses the security gate 20 will be described in more detail with reference to the flowchart.

FIG. 12 is a flowchart illustrating the call information signal generation process by the security server 100. The processing of this flowchart is executed for each security gate 20. Further, the processes for each security gate 20 are executed in parallel.

The control unit 101 of the security server 100 determines whether or not the captured image indicated by the image data output from the face authentication camera 25 includes a face (S11). The processing of this step may be executed for each of the captured images output at a predetermined frame rate, or may be executed intermittently, for example, only one frame every few frames.

If the captured image does not include a face (NO in S11), the control unit 101 of the security server 100 re-executes the determination in step S11.

When the captured image contains a face (YES in S11), the control unit 101 of the security server 100 performs the above-mentioned face authentication process with respect to the face data (face feature point data) of the detected face. It is determined whether face data (face feature point data) having a matching rate equal to or higher than a predetermined matching rate is registered in the user DB (S12).

When the face data having a matching rate equal to or higher than the predetermined matching rate with respect to the detected face data is not registered in the user DB (NO in S12), the control unit 101 of the security server 100 is closed to the security gate 20. A signal is transmitted (S26). Along with this, the control unit 21 of the security gate 20 controls to keep the gate flapper 28 in the closed state.

When face data having a matching rate equal to or higher than a predetermined matching rate with respect to the detected face data is registered in the user DB (YES in S12), the control unit 101 of the security server 100 opens to the security gate 20. A signal is transmitted (S13). Along with this, the control unit 21 of the security gate 20 controls the gate flapper 28 in the open state.

The control unit 101 of the security server 100 sets the current time to the face authentication time ct (S14).

The control unit 101 of the security server 100 acquires the user ID associated with the face data having a predetermined match rate or more from the user DB (S15).

The control unit 101 of the security server 100 determines whether or not the QR code data has been received from the QR code reader 29 (S16).

When the QR code data is received from the QR code reader 29 (YES in S16), the control unit 101 of the security server 100 analyzes (decodes) the QR code data and changes the user ID and changes from the QR code data. Acquire information on the destination floor (S17).

The control unit 101 of the security server 100 determines whether or not the user ID acquired from the QR code data matches the user ID associated with the face data having a matching rate equal to or higher than the predetermined matching rate (S18). ). The reason for making a judgment based on the user ID in this way is as follows. That is, the user who succeeded in face authentication in step S12 does not use the QR code, but before the predetermined time T (seconds) elapses from the face authentication time tc of the immediately preceding user, the same security gate is used next. When a user who is going to pass 20 holds the QR code over the QR code reader 29, there is a possibility that the destination floor of the user who succeeded in face recognition in step S12 will be changed to the change destination floor of the next user. be. In order to prevent this, it is determined whether or not the user ID acquired from the QR code data matches the user ID associated with the face data having a matching rate equal to or higher than the predetermined matching rate.

When the user ID associated with the face data having a matching rate equal to or higher than the predetermined matching rate matches (YES in S18), the control unit 101 of the security server 100 sets the destination floor change flag to ON (S19). ..

The control unit 101 of the security server 100 acquires the permission floor associated with the face data having the matching rate equal to or higher than the predetermined matching rate from the user DB (S20).

The control unit 101 of the security server 100 identifies the installation floor and location of the security gate 20 that the user is going to pass through based on the registration device ID of the security gate 20 (S21). This also identifies the departure floor and location of the user.

The control unit 101 of the security server 100 sets the changed destination floor acquired in step S17 as the destination floor of the user (S22).

The control unit 101 of the security server 100 generates a call information signal including information of the departure floor, the changed destination floor, the permitted floor, the location, and the destination floor change flag ON, and transmits the call information signal to the group management control device 10 (S23).

The control unit 101 of the security server 100 determines whether or not a user passing signal has been received from the security gate 20 (S24).

When the user passing signal is not received from the security gate 20 (NO in S24), the control unit 101 of the security server 100 re-executes the determination in step S24.

When the user passing signal is received from the security gate 20 (YES in S24), the control unit 101 of the security server 100 transmits a closing signal to the security gate 20 (S25).

In step S16 described above, when the QR code data is not received from the QR code reader 29 (NO in S16), has the control unit 101 of the security server 100 elapsed a predetermined time T (seconds) from the face authentication time ct? Is determined (S27). The predetermined time T (seconds) is set to a value obtained by adding a slight margin time to the standard time from the user performing face recognition to the completion of reading the QR code, for example, 2 (seconds). ).

When the predetermined time T (seconds) has not elapsed from the face authentication time ct (NO in S27), the control unit 101 of the security server 100 returns to the process of step S16.

When the predetermined time T (seconds) has elapsed from the face authentication time ct (YES in S27), the control unit 101 of the security server 100 sets the destination floor change flag to OFF (S28).

The control unit 101 of the security server 100 acquires the default destination floor associated with the face data having the matching rate equal to or higher than the predetermined matching rate from the user DB (S29).

The control unit 101 of the security server 100 specifies the installation floor and location of the security gate 20 that the user is going to pass through based on the registration device ID of the security gate 20 (S30). This also identifies the departure floor and location of the user.

The control unit 101 of the security server 100 sets the default destination floor acquired in step S29 as the destination floor of the user (S31).

The control unit 101 of the security server 100 generates a call information signal including information on the departure floor, the default destination floor, the location, and the destination floor change flag OFF, and transmits the call information signal to the group management control device 10 (S32).

In step S18 described above, when the user ID acquired from the QR code data does not match the user ID associated with the face data having a matching rate equal to or higher than the predetermined matching rate (NO in S18), the security server 100 The control unit 101 executes the processes after step S28 described above. If the user IDs do not match, it means that the user whose face authentication is successful in step S12 is not using the QR code. Therefore, the process after step S28 when the destination floor is not changed is executed.

