JP7298659B2 - Information processing method and information processing system - Google Patents

Description

The present invention relates to an information processing method and an information processing system.

With the diversification of working styles due to the introduction of remote work, etc., the adoption of free address, which allows employees to freely choose their seats, is spreading as a form of work in the office. However, with the free address system, if it is not possible to ascertain who is sitting in which seat, face-to-face work and work management may be hindered. On the other hand, conventionally, each employee has adopted a method of declaring the seat to be used by performing an input operation for designating a seat on a screen (for example, Patent Document 1).

JP 2009-37555 A

However, in the above-described conventional method, there is a problem that it is necessary to perform an input operation for declaring the position of the seat to be used (own position) each time the use of the seat is started, which is troublesome.

SUMMARY OF THE INVENTION An object of the present invention is to provide an information processing method and an information processing system capable of reducing the labor involved in reporting a position.

Further, in order to solve the above problems, an information processing method according to the present invention includes:
The at least one second processor in an information processing system comprising an information processing device comprising at least one first processor, a peripheral device whose installation position is determined, and a position specifying device comprising at least one second processor. An information processing method performed by one processor and the at least one second processor, comprising:
the at least one first processor;
Acquiring device identification information that can identify the peripheral device from the peripheral device via the communication connection when the information processing device is connected to the peripheral device for communication;
transmitting the obtained device identification information and user identification information that can identify a user of the information processing device to the position identification device;
The at least one second processor ,
When the information regarding the installation position of the peripheral device specified by the device identification information received from the information processing device is not included in the installation position information regarding the installation position, Acquiring information related to the installation position of the device, adding the acquired information to the installation position information,
The position of the user is specified based on the device identification information and the user identification information received from the information processing device, and the installation position information.

Further, in order to solve the above problems, an information processing system according to the present invention includes:
an information processing device having at least one first processor;
a peripheral device whose installation position is determined;
a locating device having at least one second processor;
with
The at least one first processor,
Acquiring device identification information that can identify the peripheral device from the peripheral device via the communication connection when the information processing device is connected to the peripheral device for communication;
transmitting the obtained device identification information and user identification information that can identify a user of the information processing device to the position identification device;
The at least one second processor ,
When the information regarding the installation position of the peripheral device specified by the device identification information received from the information processing device is not included in the installation position information regarding the installation position, Acquiring information related to the installation position of the device, adding the acquired information to the installation position information,
The position of the user is specified based on the device identification information and the user identification information received from the information processing device, and the installation position information.

According to the present invention, it is possible to reduce the time and effort involved in reporting a position.

1 is a block diagram showing the configuration of an information processing system; FIG. It is a figure which shows the example of arrangement|positioning of the apparatus which comprises an information processing system. Fig. 3 shows a seat unit; It is a block diagram which shows the functional structure of a terminal device. 3 is a block diagram showing the functional configuration of a peripheral device; FIG. It is a block diagram which shows the functional structure of a server. FIG. 5 is a diagram showing an example of contents of installation position data; FIG. 4 is a diagram showing an example of contents of user position data; It is a figure which shows the example of the content of seating chart data. 7 is a flowchart showing a control procedure of peripheral device detection processing; 4 is a flowchart showing a control procedure of user position specifying processing; It is a figure which shows the example of a seating chart screen.

BEST MODE FOR CARRYING OUT THE INVENTION Hereinafter, embodiments according to the present invention will be described with reference to the drawings.

<Overview of information processing system>
FIG. 1 is a block diagram showing the configuration of an information processing system 1 of this embodiment.
The information processing system 1 includes a plurality of terminal devices 10 (information processing devices), a plurality of peripheral devices 20, and a server 30 (position specifying device). The information processing system 1 is used to manage seats on floors where free seating is adopted. Free address is an office style in which each person belonging to an organization is not assigned a fixed seat and can freely select a seat from a plurality of seats each time. In this embodiment, a free address system is applied at a certain place of work, and the information processing system 1 manages the seats of a plurality of employees who work at this place of work. Below, the floor where a plurality of employees work in this place of work is referred to as a "working floor".

The terminal device 10 is a portable information processing device used by an employee at work (hereinafter referred to as user U), and is, for example, a notebook PC (Personal Computer). In this embodiment, the terminal device 10 used by each user U is fixed, but a plurality of terminal devices 10 may be shared by a plurality of users U. FIG. Each of the plurality of terminal devices 10 can be connected to the server 30 via the communication network N and can transmit and receive data to and from the server 30 . The communication network N is, for example, the Internet, but is not limited to this, and may be another network such as a LAN (Local Area Network). The communication paths between the terminal device 10 and the communication network N and between the server 30 and the communication network N may include wireless communication paths. For example, the terminal device 10 may perform wireless communication with an access point for connecting to the communication network N. FIG. Also, the terminal device 10 can be connected for communication with any one of the plurality of peripheral devices 20 .

The peripheral device 20 is a peripheral device of the terminal device 10 that is used while being connected for communication with the terminal device 10 via the wiring 40 . In this embodiment, the communication connection between the terminal device 10 and the peripheral device 20 is a wired communication connection. In this embodiment, an example in which the peripheral device 20 is an external display will be described. The peripheral device 20 has a predetermined installation position on the work floor. Further, the peripheral device 20 is handled by the user of the peripheral device 20 in a state of communication connection with the terminal device 10 . Here, being handled by the user U means that the user U manually operates the peripheral device 20, the user U visually recognizes the output result of the peripheral device 20, or the peripheral device 20 and another device (for example, a terminal) are connected to each other. It includes the user U's wiring connection with the device 10), and does not include remote control of the peripheral device 20 from a range out of the user's U's reach. Therefore, the peripheral device 20 is positioned around (near) the terminal device 10 while being connected for communication with the terminal device 10 .

The number of terminal devices 10 and the number of peripheral devices 20 included in the information processing system 1 may not necessarily match, and the number of peripheral devices 20 may be greater than the number of terminal devices 10 .

The server 30 is a device managed by an administrator of the information processing system 1 . Based on the data received from the terminal device 10, the server 30 identifies the position of each user U on the work floor (the position of the seat being used). In addition, the server 30 generates seating chart data 334 (see FIGS. 6 and 9) relating to the seating chart of the work floor, and in response to a request from the terminal device 10, the peripheral device 20 connected to the terminal device 10 display the seat map screen 60 (see FIG. 12).

