JP2014158088A - Information processing device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To prevent the transmission of an unnecessary beacon signal when connecting to an external STA device in an AP mode of a wireless LAN.SOLUTION: A radio communication system includes a communication unit 204 for communicating with station devices 102 and 103 as a wireless LAN access point, and at least a public application and a personal application as each application to transmit content to the station devices 102 and 103 connected through wireless LAN. The communication unit 204 transmits a beacon signal if the public application is selected, and does not transmit a beacon signal if the personal application is selected.

Description

  The present invention relates to an information processing apparatus that performs data communication with an external device connected via a wireless LAN network.

Conventionally, an infrastructure mode is generally used in a wireless communication technology using a wireless LAN based on the IEEE 802.11 standard. The infrastructure mode is a communication mode in which a wireless LAN station device (hereinafter referred to as STA) existing within radio wave arrival from a wireless LAN access point (hereinafter referred to as AP) communicates via the AP. .
A digital camera having a wireless LAN STA function is capable of connecting to an AP and transmitting / receiving content such as a still image / moving image to / from an external device connected to the AP network. For example, there is a technique for transferring photographed still image data to a personal computer, a printer, a server, or the like via a wireless network.
On the other hand, recently, a digital camera and an Eye-Fi (registered trademark) card having a function operable not only as an STA of a wireless LAN but also as an AP have been proposed. It is possible to operate the digital camera as a wireless LAN AP, connect to another digital camera or a STA such as a smartphone in the infrastructure mode, and transmit / receive data between devices. As a result, communication in the infrastructure mode can be performed even in a situation where an AP cannot be found such as outdoors.
From such a background, it is expected that a digital camera equipped with a function operable as a wireless LAN AP and capable of sharing data between devices will be widespread in the future.

  For example, Patent Document 1 proposes a digital camera having both a host function capable of connecting to client devices corresponding to a plurality of STAs and a client function capable of connecting to host devices corresponding to APs. Yes. When transmitting captured image data to an external device, the digital camera is activated as a host mode at a timing set in advance by the user, and starts transmitting a signal for connection to the external device. When the connection between the digital camera and the external device is completed, the digital camera transmits image data to the external device.

JP 2009-147657 A

However, in the prior art of Patent Document 1, a signal corresponding to a beacon signal is transmitted every time the host mode of the digital camera is activated, when connecting to an external device, but without transmitting that signal. No mention is made of cases that can be connected to external devices. If a beacon signal is always transmitted when connecting to an external device, the processing load and power consumption of the digital camera will increase.
Therefore, an object of the present invention is to reduce the processing load and power consumption of a digital camera by minimizing the transmission of a beacon signal when connecting to an external device when the host mode of the digital camera is activated. It is to let you.

  To achieve the above object, the present invention provides communication means for communicating with a station device as a wireless LAN access point in a wireless communication system, and an application for transmitting content to the station device connected to the wireless LAN. The communication means includes at least a first application and a second application, and the communication means does not transmit a beacon signal when the first application is selected, and the second application is selected. Is characterized by transmitting a beacon signal.

  According to the present invention, when using the AP function of the information processing apparatus, the application activated by the user determines whether or not the beacon signal is transmitted, and transmits the beacon signal only when the beacon signal needs to be transmitted. . As a result, the processing load and power consumption of the information processing apparatus can be reduced.

FIG. 1 is a schematic diagram showing a configuration of a wireless LAN network system 100 according to an embodiment of the present invention. FIG. 2 is a block diagram showing an internal configuration of the digital camera 101 according to the embodiment of the present invention. FIG. 3 is a flowchart of communication processing between the digital camera 101 that is the AP and the smartphone 103 that is the STA according to the embodiment of the present invention. FIG. 4A is a flowchart of wireless LAN communication using the principal application according to the embodiment of the present invention. FIG. 4B is a flowchart of wireless LAN communication using a public application according to an embodiment of the present invention. FIG. 4C is a flowchart of wireless LAN communication using a public application according to an embodiment of the present invention. FIG. 5 is a diagram showing an example of a display screen displayed on the notification unit 206 of the digital camera 101 in the first embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. As an information processing apparatus according to the present embodiment, a digital camera that operates as an AP is shown as an example.
FIG. 1 is a schematic diagram showing a configuration of a wireless LAN network system 100 according to an embodiment of the present invention.
A wireless LAN network system (wireless communication system) 100 illustrated in FIG. 1 includes a digital camera 101 as an information processing apparatus, a so-called smartphone 102 and a smartphone 103, which are types of mobile phones. A digital camera 101 as an information processing apparatus operates as a wireless LAN access point (AP). The smartphones 102 and 103 are connected to the network of the digital camera 101 and operate as a wireless LAN station device (STA). Note that the smartphone 102 is the same user's smartphone as the digital camera 101. The smartphone 103 is a smartphone owned by another person.
As a wireless connection method between the digital camera 101 and the smartphones 102 and 103, a wireless communication method represented by the 802.11a, b, g, and n standards defined in the wireless LAN standard is used. Then, the digital camera 101 and the smartphones 102 and 103 transmit and receive captured still images and moving image contents.