In addition, since the determination of NO in step S18 also means that the face authentication of the user is not completed later, the control unit 101 of the security server 100 performs the processing in parallel with the processing in step S28 and thereafter. For example, even if the message "The customer holding the QR code is not yet completed face recognition, please try again from face recognition" is transmitted by voice from a speaker separately provided in the security gate 20 or the like. good.

FIG. 13 is a flowchart illustrating the allocation process by the group management control device 10. The process of this flowchart is executed when the group management control device 10 receives a call information signal for a new call from the security server 100. In addition, each time a call information signal for a new call is received, it is executed in parallel.

When the group management control device 10 receives the call information signal from the security server 100, it starts processing the flowchart of FIG. 13 and acquires various information included in the call information signal (S51).

The group management control device 10 determines whether or not the destination floor change flag indicated by the call information signal is ON (S52).

When the destination floor change flag is ON (YES in S52), the group management control device 10 determines whether or not the changed destination floor is an actual floor (S53).

When the changed destination floor is an existing floor (YES in S53), the group management control device 10 determines whether or not the changed destination floor is included in the permitted floor (S54).

When the changed destination floor is included in the permitted floor (YES in S54), the group management control device 10 allocates the departure floor and the changed destination floor indicated by the call information signal to either elevator (S55).

The group management control device 10 transmits a signal indicating the allocation result (allocation result signal) to the gate display 70 at the departure floor and the location indicated by the call information signal (S56). At this time, the assigned unit notification screen is displayed on the gate display 70.

FIG. 14 is a diagram showing a display example of the security gate 20 in the gate display 70. FIG. 14A is a diagram showing an example of the assigned unit notification screen. In the example of FIG. 14A, "4F Unit 1" indicating that Unit 1 was assigned to the 4th floor of the destination floor is displayed. In addition, as shown in FIG. 14 (e), the content "4F Unit 1. The destination floor 4F has been read." May be displayed more politely.

In step S52 above, when the destination floor change flag is not ON (NO in S52), that is, when the destination floor change flag is OFF, the group management control device 10 registers the value of the default destination floor in the call information signal. It is determined whether or not the signal is present (S57).

When the value of the default destination floor is registered (YES in S57), the group management control device 10 assigns the departure floor and the default destination floor indicated by the call information signal to either elevator (S58).

The group management control device 10 transmits a signal indicating the allocation result to the gate display 70 of the departure floor and the location indicated by the call information signal (S59). At this time, the assigned unit notification screen is displayed on the gate display 70. The display contents are the same as those in FIGS. 14 (a) and 14 (e).

When the value of the default destination floor is not registered (NO in S57), that is, when the symbol "-" (destination floor unset information) is registered as the default destination floor in the user DB, the group management control device 10 is used. , A signal prompting the registration of the destination floor in the destination floor registration device 30 is transmitted to the gate display 70 of the departure floor and the location indicated by the call information (S60). At this time, the gate display 70 displays a screen prompting the registration of the destination floor. FIG. 14D is a diagram showing an example of a screen prompting registration of the destination floor. In the example of FIG. 14D, "Please register the destination floor with the destination floor registration device in the elevator hall." Is displayed. The situation in which the destination floor is registered by the destination floor registration device 30 is, for example, when a user who frequently goes to a plurality of permitted floors does not dare to set the default destination floor, or for changing the destination floor. It occurs when the possession of the mobile terminal 200 is forgotten.

In step S53 above, when the changed destination floor is not an actual floor (NO in S53), the group management control device 10 indicates a signal for displaying that the changed destination floor does not exist, the call information signal indicates. It is transmitted to the gate display 70 of the departure floor and the location (S61). At this time, on the gate display 70, a screen notifying that the changed destination floor does not actually exist is displayed. FIG. 14B is a diagram showing an example of a screen for notifying that the changed destination floor does not actually exist. In the example of FIG. 14B, "The 99th floor of the destination floor has been read. The 99th floor does not exist." Is displayed. In addition, on the screen of FIG. 14 (b), the same content as the display content of FIG. 14 (d) "Please register the destination floor with the destination floor registration device in the elevator hall" is further added and displayed. You may.

In step S54 above, when the changed destination floor is not included in the permitted floor (NO in S54), the group management control device 10 calls a signal for displaying that the changed destination floor is not the permitted floor. It is transmitted to the gate display 70 of the departure floor and the location indicated by the signal (S62). At this time, on the gate display 70, a screen notifying that the changed destination floor is not the permitted floor is displayed. FIG. 14C is a diagram showing an example of a screen for notifying that the changed destination floor is not a permitted floor. In the example of FIG. 14 (c), "The 12th floor of the destination floor has been read. The 12th floor is not permitted." Is displayed. In addition, on the screen of FIG. 14 (b), the same content as the display content of FIG. 14 (d) "Please register the destination floor with the destination floor registration device in the elevator hall" is further added and displayed. You may.

3. 3. Action of the present embodiment In the elevator system of the present embodiment, face recognition of a user who intends to pass through the security gate 20 is performed based on the captured image captured by the face recognition camera 25. If the QR code is not read by the QR code reader 29 within the subsequent predetermined time T (seconds) when face recognition is successful, the default destination floor associated with the user in advance is the user's destination. If the QR code is set as a floor and the QR code is read by the QR code reader 29 within the specified time T (seconds) after the face authentication is successful, the changed destination floor indicated by the QR code is set as the user's destination floor. Set. Therefore, when the user passes through the gate using face recognition, it is possible to register not only the default destination floor but also the changed destination floor.

In the first embodiment, an example in which the security server 100 analyzes the QR code data output from the QR code reader 29 to acquire the user ID and the changed destination floor has been described, but the present invention is limited to this. Not done. In the present invention, the group management control device 10 or another analysis device may analyze the QR code data output from the QR code reader 29 to acquire the user ID and the changed destination floor. Hereinafter, the first modification and the second modification of the first embodiment will be described.