FIG. 2 is a diagram showing an arrangement example of devices that constitute the information processing system 1. As shown in FIG.
FIG. 2 is a top view of the working floor. Nine desks DK are placed on the working floor, and two seats S are provided for one desk DK. Therefore, 18 seats Sa to Sr are provided on the working floor. Two peripheral devices 20 corresponding to two seats S are installed on each desk DK. Therefore, 18 peripheral devices 20a to 20r are installed on the work floor, and the installation positions of the peripheral devices 20a to 20r are the seats Sa to Sr, respectively. One desk DK and two seats S provided on the desk DK are collectively referred to as a seat unit SU.

FIG. 3 is a diagram showing the seat unit SU.
Two peripheral devices 20 (displays) are installed on the desk DK of the seat unit SU so that the display screens face opposite directions. The wiring 40 is connected. Other devices such as a keyboard 50 may be placed corresponding to each seat S on the desk DK.

The user of the terminal device 10 can freely select, sit on, and use an available seat S. A user U who uses the seat S connects the terminal device 10 and the peripheral device 20 installed on the seat S by connecting the wiring 40 arranged on the seat S to the terminal device 10 of the user U. do. In the present embodiment, the user U connects the terminal device 10 to a display as the peripheral device 20 for communication, displays the processing result of the terminal device 10 on the display, and performs business. Furthermore, the terminal device 10 and the keyboard 50 may be connected for communication, and the terminal device 10 may be operated by the keyboard 50 . When the work at the seat S is finished, the user U removes the wiring 40 from the terminal device 10 to terminate the communication connection with the peripheral device 20 and leaves the seat.

FIG. 2 illustrates a state in which five users UA to UE are using seats S. As shown in FIG. Terminal devices 10 possessed by users UA to UE are hereinafter referred to as terminal devices 10A to 10E, respectively. In FIG. 2, the user UA uses the seat Sc, and the terminal device 10A is communicatively connected to the peripheral device 20c. A user UB uses the seat Sr, and the terminal device 10B is connected to the peripheral device 20r for communication. Also, the user UC uses the seat Sd, and the terminal device 10C is connected to the peripheral device 20d for communication. A user UD uses the seat Sk, and the terminal device 10D is connected to the peripheral device 20k for communication. Also, the user UE uses the seat Sh, and the terminal device 10E is connected to the peripheral device 20h for communication.

The server 30 only needs to be able to transmit and receive data to and from the terminal device 10 while the user U is using the seat S, and may be installed outside the work floor.

<Configuration of terminal device>
FIG. 4 is a block diagram showing the functional configuration of the terminal device 10. As shown in FIG.
The terminal device 10 includes a CPU 11 (Central Processing Unit), a RAM 12 (Random Access Memory), a storage unit 13, an operation unit 14, a display unit 15, a communication unit 16, an input/output interface 17, a bus 18, and the like. Prepare. Each part of the terminal device 10 is connected via a bus 18 .

The CPU 11 reads out and executes a program 131 stored in the storage unit 13 and performs various arithmetic processing, thereby controlling the operation of the terminal device 10 . The CPU 11 corresponds to a first processor. In addition, the terminal device 10 may have a plurality of first processors (for example, a plurality of CPUs), and the plurality of processes executed by the CPU 11 of the present embodiment are executed by the plurality of first processors. good too. In this case, a plurality of first processors may be involved in common processing, or a plurality of first processors may independently execute different processing in parallel.

The RAM 12 provides a working memory space for the CPU 11 and stores temporary data.

The storage unit 13 is a non-temporary recording medium readable by the CPU 11 as a computer, and stores a program 131 and various data. The storage unit 13 includes, for example, nonvolatile memory such as flash memory. The program 131 is stored in the storage unit 13 in the form of computer-readable program code. Data stored in the storage unit 13 includes user identification data 132 (user identification information) that can identify the user U of the terminal device 10 by distinguishing it from other users U, and the like. The user identification data 132 of this embodiment is a login ID input for authentication of the user U when logging into the terminal device 10 or logging into a network such as an in-house LAN.

The operation unit 14 has a pointing device such as a mouse, a keyboard, and the like, receives position input and key input by the user, and outputs the operation information to the CPU 11 .

The display unit 15 includes a display device such as a liquid crystal display, and performs various displays on the display device according to display control signals from the CPU 11 . When a display as the peripheral device 20 is communication-connected to the terminal device 10, the display by the display unit 15 may not be performed.

The communication unit 16 is a communication module having an antenna, a modulation/demodulation circuit, a signal processing circuit, and the like, and performs communication control corresponding to a communication standard related to wireless communication by wireless LAN, for example. The CPU 11 transmits and receives data to and from the server 30 via the communication section 16 . In this specification, the transmission and reception of data by the CPU 11 via the communication unit 16 may be simply referred to as "the CPU 11 transmits and receives data."

The input/output interface 17 is means for transmitting and receiving data to and from the peripheral device 20, and in this embodiment, a digital interface capable of two-way data communication is used. A specific standard of the input/output interface 17 is not particularly limited, but examples thereof include HDMI (High-Definition Multimedia Interface) (registered trademark) and USB (Universal Serial Bus). The CPU 11 transmits image data of an image to be displayed on the peripheral device 20 to the peripheral device 20 via the input/output interface 17 . The CPU 11 also acquires device identification data 232 and the like, which will be described later, from the peripheral device 20 via the input/output interface 17 .

<Peripheral device configuration>
FIG. 5 is a block diagram showing the functional configuration of the peripheral device 20. As shown in FIG.
The terminal device 10 includes a CPU 21, a RAM 22, a storage section 23, a display section 24, an input/output interface 25, a bus 26, and the like. Each part of the peripheral device 20 is connected via a bus 26 .

The CPU 21 reads out and executes a program 231 stored in the storage unit 23 and performs various arithmetic processing, thereby controlling the operation of the peripheral device 20 .

The RAM 22 provides a working memory space for the CPU 21 and stores temporary data.

The storage unit 23 is a non-temporary recording medium readable by the CPU 21 as a computer, and stores a program 231 and various data. The storage unit 23 includes, for example, nonvolatile memory such as flash memory. The program 231 is stored in the storage unit 23 in the form of computer-readable program code. The data stored in the storage unit 23 includes device identification data 232 (device identification information) that can identify the peripheral device 20 by distinguishing it from other peripheral devices 20 . The device identification data 232 of the present embodiment is a unique code assigned to the peripheral device 20 (hereinafter referred to as peripheral device ID). The peripheral device ID may include the serial number of the peripheral device 20, the manufacturing number, the code indicating the manufacturer name, and the like.

The display unit 24 includes a display device such as a liquid crystal display, and performs various displays on the display device according to display control signals from the CPU 21 .