Next, the configuration of the digital camera 101 will be described with reference to FIG. FIG. 2 is a block diagram illustrating an example of the internal configuration of the digital camera 101 in the present embodiment.
The digital camera 101 includes a control unit 201, a ROM 202, a RAM 203, a communication unit 204, a recording unit 205, a notification unit 206, an operation unit 207, an imaging unit 208, a timer unit 209, and an internal bus 210.

  The control unit 201 includes a CPU that can execute a computer program, for example. The control unit 201 is connected to the ROM 202, the RAM 203, the communication unit 204, the recording unit 205, the notification unit 206, the operation unit 207, the imaging unit 208, and the timer unit 209 via the internal bus 210, and performs all of these controls. .

  The ROM 202 stores information such as a computer program for controlling each unit of the digital camera 101 executed by the control unit 201 and parameters relating to processing of each unit in a computer-readable format. The ROM 202 includes a flash ROM. The ROM 202 stores SSID (Service Set Identifier) information, encryption method information, encryption key information, and password information necessary when the digital camera 101 executes the AP function. Furthermore, user ID information, password information, and the like necessary for executing the application are also stored. It is assumed that these pieces of information are previously input and stored in the ROM 202 when the user operates the operation unit 207. In addition, various applications (computer programs) for the digital camera 101 to activate the AP function and communicate with the STA are also stored. Here, the various applications include two applications: a first application for communicating with the STA and a second application. The first application and the second application will be described later.

A RAM 203 is a volatile memory that is used as a work area when the control unit 201 executes a computer program stored in the ROM 202.
The communication unit 204 transmits and receives still images, moving image data, and the like by communication based on a wireless communication method. For example, communication is performed in accordance with a method compliant with the 802.11a, b, g, and n standards defined in the wireless LAN standard. The communication unit 204 can operate as both an AP and a STA of the wireless LAN, and operates as an AP or an STA according to an instruction from the control unit 201.

  The recording unit 205 includes a recording medium, and records the still image and moving image data acquired by the imaging unit 208 on the recording medium based on an instruction from the control unit 201. The recording medium may be a built-in recording medium such as a built-in flash memory or a built-in HDD, or may be an external recording medium such as a removable memory card.

  The notification unit 206 is applied with a still image and moving image data acquired by the imaging unit 208, a still image and moving image data read from the recording unit 205, a liquid crystal monitor that displays icons for user operation, and the like. The Further, the notification unit 206 includes a speaker, and may output sound of moving image data acquired by the imaging unit 208, sound of moving image data read from the recording unit 205, confirmation sound and warning sound for user operation. Good.

  The operation unit 207 receives various operation requests for the digital camera 101 from the user. A user can perform various settings and operations of the digital camera 101 via the operation unit 207. For the operation unit 207, for example, an input device such as a button, a dial, or a touch panel is applied.

  The imaging unit 208 converts an analog signal obtained by photographing a subject into digital data, and performs compression processing. Still image and moving image data captured by the imaging unit 208 are temporarily stored in the RAM 203 and recorded in the recording unit 205 according to an instruction from the control unit 201. The imaging unit 208 also performs control such as zooming, focusing, and aperture value setting based on instructions from the control unit 201. The imaging unit 208 includes an optical lens, an imaging element, an image processing unit, an encoding processing unit, and the like.

  The timer unit 209 measures the current date and time and the time related to the processing performed in each unit.

  The internal bus 210 is connected to the control unit 201, ROM 202, RAM 203, communication unit 204, recording unit 205, notification unit 206, operation unit 207, imaging unit 208, and timer unit 209. Each unit can transmit / receive data to / from each other via the internal bus 210.