(First Modification Example of Embodiment 1)
In the first modification of the first embodiment, an example in which the group management control device 10 analyzes the QR code data output from the QR code reader 29 to acquire the user ID and the changed destination floor will be described.

FIG. 15 is a block diagram showing a system configuration of an elevator system in the first modification of the first embodiment.

In the first modification of the first embodiment, each QR code reader 29 is connected to the group management control device 10 and outputs QR code data to the group management control device 10. Then, the group management control device 10 analyzes the QR code data output from the QR code reader 29, and acquires the user ID and the changed destination floor.

FIG. 16 is a flowchart illustrating the call information signal generation process by the security server 100 in the first modification of the first embodiment.

In the flowchart of FIG. 16, steps S120 to S122 are provided in place of steps S14 to S23 and S27 to S32 of the flowchart of FIG. 12 of the first embodiment.

Specifically, after executing steps S11, S12, and S13 as in the first embodiment, the security server 100 has a user ID associated with face data having a matching rate equal to or higher than a predetermined matching rate, a default destination floor, and the like. The permission floor is acquired from the user DB (S120).

The security server 100 specifies the installation floor and location of the security gate 20 that the user is going to pass through based on the registration device ID of the security gate 20 (S121). This also identifies the departure floor and location of the user.

The security server 100 generates a call information signal including user ID, default destination floor, permission floor, departure floor, and location information, and transmits the call information signal to the group management control device 10 (S122).

After executing step S122, the security server 100 executes the processes after step S24 in the same manner as in the first embodiment.

FIG. 17 is a flowchart illustrating the allocation process by the group management control device 10 in the first modification of the first embodiment.

The process of this flowchart is executed when the group management control device 10 receives a call information signal for a new call from the security server 100. In addition, each time a call information signal for a new call is received, it is executed in parallel. In the flowchart of FIG. 17, step S52 is omitted, steps S114, S116 to S118, and S126 are added after step S51, and step S119 is added after step S54 with respect to the flowchart of FIG. 13 of the first embodiment. Step S131 is added after step S57.

Specifically, when the group management control device 10 receives the call information signal from the security server 100, it acquires various information included in the call information signal (S51) and sets the current time to the face recognition time ct (S114). .. Here, the time when the call information signal is received is substantially the same as the face authentication time. Therefore, the time when the call information signal is received (current time) is treated as the face authentication time ct.

The group management control device 10 determines whether or not QR code data has been received from the QR code reader 29 at the departure floor and location indicated by the call information signal (S116).

When the QR code data is received from the QR code reader 29 (YES in S116), the group management control device 10 analyzes (decodes) the QR code data, and from the QR code data, the user ID and the changed destination floor. (S117).

The group management control device 10 determines whether or not the user ID acquired from the QR code data matches the user ID indicated by the call information signal (S118). The reason for determining the match of the user IDs in this way is the same reason as described in step S18 of the first embodiment.

When the user ID acquired from the QR code data matches the user ID indicated by the call information signal (YES in S118), the group management control device 10 executes the processes of steps S53 and S54 as in the first embodiment. Then, when it is determined in step S54 that the changed destination floor is included in the permitted floor (YES in S54), the changed destination floor is set as the destination floor of the user (S119). After that, the group management control device 10 executes the processing after step S55 as in the first embodiment.

In step S116 described above, when the QR code data is not received from the QR code reader 29 (NO in S116), the group management control device 10 determines whether the predetermined time T (seconds) has elapsed from the face recognition time ct. (S126). The predetermined time T (seconds) is set to a value obtained by adding a slight margin time to the standard time from the user performing face recognition to the completion of reading the QR code, for example, 2 (seconds). ).

When the predetermined time T (seconds) has not elapsed from the face authentication time ct (NO in S126), the group management control device 10 returns to the process of step S116.

When a predetermined time T (seconds) has elapsed from the face authentication time ct (YES in S126), the group management control device 10 executes the process of step S57 as in the first embodiment, and the value of the default destination floor in step S57. If it is determined that is registered (YES in S57), the default destination floor is set as the destination floor of the user (S131). After that, the group management control device 10 executes the processing after step S58 as in the first embodiment.

In step S118 described above, when the user ID acquired from the QR code data does not match the user ID indicated by the call information signal (NO in S118), the group management control device 10 performs the processing after step S57 described above. Run.

The processing in the other apparatus is performed in the same manner as in the first embodiment.

According to this modification, the same effect as that of the first embodiment can be obtained. In addition, since the group management control device 10 performs the process of setting the default destination floor or the changed destination floor as the destination floor, it is not necessary to perform the process in the security server 100, and it is possible to suppress the specification change for the security server 100 as much as possible. ..

(Second variant of Embodiment 1)
In the second modification of the first embodiment, the QR code analysis device provided separately from the security server 100 and the group management control device 10 analyzes and uses the QR code data output from the QR code reader 29. An example of acquiring the person ID and the changed destination floor will be described.

FIG. 18 is a block diagram showing a system configuration of an elevator system in the second modification of the first embodiment.

The QR code analysis device 300 is composed of a computer having a control unit, a storage unit, an input / output interface, and the like, similarly to the group management control device 10 and the like. The QR code reader 29 outputs the read QR code data to the QR code analysis device 300. The QR code analysis device 300 analyzes (decodes) the QR code data output from the QR code reader 29, acquires the user ID and the changed destination floor from the QR code data, and obtains the acquired user ID and the changed destination floor. Information for specifying the QR code reader 29, which is the output source of the QR code data, is transmitted to the group management control device 10. As the information for specifying the QR code reader 29, for example, information on the installation floor and location of the security gate 20 in which the QR code reader 29 is arranged is used. The information that identifies the QR code reader 29 may be the serial number of the QR code reader 29 or the like.