The input/output interface 25 is means for transmitting and receiving data to and from the terminal device 10, and in this embodiment, a digital interface capable of two-way data communication is used. The same standard as the input/output interface 17 of the terminal device 10 is used for the input/output interface 25 . The CPU 21 receives image data of an image to be displayed on the display unit 24 from the terminal device 10 via the input/output interface 25 . Also, the CPU 21 transmits the device identification data 232 and the like to the terminal device 10 via the input/output interface 25 .

<Server configuration>
FIG. 6 is a block diagram showing the functional configuration of the server 30. As shown in FIG.
The server 30 includes a CPU 31, a RAM 32, a storage unit 33, an operation unit 34, a display unit 35, a communication unit 36, a bus 37, and the like. Each unit of the server 30 is connected via a bus 37 .

The CPU 31 reads out and executes a program 331 stored in the storage unit 33 and performs various arithmetic processing, thereby controlling the operation of the server 30 . The CPU 31 corresponds to a second processor. Note that the server 30 may have a plurality of second processors (for example, a plurality of CPUs), and the plurality of processes executed by the CPU 31 of the present embodiment may be executed by the plurality of second processors. good. In this case, a plurality of second processors may be involved in common processing, or a plurality of second processors may independently execute different processing in parallel.

The RAM 32 provides a working memory space for the CPU 31 and stores temporary data.

The storage unit 33 is a non-temporary recording medium readable by the CPU 31 as a computer, and stores a program 331 and various data. The storage unit 33 includes, for example, nonvolatile memory such as flash memory. The program 331 is stored in the storage unit 33 in the form of computer-readable program code. Data stored in the storage unit 33 include installation position data 332 (installation position information), user position data 333, seating chart data 334, and the like.

FIG. 7 is a diagram showing an example of the contents of the installation position data 332. As shown in FIG.
The installation position data 332 includes information related to the installation positions (here, seats S) of the plurality of peripheral devices 20 . One data line of the installation position data 332 corresponds to one peripheral device 20 . Each data line has data items of "peripheral device", "device identification data", and "installation position".
"Peripheral" represents one peripheral 20 corresponding to that data row.
"Device identification data" is the device identification data 232 (peripheral device ID) of the peripheral device 20 corresponding to the data row.
"Installation position" represents the seat S where the peripheral device 20 corresponding to the data row is installed.
The installation position data 332 is generated, for example, when a plurality of peripheral devices 20 are installed on the work floor, and updated each time the installation position of the peripheral device 20 is changed. By referring to the installation position data 332, it is possible to identify in which seat S the peripheral device 20 specified by the device identification data 232 is installed.

FIG. 8 is a diagram showing an example of contents of the user position data 333. As shown in FIG.
The user position data 333 includes information related to the result of specifying the position of the user U in user position specifying processing, which will be described later. Specifically, each data row of the user location data 333 has data items of "user identification data", "equipment identification data", "user", "peripherals" and "user location".
“User identification data” and “device identification data” are the contents of the user identification data 132 and the device identification data 232 received from the terminal device 10, respectively.
“User” represents the user U specified from the user identification data 132 .
“Peripheral device” represents the peripheral device 20 specified from the device identification data 232 .
"User position" represents the position (seat S) of the user U specified by the user position specifying process.

FIG. 9 is a diagram showing an example of the content of the seating chart data 334. As shown in FIG.
The seating chart data 334 is data relating to the seating chart of the work floor. Each data row of the seating chart data 334 includes data items of "seat", "user" and "usage start time".
"Seat" represents any one of seats Sa to Sr.
"User" represents the user U who uses the seat S corresponding to the data row.
"Use start time" represents the use start time of the seat S corresponding to the data row.
The content of the seating chart data 334 is updated based on the latest user position data 333 each time the user position data 333 is updated.

The operation unit 34 has a pointing device such as a mouse, a keyboard, and the like, receives position input and key input by the user, and outputs the operation information to the CPU 31 .

The display unit 35 includes a display device such as a liquid crystal display, and performs various displays on the display device according to display control signals from the CPU 31 .

The communication unit 36 is a communication module having an antenna, a modulation/demodulation circuit, a signal processing circuit, and the like. The CPU 31 transmits and receives data to and from the terminal device 10 via the communication unit 36 . In this specification, the transmission and reception of data by the CPU 31 via the communication unit 36 may be simply described as "the CPU 31 transmits and receives data."

<Operation of information processing system>
Next, operations of the information processing system 1 will be described.
As described above, the working floor of this embodiment employs a free address system. In the free address system, the seat S used by each user U differs from day to day. It is updated each time it starts (takes a seat) and ends (leaves the seat).

In the information processing system 1 of the present embodiment, in order to save the user U from having to declare the seat S to be used, that is, the position of the user U himself/herself, the user U sits on the seat S and connects the terminal device 10 to the peripheral device. 20, the position of the seat S used by the user U is automatically identified and reflected in the seating chart. In addition, in order to save time and effort when the user U declares the end of use of the seat S, the user U ends the use of the seat S in response to the termination of the communication connection between the terminal device 10 and the peripheral device 20. This is automatically identified and reflected in the seating chart.

Specifically, when the terminal device 10 and any of the peripheral devices 20 are connected for communication, the CPU 11 of the terminal device 10 first acquires the device identification data 232 from the peripheral device 20 connected for communication, and to the server 30 together with the user identification data 132 (peripheral device detection process). Subsequently, the CPU 31 of the server 30 identifies the user U based on the received user identification data 132 and identifies the peripheral device 20 communicatively connected to the terminal device 10 based on the received device identification data 232 . Then, the CPU 31 refers to the installation position data 332, identifies the position of the identified peripheral device 20 as the position of the user U, and generates or updates the seating chart data 334 (user position identification processing).

Further, when the information regarding the installation position of the specified peripheral device 20 is not included in the installation position data 332, the CPU 31 obtains the information regarding the installation position of the peripheral device 20 from the terminal device 10 and installs it. Add to location data 332 .

Further, when the communication connection between the terminal device 10 and the peripheral device 20 is terminated, the terminal device 10 notifies the server 30 (peripheral device detection processing), and the CPU 31 of the server 30 detects the user U in the seating chart data 334. (user position identification processing).

Below, the operation of the information processing system 1 will be described in accordance with the control procedures of these peripheral device detection processing and user position specifying processing.

FIG. 10 is a flowchart showing a control procedure of peripheral device detection processing.
The peripheral device detection process is executed by the CPU 11 of the terminal device 10 . The peripheral device detection process is started when the terminal device 10 is activated, and is continuously executed by a predetermined resident program while the terminal device 10 is activated.

