CN111904442A

CN111904442A - Radiographic imaging device, electronic apparatus, wireless communication system, and program

Info

Publication number: CN111904442A
Application number: CN202010375850.5A
Authority: CN
Inventors: 原健太郎; 林直辉
Original assignee: Konica Minolta Inc
Current assignee: Konica Minolta Inc
Priority date: 2019-05-10
Filing date: 2020-05-07
Publication date: 2020-11-10
Also published as: JP2020185367A; JP2023168566A; JP7363317B2

Abstract

The present invention relates to a radiographic imaging device, an electronic apparatus, a wireless communication system, a program, and a storage medium, which enable setting at the time of setting to be easily performed by even a person without expert knowledge. A radiographic imaging device that generates an image from irradiated radiation, comprising: a communication unit that directly performs wireless communication with an information processing apparatus that performs wireless communication, and receives setting information transmitted from the information processing apparatus for performing predetermined setting at the time of setting; and a setting unit that performs setting of the radiographic imaging device in accordance with the setting information received by the communication unit.

Description

Radiographic imaging device, electronic apparatus, wireless communication system, and program

Technical Field

The invention relates to a radiographic imaging device, an electronic apparatus, a wireless communication system, and a program.

Background

In recent years, the use of an X-ray imaging apparatus (Digital Radiography) system in a small-scale work site such as a medical work site in a clinic or a developing country has been expanding.

As a DR system, a DR system in which a plurality of devices are connected by wireless communication is known, but with the expansion of the use environment, development of a technology for enabling communication between the devices even in a case where the wireless communication situation is poor has been advanced. For example, patent document 1 proposes a technique in which an imaging device can function as a master unit of an access point and can be used as a relay unit from another imaging device (slave unit).

Documents of the prior art

Patent document

Patent document 1: japanese patent laid-open publication No. 2017-6427

Disclosure of Invention

However, in general, when a new imaging device is installed, a service person with professional knowledge performs setting work in order to cope with various network environments and to perform a complicated and complicated installation process.

However, in clinics and developing countries, since the system scale is small, the conventional elements requiring a complicated setup procedure are limited. It is considered that the time required for the work site access is longer than the work time set for the increase in the number of facilities and the installation in a remote area. Further, if a professional service person must be called for a failure or the like, it takes time and effort to operate the system.

For this reason, even a person who does not have expert knowledge desires to easily perform setting at the time of installation of the imaging device.

The invention provides a radiographic imaging device, an electronic apparatus, a wireless communication system, and a program, which enable even a person without expert knowledge to easily set the radiographic imaging device at the time of installation.

In order to solve the above problem, a radiographic imaging device according to the present invention generates an image from radiation that is irradiated, the radiographic imaging device including:

a communication unit that directly performs wireless communication with an information processing apparatus that performs wireless communication, and receives setting information transmitted from the information processing apparatus for performing predetermined setting at the time of setting; and

and a setting unit that performs setting of the radiographic imaging apparatus in accordance with the setting information received by the communication unit.

In addition, an electronic device according to the present invention is an electronic device that performs predetermined settings and is used at the time of installation, the electronic device including:

and a setting unit configured to perform setting of the electronic device in accordance with the setting information received by the communication unit.

Further, a wireless communication system of the present invention is a wireless communication system capable of connecting a radiation image capturing apparatus and an information processing apparatus that generate an image from irradiated radiation by wireless communication,

the radiographic imaging device includes:

a communication unit that directly performs wireless communication with the information processing apparatus and receives setting information transmitted from the information processing apparatus for performing predetermined setting at the time of setting; and

In addition, a computer-readable recording medium storing a program according to the present invention is characterized in that the program causes a computer of a radiation imaging apparatus that generates an image from an irradiated radiation to function as a communication unit and a setting unit,

the communication unit directly performs wireless communication with an information processing apparatus performing wireless communication, receives setting information transmitted from the information processing apparatus for performing predetermined setting at the time of setting,

the setting unit sets the radiographic imaging device in accordance with the setting information received by the communication unit.