The security server 100 performs processing according to the flowchart of FIG. 16, as in the first modification of the first embodiment.

The group management control device 10 performs processing according to the flowchart of FIG.

FIG. 19 is a flowchart illustrating the allocation process by the group management control device 10 in the second modification of the first embodiment.

The process of this flowchart is executed when the group management control device 10 receives a call information signal for a new call from the security server 100. In addition, each time a call information signal for a new call is received, it is executed in parallel. In the flowchart of FIG. 19, step S52 is omitted, steps S114, S116A, S118A, and S126 are added after step S51, and step S119 is added after step S54 with respect to the flowchart of FIG. 13 of the first embodiment. Step S131 is added after step S57.

Specifically, when the group management control device 10 receives the call information signal from the security server 100, it acquires various information included in the call information signal (S51) and sets the current time to the face recognition time ct (S114). ..

The group management control device 10 determines whether or not the user ID and the information of the changed destination floor have been received from the QR code analysis device 300 regarding the departure floor and the location indicated by the call information signal (S116A).

When the user ID and the information of the changed destination floor are received from the QR code analysis device 300 regarding the departure floor and the location indicated by the call information signal (YES in S116A), the group management control device 10 receives from the QR code analysis device 300. It is determined whether or not the used user ID matches the user ID indicated by the call information signal (S118A). The reason for determining the match of the user IDs in this way is the same reason as described in step S18 of the first embodiment.

When the user ID received from the QR code analysis device 300 matches the user ID indicated by the call information signal (YES in S118A), the group management control device 10 processes the steps S53 and S54 as in the first embodiment. Is executed, and when it is determined in step S54 that the changed destination floor is included in the permitted floor (YES in S54), the changed destination floor is set as the user's destination floor (S119). After that, the group management control device 10 executes the processing after step S55 as in the first embodiment.

In step S116A described above, when the user ID and the information of the changed destination floor are not received from the QR code analysis device 300 regarding the departure floor and the location indicated by the call information signal (NO in S116A), the group management control device 10 , It is determined whether or not the predetermined time T (seconds) has elapsed from the face recognition time ct (S126). The predetermined time T (seconds) is set to a value obtained by adding a slight margin time to the standard time from the user performing face recognition to the completion of reading the QR code, for example, 2 (seconds). ).

When the predetermined time T (seconds) has not elapsed from the face authentication time ct (NO in S126), the group management control device 10 returns to the process of step S116A.

When a predetermined time T (seconds) has elapsed from the face authentication time ct (YES in S126), the group management control device 10 executes the process of step S57 as in the first embodiment, and the value of the default destination floor in step S57. If it is determined that is registered (YES in S57), the default destination floor is set as the destination floor of the user (S131). After that, the group management control device 10 executes the processing after step S58 as in the first embodiment.

In step S118A described above, when the user ID received from the QR code analysis device 300 does not match the user ID indicated by the call information signal (NO in S118A), the group management control device 10 performs the group management control device 10 after step S57 described above. Execute the process.

The processing in the other apparatus is performed in the same manner as in the first embodiment.

According to this modification, the same effect as that of the first embodiment can be obtained. In addition, since the group management control device 10 performs the process of setting the default destination floor or the changed destination floor as the destination floor, it is not necessary to perform the process in the security server 100, and it is possible to suppress the specification change for the security server 100 as much as possible. .. Further, it is not necessary to analyze the QR code data in the group management control device 100.

(Embodiment 2)
FIG. 20 is a schematic plan view showing the equipment arrangement on a specific floor of the building to which the elevator system according to the second embodiment is applied. FIG. 21 is a block diagram showing a system configuration of the elevator system according to the second embodiment.

In the first embodiment, the QR code reader 29 is arranged at each security gate 20, but in the second embodiment, one QR code reader 29 is arranged at a position away from all the security gates 20. ..

In the present embodiment, each user first causes the QR code reader 29 to read the QR code, and then performs face recognition when passing through any of the security gates 20.

FIG. 22 is a flowchart illustrating the QR code data acquisition process by the security server 100 in the second embodiment.

The control unit 101 of the security server 100 determines whether or not the QR code data has been received from the QR code reader 29 (S71).

When the QR code data is received from the QR code reader 29 (YES in S71), the control unit 101 of the security server 100 sets the current time in the reception time tr of the QR code data (S72).

The control unit 101 of the security server 100 acquires the user ID and the changed destination floor from the QR code data (S73).

The control unit 101 of the security server 100 stores the reception time tr and the changed destination floor in the storage unit 102 in association with the user ID (S74).

The control unit 101 of the security server 100 has a predetermined time T (seconds) from the reception time tr among the reception time tr and the data on the changed destination floor stored in association with the user ID for each user in the storage unit 102. The data that has passed is erased from the storage unit 102 (S75). Then, the process returns to the process of step S71.

In step S71, when the QR code data is not received from the QR code reader 29 (NO in S71), the control unit 101 of the security server 100 executes the determination in step S71 without performing steps S72 to S74. The process returns to the process of step S71.

FIG. 23 is a flowchart illustrating the call information signal generation process by the security server 100 in the second embodiment. The processing of this flowchart is executed for each security gate 20. Further, the processes for each security gate 20 are executed in parallel.

In this flowchart, the same step numbers are assigned to the steps of the same processing as the flowchart of FIG. 12 of the first embodiment. Hereinafter, the differences from the first embodiment will be mainly described.

In the flowchart of FIG. 23, step S14 of the flowchart of FIG. 12 of the first embodiment is omitted. Further, step S201 is provided instead of steps S16 to S18 and S27 in the flowchart of FIG. 12 of the first embodiment.

Specifically, after the security server 100 executes the processes of steps S11, S12, S13, and S15 in FIG. 23 in the same manner as in the first embodiment, the storage unit 102 stores the changed destination floor in association with the user ID. It is determined whether or not it is (S201).