When the peripheral device detection process is started, the CPU 11 of the terminal device 10 determines whether or not a communication connection with the peripheral device 20 has been detected, that is, whether or not a communication connection event has been detected on the resident program. Determine (step S101). The detection of the peripheral device 20 is performed when the terminal device 10 is activated while the terminal device 10 and the peripheral device 20 are connected (that is, when the peripheral device detection process is started in response to activation). This is performed when the terminal device 10 is connected to the peripheral device 20 while the terminal device 10 is running (while the resident program is running). When it is determined that communication connection with the peripheral device 20 is not detected ("NO" in step S101), the CPU 11 executes step S101 again.

When it is determined that the communication connection with the peripheral device 20 is detected (“YES” in step S101), the CPU 11 sends the device identification data 232 that can identify the peripheral device 20 to the peripheral device 20 via the communication connection. (step S102). Further, the CPU 11 identifies the peripheral device 20 based on the device identification data 232 and the like, and performs necessary settings (for example, installation of a device driver) so that the peripheral device 20 can be used.

The CPU 11 acquires the user identification data 132 of the user U using the terminal device 10 (step S103). Here, the CPU 11 acquires the login ID used when logging into the terminal device 10 as the user identification data 132 . Login to the terminal device 10 can be performed by various known authentication processes. For example, the terminal device 10 accepts the input of the login ID and password from the user U, and the combination of the input login ID and password matches the combination of the login ID and password registered in advance as authentication data. If so, user U is authenticated and a login session is initiated.
Instead of the login ID used when logging into the terminal device 10 , the login ID used when logging into a network such as an in-house LAN may be acquired as the user identification data 132 .

The CPU 11 transmits the acquired device identification data 232 and user identification data 132 to the server 30 (step S104). The CPU 11 may also transmit the time when the communication connection with the peripheral device 20 is started to the server 30 as the usage start time of the peripheral device 20 .

The CPU 11 determines whether or not the wiring 40 has been removed and the communication connection with the peripheral device 20 has ended (step S105). When it is determined that the communication connection with the peripheral device 20 has not ended ("NO" in step S105), the CPU 11 executes step S105 again.

When it is determined that the communication connection with the peripheral device 20 has ended (“YES” in step S105), the CPU 11 generates connection end notification data (notification information) for notifying the end of the communication connection and the user identification data 132. to the server 30 (step S106). The CPU 11 may also transmit to the server 30 information about the time when the communication connection with the peripheral device 20 is completed.
When step S106 ends, the CPU 11 ends the peripheral device detection process.

FIG. 11 is a flow chart showing a control procedure of user position specifying processing.
The user position specifying process is executed by the CPU 31 of the server 30 .
When the user position specifying process is started, the CPU 31 of the server 30 determines whether or not the device identification data 232 and the user identification data 132 have been received from the terminal device 10 (step S201). If it is determined that the device identification data 232 and the user identification data 132 have been received ("YES" in step S201), the CPU 31 refers to a database (not shown) that indicates the correspondence between the login ID and the user name. , the user U corresponding to the login ID is specified from the login ID of the received user identification data 132 (step S202). For example, when "U37982" is received as the user identification data 132 (login ID), as shown in the first line of the user position data 333 in FIG. Then, the data representing the user UA is stored in the "user name" data column.

The CPU 31 refers to the installation position data 332 and identifies the peripheral device 20 corresponding to the peripheral device ID of the received device identification data 232 (step S203). For example, when receiving "SN18B341" as the peripheral device ID as shown in the first line of the user position data 333 in FIG. The corresponding peripheral device 20c (the third data row) is specified, and data representing the peripheral device 20c is stored in the data column of "peripheral device" in the user position data 333 of FIG.

The CPU 31 determines whether or not information relating to the installation position of the peripheral device 20 specified in step S203 is recorded in the installation position data 332 (step S204). If it is determined that the information about the installation position of the specified peripheral device 20 is not recorded in the installation position data 332 ("NO" in step S204), the CPU 31 stores the information about the installation position of the peripheral device 20. is acquired from the terminal device 10, and the information is added to the installation position data 332 (step S205). A method for acquiring information about the installation position of the peripheral device 20 from the terminal device 10 is not particularly limited, but for example, a dialogue screen for inputting the seat S being used is displayed on the terminal device 10 (that is, a peripheral display as the device 20), and the information of the seat S input by the user on the dialogue screen is transmitted from the terminal device 10 to the server 30 as information related to the installation position of the peripheral device 20. .

When step S205 ends, or when it is determined in step S204 that the information related to the specified installation position of the peripheral device 20 is recorded in the installation position data 332 (“NO” in step S204), CPU 31 identifies the installation position of peripheral device 20 identified in step S203 as the position of user U, and updates user position data 333 (step S206). For example, when the peripheral device 20c is specified in step S203, the CPU 31 refers to the installation position data 332 of FIG. 7 to specify the seat Sc where the peripheral device 20c is installed. Then, the CPU 31 identifies this seat Sc as the position of the user UA's own seat, and stores data representing the seat Sc in the data column of "user position" in the data row of the user UA in the user position data 333 of FIG. Let

The CPU 31 updates the seating chart data 334 based on the latest user position data 333 (or generates it if the seating chart data 334 does not exist) (step S207). For example, if the seating chart data 334 at the start of step S207 has the contents shown in FIG. 8, the CPU 31 updates the seating chart data 334 to the contents shown in FIG. In this example, seats Sa, Sc, Sh, Sk, and Sr are used by users UC, UA, UE, UD, and UB, respectively, and the remaining seats S are vacant. Table data 334 is updated. When the start time of the communication connection with the peripheral device 20 is received from the terminal device 10, the start time may be used as the use start time for the seat S. Further, in step S201, the CPU 31 may acquire the time at which the device identification data 232 and the user identification data 132 are received, and register the acquired time in the seating chart data 334 as the usage start time of the peripheral device 20. . According to this, even when the communication connection start time is not received from the terminal device 10, the usage start time of the peripheral device 20 can be registered.

When step S207 ends, or when it is determined in step S201 that the device identification data 232 and user identification data 132 have not been received ("NO" in step S201), the CPU 31 It is determined whether or not the connection end notification data and the user identification data 132 have been received (step S208). If it is determined that the connection end notification data and the user identification data 132 have been received ("YES" in step S208), the CPU 31 performs the same processing as in step S202 to specify the user U from the user identification data 132 ( Step S209), in the user position data 333, the information of the position of the specified user U is deleted (step S210). The CPU 31 also updates the seating chart data 334 based on the latest user position data 333, and reflects in the seating chart data 334 that the specified user has finished using the seat S (step S211).