Next, a flow of communication processing between the digital camera 101 as an AP and the smartphone 103 as an STA will be described with reference to FIG. This communication process is started when the operation unit 207 receives an AP mode switching request operation (operation for switching the wireless LAN mode setting to the AP mode) by the user.
First, in step S <b> 301, the control unit 201 controls the communication unit 204 in accordance with an AP mode switching request instruction received from the operation unit 207 and sets the wireless LAN mode setting to operate as a wireless LAN AP. Switch to.
In step S302, the control unit 201 controls the communication unit 204 to transmit a beacon signal. The beacon signal includes identification information such as an SSID that is a wireless network name, an encryption method, and an encryption key. As a result, the smartphone 103 within the radio wave arrival from the AP can determine that the digital camera 101 has created a network. When the smartphone 103 receives the beacon signal, the smartphone 103 detects an AP corresponding to the SSID included in the beacon signal.
In S303 and S304, authentication is performed between the digital camera 101 and the smartphone 103. Here, the digital camera 101 responds (S304) to the authentication request (S303) from the smartphone 103.
In S305 and S306, connection processing between the digital camera 101 and the smartphone 103 is performed. By this connection process, the correspondence between the digital camera 101 and the smartphone 103 is uniquely determined. In the connection process, association request (S305) / response (S306) frames are exchanged between the digital camera 101 and the smartphone 103, and parameter negotiation, AID (Association ID) allocation, and the like are performed.
With the above processing, the wireless LAN connection between the digital camera 101 and the smartphone 103 is completed and communication can be performed.

In step S <b> 307, the smartphone 103 transmits to the digital camera 101 an acquisition request for a list of contents stored in the recording unit 205 of the digital camera 101. The control unit 201 receives a content request request from the smartphone 103 via the communication unit 204.
In step S <b> 308, the control unit 201 receives a user instruction via the operation unit 207 and generates a list of contents that can be transmitted to the smartphone 103 from the contents stored in the recording unit 205. Then, the control unit 201 transmits a content list acquisition response to the smartphone 103 via the communication unit 204.
In step S <b> 309, when a desired content is selected by a user operation from the content list received from the digital camera 101, the smartphone 103 transmits a content acquisition request for acquiring the selected content. Then, the control unit 201 receives a content acquisition request transmitted from the smartphone 103 via the communication unit 204.
In step S310, the control unit 201 reads the content specified in the content acquisition request from the recording unit 205. Then, the control unit 201 transmits the read content to the smartphone 103 as a content acquisition response via the communication unit 204.
With the above flow, content transmission from the digital camera 101 to the smartphone 103 is performed.

Next, a flow in which the user activates an application and performs wireless LAN communication between the digital camera 101 and the smartphone 102 or the smartphone 103 will be described with reference to FIG. 4A. FIG. 4A is a flowchart illustrating processing for performing wireless LAN communication between the digital camera 101 and the smartphone 102 or the smartphone 103.
It is assumed that HTTP (Hypertext Transfer Protocol) is used for data exchange between the digital camera 101 and the smartphone 102 or the smartphone 103. The digital camera 101 has a Web server function, and the smartphone 102 and the smartphone 103 have a browser function. Computer programs for realizing these functions are stored in advance in the respective ROMs of the digital camera 101 and the smartphones 102 and 103. Each of the CPUs of the digital camera 101 and the smartphones 102 and 103 reads out and executes these computer programs. Note that DLNA (Digital Living Network Alliance) or the like may be used as a protocol used to exchange data between the digital camera 101 and the smartphone 102 or the smartphone 103.
Further, as described above, the applications for communicating with the smartphones 102 and 103 as STAs include at least two applications of the first application and the second application. In the following description, an application (first application) for communicating with the person's smartphone 102 is referred to as a “personal application”, and an application (second application) for communicating with the other person's smartphone 103 is referred to as a “public application”. Called. The contents of the principal application and the public application will be described later.

  First, in step S <b> 401, the control unit 201 determines whether an operation for setting the digital camera 101 to the AP mode is performed on the operation unit 207. If it is determined that the AP mode is set (Yes), the process proceeds to application selection (S402). When the digital camera 101 is not set to the AP mode (No), the following processing is not executed.

  In step S402, as illustrated in FIG. 5A, the control unit 201 causes the notification unit 206 to display an application selection screen and prompts the user to select an application to be used. Then, the control unit 201 determines whether or not an operation for selecting the “principal application” has been performed on the operation unit 207. When it is determined that the “principal application” is selected by the user's operation on the operation unit 207 (Yes), the process proceeds to step S403. Otherwise (No), the following processing is not executed.