When the changed destination floor is stored in the storage unit 102 in association with the user ID (YES in S201), the security server 100 executes the processing after step S19 in the same manner as in the first embodiment.

On the other hand, when the change destination floor is not stored in the storage unit 102 in association with the user ID (NO in S201), the security server 100 executes the processing after step S28 in the same manner as in the first embodiment.

The processing in other devices such as the group management control device 10 is performed in the same manner as in the first embodiment. For example, the group management control device 10 executes the allocation process according to the flowchart of FIG. 13 of the first embodiment.

According to the present embodiment, by integrating the QR code reader 29 into one unit, it is possible to improve the convenience of changing the destination floor by the user while reducing the device cost. In particular, in a building or the like where there are few users who change the destination floor, even one QR code reader 29 may be sufficient, and this embodiment is suitable for such a case.

In the second embodiment, an example in which the security server 100 analyzes the QR code data output from the QR code reader 29 to acquire the user ID and the changed destination floor has been described. Not limited. In the present invention, the group management control device 10 or another analysis device may analyze the QR code data output from the QR code reader 29 to acquire the user ID and the changed destination floor. Hereinafter, the first modification and the second modification of the second embodiment will be described.

(First Modification Example of Embodiment 2)
In the first modification of the second embodiment, an example in which the group management control device 10 analyzes the QR code data output from the QR code reader 29 to acquire the user ID and the changed destination floor will be described.

FIG. 24 is a block diagram showing the system configuration of the elevator system in the first modification of the second embodiment.

In the first modification of the second embodiment, the QR code reader 29 is connected to the group management control device 10 and outputs the QR code data to the group management control device 10. Then, the group management control device 10 analyzes the QR code data output from the QR code reader 29, and acquires the user ID and the changed destination floor from the QR code data.

More specifically, in the first modification of the second embodiment, the group management control device 10 executes the QR code data acquisition process shown in the flowchart of FIG. 22 described above. Further, the call information signal generation process is executed by the security server 100 according to the flowchart of FIG. 16 as in the first modification of the first embodiment. The group management control device 10 executes the allocation process according to the flowchart of FIG.

FIG. 25 is a flowchart illustrating the allocation process by the group management control device 10 in the first modification of the second embodiment.

The process of this flowchart is executed when the group management control device 10 receives a call information signal for a new call from the security server 100. In addition, each time a call information signal for a new call is received, it is executed in parallel. In the flowchart of FIG. 25, step S301 is provided in place of steps S114, S116 to S118, and S126 of the flowchart of FIG. 17 of the first modification of the first embodiment.

Specifically, in step S301, the group management control device 10 determines whether or not the changed destination floor is stored in association with the user ID in the storage unit 12 (S301).

When the changed destination floor is stored in the storage unit 12 in association with the user ID (YES in S301), the group management control device 10 performs the processing after step S53 as in the first modification of the first embodiment. To execute.

On the other hand, when the change destination floor is not stored in the storage unit 12 in association with the user ID (NO in S301), the group management control device 10 is stepped in the same manner as in the first modification of the first embodiment. The processing after S57 is executed.

The processing in the other apparatus is performed in the same manner as in the first embodiment.

According to this modification, the same effect as that of the second embodiment can be obtained. In addition, since the group management control device 10 performs the process of setting the default destination floor or the changed destination floor as the destination floor, it is not necessary to perform the process in the security server 100, and it is possible to suppress the specification change for the security server 100 as much as possible. ..

(Second variant of Embodiment 2)
In the second modification of the second embodiment, the QR code analysis device provided separately from the security server 100 and the group management control device 10 analyzes and uses the QR code data output from the QR code reader 29. An example of acquiring the person ID and the changed destination floor will be described.

FIG. 26 is a block diagram showing the system configuration of the elevator system in the second modification of the second embodiment.

The QR code analysis device 300 has the same configuration as the second modification of the first embodiment, and performs the same processing as the second modification.

The security server 100 performs processing according to the flowchart of FIG. 16, as in the first modification of the first embodiment.

FIG. 27 is a flowchart illustrating the allocation process by the group management control device 10 in the second modification of the second embodiment.

The process of this flowchart is executed when the group management control device 10 receives a call information signal for a new call from the security server 100. In addition, each time a call information signal for a new call is received, it is executed in parallel. In the flowchart of FIG. 27, step S301A is provided in place of step S301 of the flowchart of FIG. 25 of the first modification of the second embodiment.

Specifically, in step S301A, the group management control device 10 determines whether or not the changed destination floor is stored in association with the user ID in the QR code analysis device (S301A).

When the changed destination floor is stored in association with the user ID (YES in S301A), the group management control device 10 executes the processing after step S53 in the same manner as in the first modification of the second embodiment.

On the other hand, when the changed destination floor is not stored in association with the user ID (NO in S301A), the group management control device 10 performs the processing after step S57 as in the first modification of the second embodiment. To execute.

According to this modification, the same effect as that of the second embodiment can be obtained. In addition, since the group management control device 10 performs the process of setting the default destination floor or the changed destination floor as the destination floor, it is not necessary to perform the process in the security server 100, and it is possible to suppress the specification change for the security server 100 as much as possible. .. Further, it is not necessary to analyze the QR code data in the group management control device 100.

The processing in the other apparatus is performed in the same manner as in the second embodiment.