When step S211 ends, or when it is determined in step S208 that the connection end notification data and the user identification data 132 have not been received ("NO" in step S208), the CPU 31 10, it is determined whether or not a request to display the seat map screen 60 has been received (step S212). If it is determined that a request to display the seating chart screen 60 has been received from any terminal device 10 ("YES" in step S212), the CPU 31 sends the latest seating chart data 334 to the terminal device 10. Then, the seat map screen 60 is displayed on the terminal device 10, and the position information of each user is displayed as a list as a seat map (step S213).

FIG. 12 is a diagram showing an example of the seating chart screen 60. As shown in FIG.
The seating chart screen 60 includes a seat display area 61 that schematically shows the usage status of each seat S, and a search bar 62 for searching for the user U. FIG.
In the seat display area 61, the seat S used by the user U among the seats Sa to Sr is colored, and the name of the user U using the seat is displayed on the desk portion of the seat S. FIG. The display mode of the seat display area 61 is not limited to that shown in FIG. 12, and any display mode that enables determination of whether or not each seat S is being used by the user U can be used.

Also, when the user U's name is entered in the search bar 62 and the search button 62a is selected, the position of the seat S in the seat display area 61 is displayed when the user U to be searched is using any seat S. is specified. That is, the seating chart is displayed in a state in which the position of the user U specified by the search can be identified. For example, as shown in FIG. 12, when the name of the user UE is entered in the search bar 62 and the search button 62a is selected, the desk portion of the seat Sh used by the user UE is highlighted with a thick frame, It is shown that the user UE is using the seat Sh. Note that the mode of highlighting is not limited to this, and may be a display mode in which at least one of the chair portion and the desk portion of the seat S is colored, blinked, or enlarged.

Further, as shown in FIG. 12, a user information window 63 in which additional information about the user U to be searched is described may be further displayed according to the search. The user information window 63 displays, for example, the name of the user U, the department to which he/she belongs, the contact information such as the extension number, the use start time of the seat S, and the like. However, the contents displayed on the user information window 63 are not limited to these. The user information window 63 may be displayed as a pop-up superimposed on the seat display area 61 or may be displayed as a separate window from the seat map screen 60 . Further, the user information window 63 may be displayed in response to an operation of selecting a seat Sc or a user name in the seat display area 61, for example, other than when a search is executed using the search bar 62. FIG. The operation of searching for the user U using the search bar 62 and the operation of selecting the seat Sc or the user name in the seat display area 61 are one aspect of the "operation specifying the user".

Returning to FIG. 11, when step S213 ends, or when it is determined in step S212 that a request for displaying the seating chart screen 60 has not been received from any of the terminal devices 10 (" NO"), the CPU 31 determines whether or not an instruction to end the user position specifying process has been issued (step S214). For example, the CPU 11 determines that an instruction to terminate the user position specifying process has been issued when an instruction has been issued to shut down the information processing system 1 at the end of business hours.

When it is determined that an instruction to end the user position specifying process has not been issued ("NO" in step S214), CPU 31 returns the process to step S201 and executes the loop process of steps S201 to S214 again. By repeatedly executing this loop processing, the user position data 333 and the seating chart data 334 are updated each time any user U starts or ends the use of the seat S. Thereby, it is possible to specify the positions of a plurality of users U on the work floor in real time and reflect them in the seating chart.
If it is determined that an instruction to end the user position specifying process has been issued ("NO" in step S214), the CPU 31 ends the user position specifying process.

Note that the positions of all users U do not necessarily have to be specified by the above method. For example, when performing work without connecting the terminal device 10 to the peripheral device 20, data indicating the start and end of use of the seat S is changed to the user identification data by a predetermined input operation on the operation unit 14 of the terminal device 10. 132 to the server 30. Also, in the case where a stationary terminal device is provided at the seat S, similarly, data indicating the start and end of use of the seat S is sent to the server together with the user identification data 132 by a predetermined input operation to the stationary terminal device. 30. In these cases, the CPU 31 of the server 30 should reflect the position of the user U in the user position data 333 based on the data transmitted to the server 30 .

Modifications 1 to 4 of the above embodiment will now be described. In each modified example below, differences from the above embodiment will be explained, and explanations of points common to the above embodiment will be omitted. Also, some or all of the following modified examples 1 to 4 may be combined.

<Modification 1>
Although a display was exemplified as the peripheral device 20 in the above embodiment, the peripheral device 20 is not limited to this.
The peripheral device 20 may be an output device for outputting information input from the terminal device 10, such as a printer as well as a display.
Further, the peripheral device 20 may be an input device that receives an input operation by the user U, such as a keyboard, a pointing device such as a mouse, a video input device such as a web camera, an audio input device such as a microphone, or a digital pen. .
Also, the peripheral device 20 may be a storage device that stores information input from the peripheral device 20, such as a hard disk drive or a flash memory.
Also, the peripheral device 20 may be a power supply device that supplies power to the terminal device 10, such as a table tap or an AC adapter. When connecting a power supply device as the peripheral device 20 to the terminal device 10, a digital interface such as USB-C that can be used for both power supply and data transmission may be used.
Also, the peripheral device 20 may be a communication device that transmits and receives information to and from an external device.

<Modification 2>
As a communication connection between the terminal device 10 and the peripheral device 20, a wired communication connection using the wiring 40 was exemplified. good too. Wireless communication connections in this case include, for example, Bluetooth (registered trademark) and NFC (Near Field Communication).

<Modification 3>
The history of the user position data 333 and/or the history of the seating chart data 334 may be recorded as history data, and the history data may be used for purposes other than the display of the seating chart screen 60, such as personnel analysis. good. For example, the frequency of interactions, personal connections, and compatibility between users U may be analyzed from a combination of users U who tend to use nearby seats S, and the analysis results may be displayed as a map. In addition, machine learning is applied to the correlation between the selection tendency of seat S, such as whether there is a high tendency to sit alone or to form a group, and personnel evaluation, and the learning results are used for human resource development. good too.

<Modification 4>
In the above embodiment, the user identification data 132 as the user identification information is information that can directly identify the user U (login ID in the above embodiment). Information that can indirectly specify the user U may be used. For example, the user identification information includes identification information with which the terminal device 10 (information processing device) used by the user U can be specified. The identification information that can identify the terminal device 10 may be, for example, a serial number or an Ethernet MAC address. In this case, it is possible to specify the position of the terminal device 10 by the method of the above embodiment. A user U using the device 10 can be located.