According to the present invention, even a person without expert knowledge can easily perform setting at the time of installation.

Drawings

Fig. 1 is a diagram showing a schematic configuration of a radiation detection system.

Fig. 2 is a block diagram illustrating the structure of the radiographic imaging device.

Fig. 3 is a block diagram showing the configuration of the terminal apparatus.

Fig. 4 is a flowchart showing a setting operation at the time of setting the imaging device.

Fig. 5 is a diagram showing a schematic configuration of another radiation detection system.

(symbol description)

10: a radiographic imaging device; 11: a panel control unit (setting unit, determination unit, mode setting unit); 12: a radiation detection section; 13: a reading unit; 14: a communication unit; 15: a storage unit; 16: a bus; 20: a terminal device; 21: a control unit; 22: a display unit; 23: an operation section; 24: a communication unit; 25: a storage unit; 26: a bus; 30: a console; 100. 100A: a radiation detection system.

Detailed Description

Embodiments of the present invention will be described below with reference to the drawings. However, the technical scope of the present invention is not limited to the examples illustrated in the drawings.

[ radiation detection System ]

First, an outline of the radiation detection system 100 as a wireless communication system according to the present embodiment will be described. Fig. 1 is a block diagram showing a schematic configuration of a radiation detection system 100.

As shown in fig. 1, the radiation detection system 100 includes a radiation image capturing device (hereinafter, referred to as an imaging device) 10, a terminal device 20 as an information processing device, and a console 30.

The imaging device 10 is a panel-shaped device that generates image data of a radiographic image based on radiation such as X-rays generated and irradiated by an irradiation device (not shown), for example.

The terminal device 20 is a portable terminal device used by a user or the like who performs a setting (hereinafter also referred to as "setting") for setting the imaging device 10, for example.

In the present embodiment, the imaging device 10 has an access point function operable as a master unit, the terminal device 20 is operable as a slave unit, and the imaging device 10 and the terminal device 20 can directly perform wireless communication by Wi-Fi (registered trademark in japan), for example. In addition, the photographing device 10 and the terminal device 20 can also directly perform wireless communication through bluetooth (japanese registered trademark). The terminal device 20 may be configured to have a wired communication function and be connected to the imaging device 10 via a device that converts wired communication into wireless communication. In addition, the terminal device 20 can set the imaging device 10.

The console 30 is a device configured by a PC (Personal Computer), a dedicated device, or the like, and allows a user or the like to set various imaging conditions (an imaging region, an imaging direction, an irradiation time, and the like) and instruct the imaging apparatus 10 to start/end imaging.

[ radiographic image capturing apparatus ]

Next, the imaging apparatus 10 will be described in detail. Fig. 2 is a block diagram showing the configuration of the imaging apparatus 10.

As shown in fig. 2, the imaging apparatus 10 includes a panel control unit (setting unit, determination unit, mode setting unit) 11, a radiation detection unit 12, a readout unit 13, a communication unit 14, a storage unit 15, and the like, and each unit 11 to 15 are connected by a bus 16.

The panel control Unit 11 is configured to control operations of each Unit of the imaging apparatus 10 in general, such as a CPU (Central Processing Unit) and a RAM (Random Access Memory).

Specifically, upon receiving an instruction signal from the terminal device 20, the panel control unit 11 reads various processing programs stored in the storage unit 15, develops the processing programs in the RAM, and executes the setting process of the imaging device 10 in accordance with the processing programs.

After setting the imaging apparatus 10, the panel control unit 11 reads various processing programs stored in the storage unit 15 and develops the processing programs in the RAM when a power switch is turned on, a predetermined control signal is received from an irradiation apparatus (not shown) or the console 30, and radiation is received from the irradiation apparatus, and the like, and executes processing such as image data for generating a radiographic image in accordance with the processing programs.