In S403 and S404, the control unit 201 performs an authentication process. Specifically, the control unit 201 displays a principal application login screen as shown in FIG. In addition to a function (public function) that allows all contents in the recording unit 205 to be browsed, the principal application also includes a content deletion / editing function and the like, and also a control function of the digital camera 101. For this reason, authentication of the identity of the user is required to execute the principal application. Details of the operation of the principal application will be described later.
Then, according to the screen displayed on the notification unit 206, the control unit 201 operates the operation unit 207 to input “user ID” and “password”, and waits until “login” is pressed. . When the control unit 201 detects the input and operation by the user, the process proceeds to S404.
In step S <b> 404, the control unit 201 compares the user ID information and password information input by the user via the operation unit 207 with the user ID information and password information stored in the ROM 202. It is determined whether or not. If it is determined that they match (Yes), the process proceeds to step S405. On the other hand, when the control unit 201 determines that the user ID information and the password information input from the operation unit 207 do not match those stored in the ROM 202 (No), the process ends. In this case, the control unit 201 may display the notification unit 206 to input again.

  In step S405, the control unit 201 activates the principal application. And the control part 201 waits for the connection request from the smart phone 102 via the communication part 204, after starting a principal application. The user operates the smartphone 102 so as to connect the smartphone 102 to the digital camera 101 via a wireless LAN. Then, when the user performs the operation (detects that the operation has been performed), the smartphone 102 transmits a connection request. At this time, the SSID information and password information of the AP of the digital camera 101 to be input to the smartphone 102 by the user are information known to the user. For this reason, these pieces of information are stored in the smartphone 102 in advance by a user operation. Therefore, there is no need to transmit a beacon signal from the digital camera 101. If the digital camera 101 activates the AP function because the smartphone 102 holds the above information, the digital camera 101 can omit the step of S302, that is, even if the AP is activated in the stealth mode. 101 can be connected. Here, the stealth mode is a function in which the AP does not broadcast a beacon signal including its own SSID. As a result, the network generated by the digital camera 101 is not easily discovered by others, so that an effect of improving security can be considered.

In step S <b> 406, the control unit 201 determines whether a connection request from the smartphone 102 has been received via the communication unit 204. When the connection request from the smartphone 102 is not received (No), the control unit 201 may wait until it is received (see FIG. 4A) or may end the user application (not shown). When the connection request from the smartphone 102 is received (Yes), the process proceeds to step S407.
In step S407, wireless LAN connection is started.

  In step S <b> 408, the control unit 201 communicates with the smartphone 102 via the communication unit 204. The control unit 201 executes a predetermined operation of the principal application based on the operation of the smartphone 102 by the user. Examples of the predetermined operation of the principal application include browsing, erasing, and editing of content in the recording unit 205. Moreover, the process etc. which operate the digital camera 101 main body can also be performed. Specifically, it is as follows. In the content browsing operation, when the control unit 201 receives an instruction from the smartphone 102 via the communication unit 204, the requested content is read from the recording unit 205 and displayed on the notification unit 206. In the content erasing operation, the control unit 201 deletes the designated content stored in the recording unit 205 based on an instruction from the user received from the operation unit 207. In the content editing operation, the edited content received from the smartphone 102 via the notification unit 206 is overwritten on the original content stored in the recording unit 205 or stored as a separate file. In the operation function of the main body of the digital camera 101, the control unit 201 controls the imaging unit 208 in accordance with an instruction received from the smartphone 102 via the communication unit 204. Thereby, remote operation such as zoom operation of the digital camera 101 from the smartphone 102 becomes possible.

  In step S <b> 409, the control unit 201 determines whether to end the principal application. For example, when the control unit 201 receives an end request of the personal application from the smartphone 102 via the communication unit 204 or receives an end instruction from the user via the operation unit 207 (Yes), the control unit 201 finish. When no termination request or termination instruction is received (No), the control unit 201 continues the termination determination of the user application.

  Next, a flow in which a public application is selected and content information in the digital camera 101 is transmitted to the smartphone 103 will be described with reference to FIG. 4B. FIG. 4B is a flowchart illustrating processing for transmitting content information in the digital camera 101 to the smartphone 103.