<effect>
As described above, the information processing method according to the present embodiment is an information processing method executed by the CPU 11 as the computer of the terminal device 10 as the information processing device, and The device identification data 232 that can identify the peripheral device 20 is acquired from the peripheral device 20 via the communication connection when the device is connected to the peripheral device 20 for communication, and the acquired device identification data 232 and the user U of the terminal device 10 to the server 30 that identifies the position of the user U based on the device identification data 232 , the user identification data 132 , and the installation position data 332 related to the installation position of the peripheral device 20 . According to this, by performing an operation to establish communication connection between the terminal device 10 and the peripheral device 20, the information necessary for specifying the position of the user U is transmitted to the server 30, and the position of the user U, That is, the position of the seat S to be used is specified. Here, the operation of connecting the terminal device 10 and the peripheral device 20 for communication is an operation that the user U naturally performs in order to use the peripheral device 20 . Therefore, even if the user U is not particularly conscious of reporting his/her own position (the position of the seat S to be used) (that is, without voluntarily performing an operation for position reporting), the user U can report the position. It can be carried out. Therefore, it is possible to reduce the time and effort involved in reporting the location, and improve the user's convenience. In addition, it is possible to make it less likely that the location will not be reported.

Further, by using a wired communication connection as the communication connection, the terminal device 10 and the peripheral device 20 can be easily and reliably connected on a one-to-one basis. Therefore, the positional relationship between the terminal device 10 operated by the user U and the peripheral device 20 can be specified accurately.

Further, in Modification 2, the communication connection is a wireless communication connection that connects the terminal device 10 and the peripheral device 20 on a one-to-one basis. This saves the trouble of connecting the wiring 40 to the terminal device 10 . Therefore, it is possible to further reduce the time and effort involved in reporting the location.

Also, the user identification data 132 as user identification information includes identification information that can identify the terminal device 10 . According to this, the position of the terminal device 10 can be specified by the above method, and the position of the user U can be specified by linking the user U and the terminal device 10 in advance.

In the above information processing method, the CPU 11 acquires the time when the communication connection between the terminal device 10 and the peripheral device 20 is started, and transmits the acquired time to the server 30 as the usage start time of the peripheral device 20 . Accordingly, the user U can declare the time to start using the peripheral device 20, that is, the time to start using the user's own seat, by a natural operation of connecting the terminal device 10 and the peripheral device 20 for communication.

In the above information processing method, when the terminal device 10 detects the end of the communication connection after the terminal device 10 is connected to the peripheral device 20, the CPU 11 transmits connection end notification data for notifying the end of the communication connection to the server 30. do. According to this, it is possible to make the server 30 recognize that the use of the seat S is ended by the operation of ending the communication connection between the terminal device 10 and the peripheral device 20 . Here, the operation of terminating the communication connection between the terminal device 10 and the peripheral device 20 is a natural action performed by the user U when the use of the peripheral device 20 is terminated. Therefore, even if the user U is not particularly conscious of the notification regarding the end of use of the seat S (that is, even if the user does not voluntarily perform the operation for reporting the end of use of the seat S), the use of the seat S is terminated. can be filed. Therefore, it is possible to reduce the time and effort involved in notifying the end of use of the seat S. In addition, it is possible to make it difficult for the user to fail to declare the end of use of the seat S.

Further, the peripheral device 20 according to Modification 1 includes an output device that outputs information input from the terminal device 10, an input device that receives an input operation by the user U, a storage device that stores information input from the terminal device 10, It is a power supply device that supplies power to the terminal device 10 or a communication device that transmits and receives information to and from an external device. In this way, communication connections with various peripheral devices 20 can be used to declare the user U's location. In particular, by using a power supply device as the peripheral device 20, the position of the user U can be reported by a natural operation of connecting to the power supply device to supply power to the terminal device 10. FIG.

Further, the information processing method according to the present embodiment is an information processing method executed by the CPU 11 of the terminal device 10 and the CPU 31 of the server 30 in the information processing system 1. is connected to the peripheral device 20 for communication, the device identification data 232 that can identify the peripheral device 20 is acquired from the peripheral device 20 via the communication connection, and the acquired device identification data 232 and the user of the terminal device 10 User identification data 132 that can identify U are transmitted to the server 30 . Also, the CPU 31 of the server 30 identifies the position of the user U based on the device identification data 232 and the user identification data 132 received from the terminal device 10 and the installation position data 332 relating to the installation position of the peripheral device 20 . According to this, by performing an operation to establish communication connection between the terminal device 10 and the peripheral device 20, the information necessary for specifying the position of the user U is transmitted to the server 30, and the position of the user U, That is, the position of the seat S to be used is specified. Therefore, the user U can report the position without being particularly conscious of the report of his/her own position. Therefore, it is possible to reduce the time and effort involved in reporting the location, and improve the user's convenience. In addition, it is possible to make it less likely that the location will not be reported.

Further, in the above information processing method, the CPU 31 identifies the user U based on the user identification data 132 received from the terminal device 10 , and connects to the terminal device 10 for communication based on the device identification data 232 received from the terminal device 10 . The determined peripheral device 20 is specified, and the position of the specified peripheral device 20 is specified as the position of the user U based on the installation position data 332 . Thereby, the position of the user U can be specified by a simple process of specifying the position of the peripheral device 20 connected for communication.

The information processing system 1 includes a plurality of terminal devices 10 and a plurality of peripheral devices 20. In the above information processing method, the CPU 31 receives the device identification data 232 received from each of the plurality of terminal devices 10 and the user Based on the identification data 132 and the installation position data 332 relating to the installation positions of the multiple peripheral devices 20, the positions of the multiple users U of the multiple terminal devices 10 are identified. Thereby, the positions of a plurality of users U who use the work floor (the positions of the seats S to be used) can be centrally managed.

In the above information processing method, if the installation position data 332 does not include information related to the installation position of the peripheral device 20 specified by the device identification data 232 received from the terminal device 10, the CPU 31 Information about the installation position of the peripheral device 20 is acquired from the device 10 , and the acquired information is added to the installation position data 332 . Thereby, even if the installation position of the peripheral device 20 is not registered in advance, the position of the user U can be identified. Further, when any terminal device 10 is connected to the peripheral device 20 for communication from the next time onward, the installation position of the peripheral device 20 can be specified by referring to the installation position data 332. can be specified as the position of the user U of the terminal device 10 .

In the above information processing method, the CPU 31 obtains the time when the device identification data 232 and the user identification data 132 are received, and registers the obtained time as the usage start time of the peripheral device 20 . As a result, even when the communication connection start time is not received from the terminal device 10, the use start time of the peripheral device 20 can be identified and registered.

In the information processing method described above, the CPU 31 displays a list of the positions of the user U as a seating chart on the screen of the display unit 15 of the terminal device 10 . Thereby, the position of each user U can be indicated visually in an easy-to-understand manner.