The radiation detection unit 12 may be provided with a substrate on which a plurality of pixels including radiation detection elements that directly or indirectly generate charges corresponding to the amount of radiation, and switching elements that are provided between the radiation detection elements and the wiring and that can be switched between an on state in which current can be passed between the radiation detection elements and the wiring and an off state in which current cannot be passed, are arranged in a two-dimensional pattern, and a conventionally known example may be used.

That is, the imaging apparatus 10 may be an indirect imaging apparatus that includes a scintillator (scintillator) and detects light emitted by the scintillator receiving radiation, or a direct imaging apparatus that directly detects radiation without the scintillator or the like.

The readout unit 13 may be configured to be able to read out the charge amount accumulated in each of the plurality of radiation detection elements as a signal value, and a conventionally known example may be used.

The communication unit 14 includes a wireless communication interface, and transmits and receives data to and from an external device (such as the terminal device 20) connected via a communication Network such as a LAN (Local Area Network), a WAN (Wide Area Network), or the internet.

The storage unit 15 is configured by an HDD (Hard Disk Drive), a semiconductor memory, and the like, and stores various processing programs including various image processing programs, parameters, files, and the like necessary for executing the programs.

Specifically, the storage unit 15 stores setting information indicating the setting state of the imaging device 10.

The setting information includes one or more items set in advance, and it is possible to determine whether the setting of the item is completed or not for each item. This is achieved by, for example, using a flag such as "end flag"/"not end flag", inputting a specific value, and determining whether or not to end all specific item groups. The present invention is not limited to this embodiment as long as the setting completion can be determined.

Specifically, examples of the items included in the setting information include "IP address", "display name of a panel icon displayed ON the console", "background color of a panel icon displayed ON the console", "enable/disable of an automatic power ON/OFF function", "wireless LAN operation setting (master/slave)", "wireless LAN slave setting (SSID/password)", "wireless LAN master setting (SSID/password/wireless channel)", "mode switching button setting (memory shooting enable/disable, etc)", "data for correction of gain correction and defect correction (including correction coefficients for correcting individual differences of panels (for example, correction coefficients for gain correction and defect correction))", "shooting mode setting (cooperation/non-cooperation)", and the like, "license information (presence or absence of a usage license of the panel itself, type and expiration date of a shooting-related license)", "limit setting 1 (upper limit of irradiation times, upper limit of irradiation dose, alarm output necessity/unnecessity setting exceeding the upper limit)", "limit setting 2 (threshold of charge remaining amount, operation setting when the threshold is exceeded)", "display color of a display unit of the panel itself", "information of a console to which the panel belongs (PC name, console software version, network ID)", "encryption setting (type of encryption/decryption, encryption key, certificate) at the time of data communication", "usage place such as studio, installation place, alarm output necessity/unnecessity setting when the panel leaves the set place", "power saving mode", and the like.

In addition, when the panel (imaging device) is shared by a plurality of consoles, the "display name of the panel icon displayed on the console" is stored in the panel (imaging device) and displayed in the same manner. In addition, the "background color of the panel icon displayed on the console" is stored in the panel (imaging device) and displayed in the same manner even when the panel (imaging device) is shared by a plurality of consoles.

In addition to the above-described configuration in which the "display name of the panel icon displayed on the console" and the "background color of the panel icon displayed on the console" are recorded on the panel, the "display name of the panel icon displayed on the console" and the "background color of the panel icon displayed on the console" may be recorded on the console or stored in each of the console and the panel.

The items included in the setting information can be grouped into, for example, "items related to communication setting", "items due to facility setting environment", "items related to shooting", and "setting items related to operability, safety (security), maintainability, and the like".

The grouping standard is not limited to the one exemplified here, and can be appropriately grouped according to facilities and the like.