Since the process of S410 is the same as that of S401, the description is omitted here.
In step S411, the control unit 201 determines whether a public application has been selected. Specifically, as illustrated in FIG. 5A, the control unit 201 displays an application selection screen on the notification unit 206 and prompts the user to select an application to be used. When the control unit 201 detects an operation for selecting the user's “public application” on the operation unit 207 (Yes), the control unit 201 proceeds to step S412, and the control unit 201 executes the public application. Note that if the public application is not selected (No), the control unit 201 does not execute the following processing.
The public application has a function (public function) that enables browsing of the content in the recording unit 205. However, the public application does not have a content deletion / editing function or the like or a control function of the digital camera 101. For this reason, authentication of the identity of the user is not required to execute the principal application.

  In step S412, the control unit 201 activates a public application. When the published application is activated, the control unit 201 displays a content selection screen as illustrated in FIG. Specifically, the control unit 201 reads the content information stored in the recording unit 205 and displays it on the notification unit 206 for each folder. In the example shown in FIG. 5C, the control unit 201 manages the folders by date, but the folder dividing method is not limited to this.

  In step S <b> 413, the control unit 201 determines content to be disclosed in accordance with an operation performed on the operation unit 207 by the user. Specifically, first, the user selects content to be disclosed according to the content selection screen displayed on the notification unit 206. Here, it is assumed that the user selects and presses “2011/11/03”. When detecting the selection of “2011/11/03” by the user, the control unit 201 notifies the content data stored in the “2011/11/03” folder as shown in FIG. Displayed on the unit 206. Thereby, the control unit 201 prompts the user to select content to be disclosed. Then, the user selects content that can be disclosed from the content displayed on the notification unit 206. When the control unit 201 detects a content selection operation by the user, the control unit 201 displays a content release confirmation screen as illustrated in FIG.

  In step S414, it is determined whether or not the selected content is to be released. Specifically, when the control unit 201 detects an operation of pressing “Yes” by the user while the notification unit 206 performs the display illustrated in FIG. 5E (Yes), the selected content is displayed. , The process proceeds to step S415 and subsequent steps. On the other hand, when an operation of pressing “No” is detected, FIG. 5C or 5D, which is a selection screen for the content to be disclosed, is displayed on the notification unit 206, and the content to be disclosed again to the user is displayed. Encourage you to make a selection.

In step S415, the control unit 201 transmits a beacon signal via the communication unit 204. Then, the process proceeds to step S416.
In step S <b> 416, the control unit 201 waits for a connection request from the smartphone 103 via the communication unit 204. The user operates the smartphone 103 to make settings for establishing a wireless LAN connection with the digital camera 101. In addition, the user selects the SSID of the AP of the digital camera 101 from the list of SSIDs displayed on the smartphone 103, and starts the wireless LAN connection setting. When the smartphone 103 detects the setting by the user, the smartphone 103 transmits a connection request to the digital camera 101 according to the setting of the user.

In step S <b> 416, the control unit 201 determines whether a connection request from the smartphone 103 is received via the communication unit 204. When the connection request is not received, the control unit 201 continues to detect the connection request from the smartphone 103 via the communication unit 204. If a connection request from the smartphone 103 is detected, the process proceeds to step S417.
In step S417, the control unit 201 starts a wireless LAN connection with the smartphone 103.

  In step S418, the control unit 201 transmits the content selected in step S413 to the smartphone 103 connected via the wireless LAN via the communication unit 204 (releases the content).

In step S419, the control unit 201 performs end determination. Specifically, the control unit 201 terminates the published application when it receives a termination request for the published application from the smartphone 103 via the communication unit 204 or receives a termination instruction from the user via the operation unit 207. Yes (Yes). If no termination request or termination instruction has been received (No), detection continues.
In S420, the control unit 201 terminates the published application, and then controls the communication unit 204 to stop transmission of the beacon signal. Note that the control unit 201 may stop transmitting the beacon signal simultaneously with the end of the published application. As a result, the processing load and power consumption of the digital camera 101 can be reduced.

Next, a flow when stopping the beacon signal at a timing other than when the published application ends will be described with reference to FIG. 4C. FIG. 4C is a flowchart illustrating a process of stopping the beacon signal at a timing other than when the published application ends.
Since the processing from S421 to S426 is the same as the processing from S410 to S415, the description thereof is omitted.
In step S427, the control unit 201 determines whether a connection request is received from the smartphone 103 via the communication unit 204. If received (Yes), the process proceeds to step S429. If not received (No), the process proceeds to step S430.
In step S430, the control unit 201 reads time information measured by the timer unit 209 and determines whether or not a predetermined time has elapsed. The predetermined time is a time set in advance based on the user's operation on the operation unit 207. If the predetermined time has not elapsed (No), the process returns to step S427. That is, in this case, the control unit 201 continues to detect connection requests from the smartphone 103 via the communication unit 204. For example, when the predetermined time is set to “1 minute” by the user, the control unit 201 executes processing for prompting the owner of the smartphone 103 to perform connection processing within one minute. S416 and S427, and S417 and S428 are similar processes.