In the information processing method described above, the CPU 31 displays the seating chart in a state in which the position of the identified user U can be identified in response to an operation for identifying the user U. Thereby, arbitrary user U's position can be known easily.

Further, the program 131 according to the present embodiment allows the CPU 11 as a computer of the terminal device 10 to specify the peripheral device 20 when the terminal device 10 is connected for communication with the peripheral device 20 whose installation position is determined. The device identification data 232 includes a function of obtaining the device identification data 232 from the peripheral device 20 via the communication connection, the obtained device identification data 232, and the user identification data 132 capable of specifying the user U of the terminal device 10, and a function of transmitting to the server 30 that specifies the position of the user U based on the user identification data 132 and the installation position data 332 related to the installation position of the peripheral device 20 . According to this, the user U can report the position without being particularly conscious of the report of his/her own position. Therefore, it is possible to reduce the time and effort involved in reporting the location, and improve the user's convenience. In addition, it is possible to make it less likely that the location will not be reported.

Further, the information processing apparatus according to the present embodiment includes a CPU 11, and the CPU 11 is a device identifier capable of identifying the peripheral device 20 when the terminal device 10 is connected for communication with the peripheral device 20 whose installation position is determined. Data 232 is acquired from the peripheral device 20 via the communication connection, and the acquired device identification data 232 and the user identification data 132 capable of specifying the user U of the terminal device 10 are combined into the device identification data 232 and the user identification data 132. , and installation position data 332 relating to the installation position of the peripheral device 20 to the server 30 that identifies the position of the user U. FIG. According to this, the user U can report the position without being particularly conscious of the report of his/her own position. Therefore, it is possible to reduce the time and effort involved in reporting the location, and improve the user's convenience. In addition, it is possible to make it less likely that the location will not be reported.

Further, the information processing system according to the present embodiment includes a terminal device 10 having a CPU 11, a peripheral device 20 whose installation position is determined, and a server 30 having a CPU 31. Device identification data 232 that can identify the peripheral device 20 is acquired from the peripheral device 20 via the communication connection when communication connection is established with the peripheral device 20 whose position is determined, and the acquired device identification data 232 and the terminal User identification data 132 that can identify the user U of the device 10 is transmitted to the server 30, and the CPU 31 receives the device identification data 232 and the user identification data 132 received from the terminal device 10, and the installation position of the peripheral device 20. The location of the user U is specified based on the installation location data 332 and the location data 332 . According to this, the user U can report the position without being particularly conscious of the report of his/her own position. Therefore, it is possible to reduce the time and effort involved in reporting the location, and improve the user's convenience. In addition, it is possible to make it less likely that the location will not be reported.

<Others>
Note that the descriptions in the above embodiments are examples of the information processing method, program, information processing apparatus, and information processing system according to the present invention, and are not limited to these.
For example, in the above embodiment, the case where the terminal device 10 as the information processing device is a notebook PC was illustrated, but the information processing device is not limited to this, and is portable and can be connected to the peripheral device 20 for communication. Any device may be used. For example, the information processing device may be a tablet terminal or a smartphone.

In addition, the user identification data 132 is not limited to the login ID of the user U, and other information that can identify the user U, such as the user U's name, employee number, email address, and owner information registered in the terminal device 10 . It may be any information.

Further, in the above-described embodiment, the seating chart for one work floor is generated as an example, but there may be a plurality of work floors, and the server 30 centrally manages the position of the user U on these work floors. You may

Moreover, the information processing system 1 can be applied to any floor that employs a free address system, and may be applied, for example, to managing students or student seats in school classrooms.

Also, in the above description, an example of using the storage units 13, 23, and 33 as a computer-readable medium for the program according to the present invention has been disclosed, but the present invention is not limited to this example. As other computer-readable media, it is possible to apply information recording media such as HDDs, SSDs, flash memories, and CD-ROMs. A carrier wave is also applied to the present invention as a medium for providing program data according to the present invention via a communication line.

Further, the detailed configurations and detailed operations of the components of the terminal device 10, the peripheral device 20, and the server 30 in the above-described embodiment can of course be changed as appropriate without departing from the gist of the present invention. .