The "item related to the communication setting" includes "IP address", "wireless LAN operation setting (master/slave)", "wireless LAN slave unit setting (SSID/password)", "wireless LAN master unit setting (SSID/password/wireless channel)", and "information (PC name, console software version, network ID) of the console to which the" belongs ".

The "items due to the facility installation environment" include "license information (presence/absence of a use license of the panel itself, a type and an expiration date of a shooting-related license)", "a use place such as a studio, an installation place, a warning output necessity/unnecessity setting when leaving the set place", and "validity/invalidity of the automatic power ON/OFF function".

The "items related to shooting" include "shooting mode setting (cooperation/non-cooperation)", "data for correction of gain correction and defect correction (further including correction coefficients for correcting individual differences of the panel (for example, correction coefficients for gain correction and defect correction))", and "mode switching button setting (memory shooting enable/disable, etc.)".

The "setting items concerning operability, safety (security), maintenance, and the like" include "a display name of a panel icon displayed on the console", "a background color of a panel icon displayed on the console", "a limit setting 1 (an upper limit of irradiation times, an upper limit of irradiation dose, and a setting of whether or not an alarm output exceeding the upper limit is necessary)", "a limit setting 2 (a threshold of a charge remaining amount, and an operation setting when the threshold is exceeded)", "a display color of a display unit of the panel itself", "an encryption setting (a type of encryption/decryption, an encryption key, a certificate) at the time of data communication", and "a power saving mode".

The panel control unit 11 of the imaging apparatus 10 configured as described above operates as follows in accordance with the processing program stored in the storage unit 15.

That is, the setting of the imaging device 10 is performed in accordance with an instruction signal from the terminal device 20.

The panel control unit 11 has a function of switching on and off of the switching elements of the radiation detection unit 12. The panel control unit 11 also has a function of generating image data of a radiographic image from the signal values read by the reading unit 13.

[ terminal device ]

Next, the terminal device 20 will be described in detail. Fig. 3 is a block diagram showing the configuration of the terminal device 20.

As shown in fig. 3, the terminal device 20 includes a control unit 21, a display unit 22, an operation unit 23, a communication unit 24, a storage unit 25, and the like, and the units 21 to 25 are connected by a bus 26. Further, power is supplied to each of the units 21 to 25 from a built-in battery not shown.

The terminal device 20 is preferably configured as a device that can be carried or worn by a user using a mobile phone, a smartphone, a tablet terminal, a notebook PC, a head mount display, or the like.

The control unit 21 is configured to control the operations of the respective units of the terminal device 20 collectively by a CPU, a RAM, and the like.

Specifically, various display signals are transmitted to the display unit 22 by reading and executing the WEB application stored in the storage unit 25 based on the operation signal input from the operation unit 23.

The Display unit 22 is configured to include a monitor such as an LCD (Liquid Crystal Display), and displays various screens in accordance with instructions of Display signals input from the control unit 21.

Specifically, the display unit 22 can display, for example, a setting screen for setting the imaging apparatus 10.

The operation unit 23 is configured to include a pointing device such as a keyboard and a mouse having various keys, or a touch panel stacked on the display unit 22, and outputs an operation signal input in accordance with a position of a key operation on the keyboard, a mouse operation, or a touch operation on the touch panel to the control unit 21.

The communication unit 24 is configured by a network interface or the like, and transmits and receives data or the like to and from an external device (the imaging device 10 or the like) connected via a communication network such as a LAN, a WAN, the internet, or the like.

The control unit 21 of the terminal device 20 configured as described above causes the display unit 22 to display a setting screen for setting the imaging device 10, for example.

The control unit 21 causes the communication unit 24 to transmit an instruction signal to the imaging device 10 when a predetermined instruction operation is performed in a state where the setting screen is displayed.

[ operation of radiation detection System ]

Next, the setup setting process of the imaging device 10 constituting the radiation detection system 100 will be described.