(Other embodiments)
In the first embodiment, in steps S16 and S27 of FIG. 12, when it is determined that T seconds have elapsed from the face authentication time ct without receiving the QR code data (NO in S16), the step is step 1. The processing after S28 is executed. That is, the destination floor change flag is set to OFF (S28), a call information signal including the default destination floor information is generated and transmitted to the group management control device 10 (S32). However, instead of the determination in step S27, it may be determined whether or not the user is detected by the first sensor 26 of the security gate 20. That is, it may be determined whether or not the user is in the process of passing through the security gate 20. In this case, if the QR code data is not received (NO in S16) and the user is detected by the first sensor 26 of the security gate 20, the processing after step S28 is immediately executed. That is, a call information signal is immediately generated and transmitted to the group management control device 10, and the allocation process is executed. Therefore, the user can receive the elevator allocation without waiting for the elapse of the predetermined time T (seconds). On the other hand, if the user is not detected by the first sensor 26 of the security gate 20, the process returns to the determination in step S16.

In each of the above-described embodiments and modifications, the QR code stores not only the information of the user ID but also the information of the user ID, so that the identity of the face-authenticated user and the user holding the QR code can be obtained. I try to confirm. However, in a building environment where it is unlikely that the user will be crowded to the extent that the user passes through the security gate 20 one after another, the face-authenticated user and the user holding the QR code are almost the same. Therefore, in a building environment where the above-mentioned congestion situation is unlikely to occur, the user ID information may not be stored in the QR code. In this case, the user ID field is not required in the user DB of FIG. Further, for example, in the first embodiment, the processing of steps S15 and S18 in the flowchart of FIG. 12 is unnecessary. Further, in step S17, only the changed destination floor needs to be acquired from the QR code data.

In each of the above-described embodiments and modifications, the security server 100 performs face detection processing and face feature point detection processing on the captured image indicated by the image data output from the face recognition camera 25, and also performs face recognition. Although an example of performing the treatment has been described, the present invention is not limited to this. For example, the controller of the face recognition camera 25 may perform face detection processing and face feature point detection processing on the captured image, and the security server 100 may perform only face recognition processing. That is, the process of "performing the face authentication of the user based on the captured image captured by the imaging unit" may be shared between the face authentication camera 25 and the security server 100. In this case, the face authentication camera 25 outputs face feature point data (face data) to the security server 100 instead of the image data of the captured image. Further, the security server 100 performs face authentication processing based on the received face data (face feature point data).

In each of the above-described embodiments and modifications, the QR code reader 29 uses the optically read QR code image data (QR code data) of the security server 100, the group management control device 10, and the QR code analysis device 300. The present invention is not limited to this, although the user ID is acquired by transmitting to a predetermined device among the predetermined devices and analyzing the QR code data. For example, in the first and second embodiments, the controller of the QR code reader 29 acquires the user ID and the information of the changed destination floor by analyzing the QR code data, and the acquired user ID and the changed destination. The floor may be transmitted to the security server 100. In this case, the security server 100 may use the received user ID and the changed destination floor as they are. Further, in the first modification of the first embodiment and the first modification of the second embodiment, the controller of the QR code reader 29 analyzes the QR code data to obtain the user ID and the changed destination floor. The acquired user ID and the changed destination floor may be transmitted to the group management control device 10. In this case, the group management control device 10 may use the received user ID as it is.

In each of the above-described embodiments and modifications, the security gate 20 provided with the gate flapper 28 is exemplified as the gate in the present invention, but the gate is not limited thereto. In the present invention, the gate may not be provided with a gate flapper. In this case, the control related to the opening and closing of the gate flapper described in the above embodiment may be omitted.

In the above embodiment, the case where the QR code reader 29 is installed only in the security gate 20 is illustrated, but the QR code reader may be installed in each destination floor registration device 30 on each floor. In this case, also for these QR code readers, the security server 100 and the group management control device 10 are the same as in the first modification of the first embodiment, the first modification of the first embodiment, and the second modification of the first embodiment. , And a predetermined device among the QR code analysis devices 300. Each device such as the security server 100, the group management control device 10, and the QR code analysis device 300 will be described in the first embodiment, the first modification of the first embodiment, and the second modification of the first embodiment. Control may be performed according to each of the flow charts. Since the destination floor registration device 30 does not have a gate flapper, control related to opening and closing of the gate flapper may be omitted.

In each of the above-described embodiments and modifications, the QR code is exemplified as the predetermined information in the present invention, but the predetermined information is not limited thereto. The predetermined information may be a two-dimensional bar code other than the QR code, a general one-dimensional bar code, or a color bar code such as a chameleon code (registered trademark). Further, the predetermined information may be electromagnetic information that can be read by NFC (Near Field Communication).

In each of the above-described embodiments and modifications, the mobile terminal 200 capable of displaying a QR code is exemplified as the information recording medium in the present invention, but the information recording medium is not limited thereto. The information recording medium may be any as long as it can store or record predetermined information. For example, the information recording medium may be a printed matter such as paper on which predetermined information such as a QR code is printed. Further, the information recording medium may be a mobile terminal that can be read by NFC (Near Field Communication) and stores predetermined information.

In each of the above-described embodiments and modifications, the QR code reader 29 is exemplified as the information acquisition unit in the present invention, but the information acquisition unit is not limited thereto. The information acquisition unit may be any as long as it can acquire predetermined information from the information recording medium used. For example, a two-dimensional bar code reader that reads a two-dimensional bar code, a one-dimensional bar code reader that reads a one-dimensional bar code, a chameleon code reader (camera) that reads a chameleon code, or the like may be used. Further, the information acquisition unit may be a reader that reads predetermined information by NFC (Near Field Communication). When an information acquisition unit other than the QR code reader 29 is arranged in the security gate 20, it may be arranged in place of the QR code reader 29. Alternatively, the information acquisition unit may be a reader capable of both reading predetermined information such as a QR code and reading predetermined information by NFC (Near Field Communication).

In each of the above-described embodiments and modifications, as the predetermined device in the present invention, a mobile terminal 200 capable of generating and displaying a QR code based on a user's operation is exemplified, but the predetermined device is not limited to this. The predetermined device may be any device as long as it can generate predetermined information such as a QR code based on the operation of the user. For example, the predetermined device may be a desktop computer or a notebook computer that generates predetermined information such as a QR code based on the operation of the user and prints it with a printer. The information recording medium in this case is a printed matter such as paper on which predetermined information such as a QR code is printed.