  On the other hand, if the predetermined time has elapsed, the process proceeds to S431. In S431, the control unit 201 controls the communication unit 204 to stop the transmission of the beacon signal. As a result, the digital camera 101 publishes its own network for a certain period of time, and waits for connection from the smartphone 103 before stopping the transmission of the beacon signal. Therefore, transmission of beacon signals can be suppressed to the minimum necessary, and the processing load and power consumption of the digital camera 101 can be reduced.

In step S429, the control unit 201 detects whether the number of smartphones 103 that can be connected when the AP function of the digital camera 101 is activated is connected. The number of station devices that can be connected is set in advance by the user. Then, the control unit 201 determines whether the set number of connections has been detected via the communication unit 204.
When the connection of the set number is detected (Yes), the process proceeds to step S431, and the control unit 201 controls the communication unit 204 to stop transmission of the beacon signal. As described above, the control unit 201 stops the transmission of the beacon signal when the connection of at least one predetermined station device is detected.
When the set number is not reached (No), the control unit 201 continues to detect connection requests from the smartphone 103 via the communication unit 204. For example, in a case where there are two other smartphones 103, the user operates the operation unit 207 to set the number of connectable units to two. If it sets in this way, the control part 201 will stop transmission of a beacon signal at the timing when the two smart phones 103 were connected. Therefore, transmission of a beacon signal can be suppressed to the minimum necessary, and the processing load and power consumption of the digital camera 101 can be reduced.
Since S432 and S418, and S433 and S419 are similar processes, description thereof is omitted.

  The communication flow when a public application is selected has been described above. However, the above flow is an example, and other flows can be considered. For example, in the following cases, the control unit 201 may display the screen of FIG. 5E on the notification unit 206 at the timing of starting the published application, or control the communication unit 204 to send a beacon signal. You may send it. In other words, when a publishable content in the recording unit 205 has been selected in advance by a user's operation on the operation unit 207, or a folder for storing only publishable content in the recording unit 205 has been created. Etc.

  As described above, when using the AP function, the digital camera 101 as the information processing apparatus determines whether or not a beacon signal is transmitted by an application activated by the user. The digital camera 101 transmits a beacon signal only when it is necessary to transmit a beacon signal. As a result, the processing load and power consumption of the digital camera 101 as the information processing apparatus can be reduced.

Although the present invention has been described in detail based on preferred embodiments thereof, the present invention is not limited to these specific embodiments, and various forms within the scope of the present invention are also included in the present invention. included. A part of the above-described embodiments may be appropriately combined.
For example, in the above-described embodiment, a system including a digital camera and a smartphone is used. However, for example, a projector, a printer, another smartphone, a so-called tablet terminal, or the like may be used instead of the digital camera. Further, a personal computer, a digital TV, a so-called tablet terminal, or the like may be used instead of the smartphone.
The present invention can also be realized by executing the following processing. That is, software (program) that realizes the functions of the above-described embodiments is supplied to a system or apparatus via a network or various storage media, and a computer (or CPU, MPU, etc.) of the system or apparatus reads the program. It is a process to be executed.

101: digital camera, 102: smartphone, 102: smartphone, 201: control unit, 202: ROM, 203: RAM, 204: communication unit, 205: recording unit, 206: notification unit, 207: operation unit, 208: imaging unit 209: Timer section

Claims (5)

In a wireless communication system, a communication means for communicating with a station device as a wireless LAN access point;
As an application for transmitting content to the station device connected to the wireless LAN, at least a first application and a second application are provided,
The communication means does not transmit a beacon signal when the first application is selected, and transmits a beacon signal when the second application is selected. apparatus.   The information processing apparatus according to claim 1, wherein when the first application is activated, user authentication is performed.   The second application has only a content publishing function, and the first application has a function of deleting and editing content from the station device and a control function of the information processing apparatus in addition to content publishing. The information processing apparatus according to claim 1 or 2, characterized in that   The information processing apparatus according to claim 1, wherein transmission of a beacon signal is stopped when the second application is terminated.   The beacon signal transmission is stopped when a predetermined number of station devices are connected after starting the second application or when a predetermined time has elapsed. The information processing apparatus described.

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