The radiation detection system 100 according to the present embodiment can use the terminal device 20 to set facilities of the imaging device 10. Fig. 4 is a flowchart illustrating the setting process of the photographing apparatus 10.

As a premise, the imaging device 10 is set to a state in which a predetermined operation set in advance is possible in an initial setting state at factory shipment. That is, in the initial setting state, the imaging device 10 is set with an SSID and a password for operating as a host (access point) in wireless communication. The internet can be connected to the mobile terminal.

After the control unit 21 of the terminal device 20 transmits a connection request signal to the imaging device 10 in accordance with the user operation via the operation unit 23, the panel control unit 11 of the imaging device 10 receives the connection request signal (step S1).

Next, the panel control unit 11 of the imaging apparatus 10 confirms the installation state of the imaging apparatus 10, and determines whether the installation state is "complete" (step S2).

Specifically, the control unit 21 refers to the setting information of the storage unit 15, and determines whether or not the setting of all items is completed. That is, the set state is "complete" when all items are determined to be "complete", and the set state is determined to be "incomplete" when there is even one item determined to be "incomplete".

In addition, when the items included in the setting information are grouped, it may be determined that the setting state is "complete" when all the items of a predetermined group are determined to be "complete".

Next, when the installation state is "complete" (step S2: yes), the panel control unit 11 transmits a connection permission to the terminal device 20 to perform a connection (step S3), and performs a predetermined operation in accordance with an instruction from the terminal device 20 (step S4). For example, an operation such as start of shooting is performed.

On the other hand, when the setting state is "incomplete" (step S2: NO), the panel control part 11 judges whether or not the information on the setting is included in the connection request signal from the terminal device 20 (step S5), and when the information on the setting is not included (step S5: NO), the panel control part 11 transmits a connection rejection signal to the terminal device 20 (step S6).

For example, in the case where information on shooting is included or the like, it is determined that information on setting is not included. Therefore, such a situation as starting shooting in a state where the setting is not completed is avoided.

In this regard, currently, situations in which a doctor or the like carries only the imaging apparatus 10 to make a round are increasing. In this case, it is often the case that it is not confirmed in advance whether the imaging apparatus 10 can perform imaging, and if it is not noticed that the imaging apparatus 10 is taken out because the setting is not completed, there is a possibility that the imaging apparatus may erroneously perform imaging because the setting is not completed. Therefore, according to the processing of step S2 ("no"), step S5 ("no"), and step S6, the setting of the unfinished imaging device 10 is not communicable, so that it is possible to prevent erroneous imaging and the user can recognize that the setting of the photographing device 10 of the object is unfinished.

The "information on settings" may be information indicating information on settings of the imaging apparatus 10, and may be, for example, the entire setting information or only a part of the setting information.

On the other hand, when the information on the setting is included (yes in step S5), the panel control unit 11 transmits a connection permission to the terminal device 20 to perform connection (step S7), and performs setting of the imaging device 10 in accordance with the received setting information (step S8).

Next, the panel control unit 11 changes the item set in the above step S8 to determine "end" (step S9), and ends the present process.

After the installation state is "complete", the imaging apparatus 10 is set to a mode operating as a master or a mode operating as a slave to another master in accordance with the installation setting information ("wireless LAN operation setting (master/slave)").

The mode is not limited to the above example, and may be, for example, a mode in which wireless communication is disabled.

In addition, when the power of the imaging device 10 and/or the terminal device 20 is OFF in the state where the installation state is "incomplete", the imaging device 10 may be returned to the initial setting state (factory shipment state). That is, the contents of the items included in the setting information are returned to the initial setting state. For example, when the communication of the terminal device 20 is disconnected, the state returns to the initial setting state.

The panel control unit 11 may be configured to determine the terminal device 20 in the setup setting process, and not to permit communication from another terminal device 20 in the setup setting process. In this case, the imaging device 10 whose setup setting is not completed is not communicable with the other terminal device 20, so that it is possible to prevent erroneous imaging and the user can recognize that the setup setting of the imaging device 10 of the object is not completed.