In each of the above-described embodiments and modifications, the control unit of each device is configured by using a CPU, MPU, or the like, and performs arithmetic processing by using various data or the like based on a program read from the storage unit. By doing so, various functions are realized. That is, each control unit is realized by the cooperation of hardware and software. However, each control unit may be configured by using, for example, only hardware (electronic circuit), FPGA, ASIC, or the like.

In each of the above-described embodiments and modifications, the network is Ethernet, and the input / output interface of each device is configured by using a LAN adapter or the like. However, this is an example, and the network may be configured by, for example, a wireless LAN conforming to the IEEE standard, and the input / output interface may be configured by a wireless LAN adapter or the like.

It is not essential that the security server 100, the group management control device 10, the elevator control device 40, and the QR code analysis device 300 in each of the embodiments and modifications are installed in the building where the elevator 60 is arranged. For example, for any of these devices, the function of the device may be executed by the cloud server. In this case, the exchange of various signals and information between the security gate 20, the destination floor registration device 30, the gate display 70, and the like installed in the building where the elevator 60 is arranged and the cloud server is appropriate communication. It may be performed by communication using a method.

A plurality of aspects of the present invention have been described in each of the above embodiments and modifications. However, the specific embodiment of the present invention is not limited to the above-described embodiments and modifications, and may be a combination thereof.

(Summary and effects of embodiments)
(1) The elevator system of the embodiment is
It is an elevator system that sets the destination floor of the user before boarding the elevator of the user.
An image pickup unit (for example, a face recognition camera 25) provided so as to be able to take an image of a user who is going to pass through a gate (for example, a security gate 20) arranged on a movement route to an elevator landing.
An information acquisition unit (for example, a QR code reader 29) that is arranged near the gate and acquires predetermined information (for example, a QR code) from an information recording medium (for example, a mobile terminal 200) possessed by the user.
A face recognition unit (for example, security server 100) that authenticates the user's face based on the captured image captured by the image pickup unit, and
A destination floor setting unit (for example, a security server 100 or a group management control device 10) for setting a user's destination floor is provided.
The destination floor setting section is
If the face authentication unit succeeds in face authentication and the information acquisition unit does not acquire the specified information, the default destination floor specified based on the face authentication is set as the user's destination floor.
When the face authentication unit succeeds in face authentication of the user and the information acquisition unit acquires the predetermined information, the changed destination floor indicated by the predetermined information is set as the user's destination floor.

With this configuration, when a user passes through a gate using face recognition (for example, security gate 20), not only the default destination floor but also the changed destination floor can be registered.

(2) In the elevator system of the embodiment
Predetermined information (for example, QR code) further stores user identification information (for example, user ID), and stores the user identification information (for example, user ID).
The destination floor setting unit (for example, the security server 100 or the group management control device 10) is
When the predetermined information is acquired by the information acquisition unit (for example, QR code reader 29) within the predetermined time (for example, T (seconds)) after the successful face authentication, it is based on the user identification information and the face authentication indicated by the predetermined information. Judging whether or not it matches the user identification information identified in
If they match, the changed destination floor indicated by the specified information is set as the user's destination floor, and the result is set.
If they do not match, the default destination floor specified based on face recognition is set as the user's destination floor.

With this configuration, it is possible to prevent the destination floor of the user specified based on the face recognition from being changed based on the changed destination floor indicated by the predetermined information of another user.

(3) The elevator system of the embodiment is
A group management control device (group management control device 10) that allocates the set destination floor of the user to any of a plurality of elevators is further provided.

With this configuration, the above-mentioned effects can be obtained in an elevator system in which the group management control device allocates destination floors to a plurality of elevators.

(4) In the elevator system of the embodiment
Predetermined information (for example, QR code) is generated based on the user's operation on the predetermined device (for example, mobile terminal 200).
A notification unit (for example, a gate display 70) for notifying the user of the assigned elevator name is provided.
The group management control device (group management control device 10) does not allocate an elevator when the changed destination floor is set as the user's destination floor and the changed destination floor does not actually exist, and the notification unit does not allocate the elevator. Is notified of information indicating that the changed destination floor is a non-existent floor instead of the assigned elevator name.

With this configuration, when the user sets a non-existent floor as the changed destination floor, the user can recognize it.

(5) In the elevator system of the embodiment
Predetermined information (for example, QR code) is generated based on the user's operation on the predetermined device (for example, mobile terminal 200).
A notification unit (for example, a gate display 70) for notifying the user of the assigned elevator name is provided.
The group management control device (group management control device 10) is used in the elevator when the changed destination floor is set as the user's destination floor and the changed destination floor is not permitted to be used by the user. Instead of assigning, the notification unit is notified of information indicating that the changed destination floor is a floor that is not permitted to be used by the user, instead of the assigned elevator name.

With this configuration, when the user sets a floor for which use is not permitted, the user can recognize that.

(6) In the elevator system of the embodiment
A notification unit (for example, a gate display 70) for notifying the user of the assigned elevator name is provided.
In the destination floor setting unit (for example, security server 100 or group management control device 10), the face authentication of the user was successful in the face authentication unit, but the information acquisition unit (for example, QR code reader 29) determines predetermined information (for example, QR code). If the default destination floor of the user specified based on face recognition is not registered, the destination floor unset information is set as the destination floor of the user.
When the destination floor unset information is set as the destination floor of the user, the group management control device (group management control device 10) does not allocate the elevator, and instead of the assigned elevator name, the notification unit is assigned. The destination floor registration device (destination floor registration device 30) notifies the information prompting the registration of the destination floor.