Although embodiments of the present invention have been described, the scope of the present invention is not limited to the above-described embodiments, but includes the scope of the invention described in the claims and equivalents thereof.
The invention described in the scope of claims originally attached to the application form of this application is additionally described below. The claim numbers in the appendix are as in the claims originally attached to the filing of this application.
[Appendix]
<Claim 1>
An information processing method executed by a computer of an information processing device, wherein when the information processing device is connected for communication with a peripheral device whose installation position is determined, device identification information capable of identifying the peripheral device is transmitted to the obtained from said peripheral device over a communication connection;
The acquired device identification information and user identification information that can identify a user of the information processing device are used to determine the location of the user based on the device identification information, the user identification information, and installation position information related to the installation position. An information processing method characterized by transmitting to a position specifying device that specifies the
<Claim 2>
2. An information processing method according to claim 1, wherein said communication connection is a wired communication connection.
<Claim 3>
2. The information processing method according to claim 1, wherein the communication connection is a wireless communication connection that connects the information processing device and the peripheral device one-to-one.
<Claim 4>
4. The information processing method according to claim 1, wherein the user identification information includes identification information that can identify the information processing apparatus.
<Claim 5>
acquiring the time when the communication connection between the information processing device and the peripheral device is started;
transmitting the acquired time to the position specifying device as a usage start time of the peripheral device;
The information processing method according to any one of claims 1 to 4, characterized in that:
<Claim 6>
wherein, when the information processing device detects termination of the communication connection after being connected to the peripheral device for communication, notification information for notifying termination of the communication connection is transmitted to the position specifying device. Item 6. The information processing method according to any one of Items 1 to 5.
<Claim 7>
The peripheral device includes an output device that outputs information input from the information processing device, an input device that receives input operations by the user, a storage device that stores information input from the information processing device, and a storage device that stores information input from the information processing device. 7. The information processing method according to any one of claims 1 to 6, wherein the information processing method is a power supply device that supplies electric power or a communication device that transmits and receives information to and from an external device.
<Claim 8>
The at least one second processor in an information processing system comprising an information processing device comprising at least one first processor, a peripheral device whose installation position is determined, and a position specifying device comprising at least one second processor. An information processing method performed by one processor and the at least one second processor, comprising:
the at least one first processor;
Acquiring device identification information that can identify the peripheral device from the peripheral device via the communication connection when the information processing device is connected to the peripheral device for communication;
transmitting the obtained device identification information and user identification information that can identify a user of the information processing device to the position identification device;
The at least one second processor identifies the position of the user based on the device identification information and the user identification information received from the information processing device, and installation position information related to the installation position. Information processing method.
<Claim 9>
the at least one second processor;
Identifying the user based on the user identification information received from the information processing device;
identifying the peripheral device communicatively connected to the information processing device based on the device identification information received from the information processing device;
9. The information processing method according to claim 8, wherein the specified position of the peripheral device is specified as the position of the user based on the installation position information.
<Claim 10>
The information processing system includes a plurality of the information processing devices and a plurality of the peripheral devices,
the at least one second processor;
of the plurality of information processing devices based on the device identification information and the user identification information received from each of the plurality of information processing devices and the installation position information related to the installation positions of the plurality of peripheral devices; 10. The information processing method according to claim 8 or 9, wherein positions of the plurality of users are specified.
<Claim 11>
the at least one second processor;
When the information regarding the installation position of the peripheral device specified by the device identification information received from the information processing device is not included in the installation position information, the installation position of the peripheral device from the information processing device 11. The information processing method according to any one of claims 8 to 10, further comprising: obtaining positional information, and adding the obtained information to the installation position information.
<Claim 12>
the at least one second processor;
Acquiring the time when the device identification information and the user identification information were received,
registering the obtained time as the usage start time of the peripheral device;
The information processing method according to any one of claims 8 to 11, characterized in that:
<Claim 13>
13. The information processing method according to any one of claims 8 to 12, wherein said at least one second processor displays a list of said user's positions as a seating chart on a screen of a display unit.
<Claim 14>
14. The information processing according to claim 13, wherein said at least one second processor causes said seating chart to be displayed in a state in which said specified user's position can be identified in response to an operation specifying said user. Method.
<Claim 15>
In the computer of the information processing equipment,
a function of acquiring, from the peripheral device via the communication connection, device identification information that enables the peripheral device to be identified when the information processing device is connected to the peripheral device in which an installation position is determined;
The position of the user is determined based on the obtained device identification information and the user identification information that can identify the user of the information processing device based on the device identification information, the user identification information, and the installation position information related to the installation position. the ability to transmit to a locating device to identify;
A program characterized by realizing
<Claim 16>
An information processing device comprising at least one processor,
The at least one processor
when the information processing device is connected for communication with a peripheral device whose installation position is determined, acquires device identification information that can identify the peripheral device from the peripheral device via the communication connection;
The acquired device identification information and user identification information that can identify a user of the information processing device are used to determine the location of the user based on the device identification information, the user identification information, and installation position information related to the installation position. to a position specifying device that specifies the information processing device.
<Claim 17>
an information processing device having at least one first processor;
a peripheral device whose installation position is determined;
a locating device having at least one second processor;
with
The at least one first processor,
Acquiring device identification information that can identify the peripheral device from the peripheral device via the communication connection when the information processing device is connected to the peripheral device for communication;
transmitting the obtained device identification information and user identification information that can identify a user of the information processing device to the position identification device;
The at least one second processor identifies the position of the user based on the device identification information and the user identification information received from the information processing device, and installation position information related to the installation position. information processing system.

1 Information processing system 10, 10A to 10E terminal device (information processing device)
11 CPU (first processor)
12 RAMs
13 storage unit 131 program 132 user identification data (user identification information)
16 communication unit 17 input/output interfaces 20, 20a to 20r peripheral device 21 CPU
22 RAMs
23 storage unit 231 program 232 device identification data (device identification information)
24 display unit 25 input/output interface 30 server (position specifying device)
31 CPU (second processor)
32 RAMs
33 storage unit 331 program 332 installation position data (installation position information)
333 User position data 334 Seat chart data 36 Communication unit 40 Wiring 50 Keyboard 60 Seat chart screen 61 Seat display area 62 Search bar 63 User information window DK Desk N Communication network S, Sa-Sr Seat SU Seat unit U, UA-UE User

Claims (7)

The at least one second processor in an information processing system comprising an information processing device comprising at least one first processor, a peripheral device whose installation position is determined, and a position specifying device comprising at least one second processor. An information processing method performed by one processor and the at least one second processor, comprising:
the at least one first processor;
Acquiring device identification information that can identify the peripheral device from the peripheral device via the communication connection when the information processing device is connected to the peripheral device for communication;
transmitting the obtained device identification information and user identification information that can identify a user of the information processing device to the position identification device;
The at least one second processor ,
When the information regarding the installation position of the peripheral device specified by the device identification information received from the information processing device is not included in the installation position information regarding the installation position, Acquiring information related to the installation position of the device, adding the acquired information to the installation position information,
An information processing method, wherein the position of the user is specified based on the device identification information and the user identification information received from the information processing apparatus, and the installation position information. the at least one second processor;
Identifying the user based on the user identification information received from the information processing device;
identifying the peripheral device communicatively connected to the information processing device based on the device identification information received from the information processing device;
2. The information processing method according to claim 1 , wherein the position of the specified peripheral device is specified as the position of the user based on the installation position information. The information processing system includes a plurality of the information processing devices and a plurality of the peripheral devices,
the at least one second processor;
of the plurality of information processing devices based on the device identification information and the user identification information received from each of the plurality of information processing devices and the installation position information related to the installation positions of the plurality of peripheral devices; 3. The information processing method according to claim 1 , wherein positions of a plurality of said users are specified. the at least one second processor;
Acquiring the time when the device identification information and the user identification information were received,
registering the obtained time as the usage start time of the peripheral device;
The information processing method according to any one of claims 1 to 3 , characterized in that: 5. The information processing method according to any one of claims 1 to 4 , wherein said at least one second processor displays a list of said user's positions as a seating chart on a screen of a display unit. 6. The information processing according to claim 5 , wherein said at least one second processor displays said seating chart in a state in which said position of said specified user can be identified according to an operation specifying said user. Method. an information processing device having at least one first processor;
a peripheral device whose installation position is determined;
a locating device having at least one second processor;
with
The at least one first processor,
Acquiring device identification information that can identify the peripheral device from the peripheral device via the communication connection when the information processing device is connected to the peripheral device for communication;
transmitting the obtained device identification information and user identification information that can identify a user of the information processing device to the position identification device;
The at least one second processor ,
When the information regarding the installation position of the peripheral device specified by the device identification information received from the information processing device is not included in the installation position information regarding the installation position, Acquiring information related to the installation position of the device, adding the acquired information to the installation position information,
An information processing system, wherein the position of the user is specified based on the device identification information and the user identification information received from the information processing apparatus, and the installation position information.

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