In addition, when the setting information is transmitted in the state of the setting state "complete", the panel control unit 11 may report that the setting state is "complete".

The panel control unit 11 may report that the installation state is "complete" when the installation state is "complete", or may report that the installation state is "complete" when the interrupt is processed in the installation state of "incomplete".

As a method of reporting, for example, a message may be displayed on the display unit 22 of the terminal device 20, or a sound, light, or the like may be emitted from the imaging device 10.

[ Effect of the embodiment ]

As described above, according to the present embodiment, the imaging device 10 for detecting irradiated radiation includes an access point function operable as a master in wireless communication, and includes: a communication unit 14 that directly performs wireless communication with a terminal device 20 operable as a slave unit in wireless communication, and receives setting information transmitted from the terminal device 20 for performing predetermined setting at the time of setting; and a panel control unit 11 for setting the imaging device 10 in accordance with the setting information received by the communication unit 14.

Therefore, installation settings for facilities and the like of the imaging apparatus 10 can be performed only by the imaging apparatus 10 and the terminal apparatus 20.

Therefore, even a person without expert knowledge can easily perform setting.

Further, according to the present embodiment, upon receiving information from the terminal device 20 via the communication unit 14, the panel control unit 11 determines whether or not the setting is completed.

Specifically, when setting of all the preset items is completed, the panel control unit 11 determines that setting is completed.

Therefore, the setting can be reliably performed.

Further, according to the present embodiment, the panel control unit 11 determines whether or not the information received from the terminal device 20 is information related to the setting of the imaging device 10 when determining that the setting is not completed, and does not permit the wireless connection with the terminal device 20 when determining that the information is not related to the setting.

Therefore, the imaging apparatus 10 whose setting has not been completed cannot communicate with other instructions, and it is possible to prevent erroneous imaging before the setting is completed. In addition, by rejecting another instruction until the setting is completed, the setting can be reliably performed. In addition, the user can recognize that the photographing device 10 of the object has not completed the setting.

Further, according to the present embodiment, the panel control unit 11 determines whether or not the terminal device 20 that has transmitted the information is a device that is performing the setting of the imaging device 10 when determining that the setting is not completed, and does not permit the wireless connection with the device when determining that the terminal device is not a device that is performing the setting of the imaging device 10.

Therefore, the imaging device 10 whose setting is not completed cannot communicate with an instruction from another device, and it is possible to prevent erroneous imaging before the setting is completed. In addition, by rejecting an instruction from another device before the setup setting is completed, the setup setting can be reliably performed. In addition, the user can recognize that the photographing device 10 of the object has not completed the setting.

Further, according to the present embodiment, after the setup setting is completed, the panel control unit 11 sets the operation mode of the radiographic imaging device 10 to any one of a mode in which the radiographic imaging device operates as a master, a mode in which the radiographic imaging device operates as a slave to another master, and a mode in which wireless communication is disabled, in accordance with the setup setting information.

Therefore, the radiographic imaging device 10 can be used effectively in operation.

The embodiment to which the present invention can be applied is not limited to the above-described embodiment, and can be appropriately modified within a range not departing from the gist of the present invention.

For example, in the above-described embodiment, the terminal device 20 is used only for setting the imaging device 10, but as shown in fig. 5, a radiation detection system 100A including the imaging device 10 and the terminal device 20 may be used, and the terminal device 20 may be configured to be used for setting and to function as a console after the setting is completed.

In the above-described embodiment, the case where the setup setting of the radiographic imaging device 10 is performed is exemplified, but the setup setting of electronic equipment such as a console may be performed in addition to the radiographic imaging device 10.