With this configuration, when the default destination floor of the user is not set, the user can be urged to register the destination floor with the destination floor registration device 30. In addition, by making it possible to set information that has not been set on the destination floor, wasteful calls are less likely to occur, and elevator operation efficiency can be improved.

(7) In the elevator system of the embodiment
The information acquisition unit (for example, QR code reader 29) optically reads predetermined information (for example, QR code) and reads the predetermined information (for example, QR code).
A server (for example, security server 100) that controls the gate (for example, security gate 20) analyzes predetermined information optically read and acquires information on the changed destination floor.

With this configuration, a server (for example, the security server 100) can analyze predetermined information and acquire information on the changed destination floor.

(8) In the elevator system of the embodiment
The information acquisition unit (for example, QR code reader 29) optically reads predetermined information (for example, QR code) and reads the predetermined information (for example, QR code).
The group management control device (group management control device 10) analyzes the optically read predetermined information and acquires the information of the changed destination floor.

With this configuration, the group management control device (group management control device 10) can analyze predetermined information (for example, QR code) and acquire information on the changed destination floor.

(9) In the elevator system of the embodiment
The information acquisition unit (for example, QR code reader 29) optically reads predetermined information (for example, QR code) and reads the predetermined information (for example, QR code).
Separately from the destination floor setting unit (for example, the security server 100 or the group management control device 10) and the group management control device (group management control device 10), the optically read predetermined information is analyzed and the information on the changed destination floor is obtained. Further includes an analysis device (for example, QR code analysis device 300) for acquisition.

With this configuration, predetermined information (for example, QR code) can be analyzed by an analysis device (for example, QR code analysis device 300) to acquire information on the changed destination floor.

10 Group management control device 11 Control unit 12 Storage unit 13 Input / output interface 20 Security gate 20a Gate body 20i Entrance 20e Exit 25 Face authentication camera 26 1st sensor 27 2nd sensor 28 Gate flapper 29 QR code reader 30 Destination floor registration device 31 Control unit 32 Storage unit 33 Input / output interface 34 Display unit 35 Operation unit 36 Face authentication camera 40, 40A to 40F Elevator control device 60, 60A to 60F Elevator 70 Gate display 100 Security server 101 Control unit 102 Storage unit 103 Output interface 200 Mobile terminal 210 Display unit 300 QR code analyzer T Predetermined time

Claims (9)

It is an elevator system that sets the destination floor of the user before boarding the elevator of the user.
An image pickup unit provided so that a user who is going to pass through a gate arranged on the movement route to the elevator landing can be imaged.
An information acquisition unit that is arranged in or near the gate and acquires predetermined information from an information recording medium possessed by the user, and an information acquisition unit.
A face recognition unit that authenticates the user's face based on the captured image captured by the image pickup unit, and a face recognition unit.
It is equipped with a destination floor setting unit that sets the destination floor of the user.
The destination floor setting unit is
If the face authentication unit succeeds in face authentication of the user and the information acquisition unit does not acquire the predetermined information, the user's destination is the default destination floor specified based on the face authentication. Set as a floor,
When the face authentication unit succeeds in face authentication of the user and the information acquisition unit acquires the predetermined information, the changed destination floor indicated by the predetermined information is set as the destination floor of the user. ,
Elevator system. The predetermined information further stores user identification information, and
The destination floor setting unit is
When the predetermined information is acquired by the information acquisition unit within a predetermined time after the successful face authentication, the user identification information indicated by the predetermined information and the user identification information specified based on the face authentication match. Judge whether to do it or not,
If they match, the changed destination floor indicated by the predetermined information is set as the destination floor of the user.
If they do not match, the default destination floor specified based on face recognition is set as the destination floor of the user.
The elevator system according to claim 1. Further equipped with a group management control device that allocates the set destination floor of the user to any of a plurality of elevators.
The elevator system according to claim 1 or 2. The predetermined information is generated based on the operation of the user with respect to the predetermined device.
A notification unit for notifying the user of the assigned elevator name is further provided.
When the changed destination floor is set as the destination floor of the user, the group management control device does not allocate an elevator when the changed destination floor does not actually exist, and the notification unit is notified of the above. Instead of the assigned elevator name, the information indicating that the changed destination floor is a non-existent floor is notified.
The elevator system according to claim 3. The predetermined information is generated based on the operation of the user with respect to the predetermined device.
A notification unit for notifying the user of the assigned elevator name is further provided.
The group management control device allocates an elevator when the changed destination floor is set as the destination floor of the user and the changed destination floor is a floor that is not permitted to be used by the user. Instead of the assigned elevator name, the notification unit is notified of information indicating that the changed destination floor is a floor that is not permitted to be used by the user.
The elevator system according to claim 3. A notification unit for notifying the user of the assigned elevator name is further provided.
In the destination floor setting unit, the user specified based on the face authentication when the face authentication unit succeeds in face authentication of the user but the information acquisition unit does not acquire the predetermined information. If the default destination floor of is not registered, the destination floor unset information is set as the destination floor of the user, and
When the destination floor unset information is set as the destination floor of the user, the group management control device does not allocate an elevator, and instead of the assigned elevator name, the notification unit is assigned to the destination floor. Notify the information prompting you to register the destination floor with the registration device,
The elevator system according to claim 3. The information acquisition unit optically reads the predetermined information and reads the predetermined information.
The server that controls the gate analyzes the predetermined information optically read and acquires the information of the changed destination floor.
The elevator system according to any one of claims 3 to 6. The information acquisition unit optically reads the predetermined information and reads the predetermined information.
The group management control device analyzes the predetermined information optically read and acquires the information of the changed destination floor.
The elevator system according to any one of claims 3 to 6. The information acquisition unit optically reads the predetermined information and reads the predetermined information.
In addition to the destination floor setting unit and the group management control device, an analysis device that analyzes the optically read predetermined information and acquires the information of the changed destination floor is further provided.
The elevator system according to any one of claims 3 to 6.

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