Claims

1. A radiographic imaging device that generates an image from irradiated radiation, the radiographic imaging device comprising:

2. The radiographic imaging device according to claim 1,

the information processing apparatus includes a determination unit that determines whether or not the setting by the setting unit at the time of installation is completed when the communication unit receives information from the information processing apparatus.

3. The radiographic imaging device according to claim 2,

when the setting of all the preset items is completed, the determination unit determines that the setting by the setting unit at the time of installation is completed.

4. The radiographic imaging device according to claim 2 or 3,

the determination unit determines whether or not the information received from the information processing device is information related to the setting at the time of the setting of the radiographic imaging device when it is determined that the setting by the setting unit at the time of the setting is not completed, and does not permit the wireless connection with the information processing device when it is determined that the information is not information related to the setting at the time of the setting.

5. The radiographic imaging device according to any one of claims 2 to 4,

the determination unit determines whether or not the information processing apparatus that has transmitted the information is an apparatus that is performing the setting of the radiographic imaging apparatus when it is determined that the setting by the setting unit at the time of the setting is not completed, and does not permit the wireless connection with the apparatus when it is determined that the information processing apparatus is not an apparatus that is performing the setting of the radiographic imaging apparatus.

6. The radiographic imaging device according to any one of claims 1 to 5,

has an access point function operable as a master in wireless communication,

the information processing device can operate as a slave unit in wireless communication.

7. The radiographic imaging device according to claim 6,

the radiographic imaging device includes a mode setting unit that sets an operation mode of the radiographic imaging device to any one of a mode in which the radiographic imaging device operates as the master unit, a mode in which the radiographic imaging device operates as a slave unit to another master unit, and a mode in which wireless communication is disabled, in accordance with the setting information, after the setting by the setting unit at the time of setting is completed.

8. An electronic device that performs a predetermined setting and is used at the time of installation, the electronic device comprising:

9. A wireless communication system in which a radiographic image capturing apparatus that generates an image from irradiated radiation and an information processing apparatus can be connected by wireless communication, the wireless communication system being characterized in that,

the radiographic imaging device includes:

10. A computer-readable recording medium storing a program for causing a computer of a radiographic imaging device that generates an image from irradiated radiation to function as a communication unit and a setting unit, wherein,

11. The computer-readable recording medium according to claim 10, wherein a program for causing the determination unit to function is stored,

the determination unit determines whether or not the setting by the setting unit at the time of installation is completed when the communication unit receives information from the information processing apparatus.

12. The computer-readable recording medium according to claim 11, wherein the following program is stored: when the setting of all the preset items is completed, the determination unit determines that the setting by the setting unit at the time of installation is completed.

13. The computer-readable recording medium according to claim 11 or 12, wherein the following program is stored: the determination unit determines whether or not the information received from the information processing device is information related to the setting at the time of the setting of the radiographic imaging device when it is determined that the setting by the setting unit at the time of the setting is not completed, and does not permit the wireless connection with the information processing device when it is determined that the information is not information related to the setting at the time of the setting.

14. The computer-readable recording medium according to any one of claims 11 to 13, wherein the following program is stored: the determination unit determines whether or not the information processing apparatus that has transmitted the information is an apparatus that is performing the setting of the radiographic imaging apparatus when it is determined that the setting by the setting unit at the time of the setting is not completed, and does not permit the wireless connection with the apparatus when it is determined that the information processing apparatus is not an apparatus that is performing the setting of the radiographic imaging apparatus.

15. The computer-readable recording medium according to any one of claims 10 to 14, wherein the following program is stored:

has an access point function operable as a master in wireless communication,

16. The computer-readable recording medium according to claim 15, wherein a program for causing the function as a mode setting portion is stored,

after the setting by the setting unit at the time of the setting is completed, the mode setting unit sets the operation mode of the radiographic imaging device to any one of a mode in which the radiographic imaging device operates as the master unit, a mode in which the radiographic imaging device operates as a slave unit to another master unit, and a mode in which wireless communication is disabled, in accordance with the setting information.