JP2015152958A - Communication apparatus, control method thereof, and program - Google Patents

Abstract

PROBLEM TO BE SOLVED: To make it possible to refer to content of a plurality of communication apparatuses by holding an external apparatus such as a mobile terminal to a non-contact IC tag only once.SOLUTION: A camera 100 for disclosing a web page in which a URL indicating a content acquisition destination is written performs proximity wireless communication with a non-contact IC tag 300, and the camera 100 can write a wireless LAN connection parameter to connect with a wireless network generated by the camera 100 and the URL of the web page disclosed by the camera 100. When a camera 100a writes its wireless LAN connection parameter and URL in the non-contact IC tag 300, if another camera 100b has already written its wireless LAN connection parameter and URL, the camera 100a updates the web page by associating the already written URL with the web page disclosed by the camera 100a, and writes the URL of the updated web page into the non-contact IC tag 300.

Description

  The present invention relates to a communication device that performs close proximity wireless communication with a storage medium, a control method thereof, and a program.

In recent years, information is read from a storage medium by near field communication such as NFC (Near Field Communication), and an application using near field communication such as a wireless LAN having a communication range longer than that of near field communication is executed based on the read information. Techniques for doing so have been proposed.
For example, in Patent Document 1, a personal computer receives information indicating the address of a server on a network from a contactless IC card, starts a browser program, accesses the server based on the received address information, and the server includes A configuration for acquiring information is disclosed.
By applying this conventional technology, by holding a portable terminal equipped with a proximity wireless communication function over a non-contact IC tag that stores a URL (Uniform Resource Locator) of a web page published by a camera equipped with a web server function, It is possible to realize a system that automatically activates a web browser program included in a portable terminal, connects to a web server indicated by a URL, and automatically displays content managed by the camera.

JP 2005-56122 A

  However, since this system is intended to automatically display a specific Web page, it is assumed that the number of Web servers is one. Therefore, it cannot be applied when there are a plurality of cameras. When browsing the contents of a plurality of cameras on a mobile terminal, whether to rewrite the URL of the camera for which the information of the non-contact IC tag is to be referred to each time, or use the number of non-contact IC tags corresponding to the number of cameras It was necessary and very troublesome.

  The present invention has been made in view of the above points, and an object of the present invention is to make it possible to refer to the contents of a plurality of communication devices by merely holding an external device such as a portable terminal over a non-contact IC tag. And

  A communication device according to the present invention is a communication device that publishes a Web page in which address information indicating a content acquisition destination is described, and performs close proximity wireless communication with a storage medium to connect to the communication device via a network. Close proximity wireless communication means capable of reading and writing the network connection information and the Web page address information of the Web page published by the communication device, and the network connection information and the Web page address information in the storage medium. At the time of writing, the network connection information for network connection with the other communication device and the Web page address information of the Web page published by the other communication device are already written effectively by another communication device. Web page address information already written in the storage medium or the other communication device Control to update the web page by associating the acquired address information of the content with the web page published by the communication device, and writing the web page address information of the updated web page to the storage medium by the proximity wireless communication unit Means.

  According to the present invention, for example, the web page address information of another communication device is associated with its own web page, and the web page address information is written to the storage medium. The contents of a plurality of communication devices can be referred to by simply holding the external device over the storage medium once.

It is a block diagram which shows the internal structure of the camera in 1st Embodiment. It is a block diagram which shows the internal structure of the portable terminal in 1st Embodiment. It is a block diagram which shows the internal structure of the non-contact IC tag in 1st Embodiment. It is a figure which shows an example of the recording format of a non-contact IC tag. It is a figure which shows the network system in 1st Embodiment. It is a figure which shows roughly the flow until it browses with a portable terminal the web page which the camera provided with the web server function uses the non-contact IC tag. It is a sequence diagram which shows the flow of a process which two cameras write in a non-contact IC tag in order in 1st Embodiment. It is a figure which shows the example of a description of the web page in 1st Embodiment. It is a figure which shows the example of the display screen of the camera in 1st Embodiment. It is a sequence diagram which shows the flow of the process which browses the web page of two cameras with a portable terminal using the non-contact IC tag in which the writing process was performed in 1st Embodiment. It is a figure which shows the example of the display screen of the portable terminal in 1st Embodiment. It is a sequence diagram which shows the flow of the process which two cameras write in a non-contact IC tag in order in 2nd Embodiment. It is a figure which shows the example of a description of the web page in 2nd Embodiment. It is a sequence diagram which shows the flow of the process which browses the web page of two cameras with a portable terminal using the non-contact IC tag in which the writing process was performed in 2nd Embodiment. It is a figure which shows the example of the display screen of the portable terminal in 2nd Embodiment. It is a block diagram which shows the internal structure of the camera in 3rd Embodiment. It is a figure which shows the network system in 3rd Embodiment. It is a sequence diagram which shows the flow of the process which two cameras write in a non-contact IC tag in order in 4th Embodiment. It is a figure which shows the example of a description of the web page in 4th Embodiment. It is a figure which shows the example of the display screen of the camera in 4th Embodiment. It is a sequence diagram which shows the flow of a process which browses the web page of two cameras with a portable terminal using the non-contact IC tag in which the write process was performed in 4th Embodiment. It is a figure which shows the example of the display screen of the portable terminal in 4th Embodiment.

Preferred embodiments of the present invention will be described below with reference to the accompanying drawings.
[First Embodiment]
<Configuration of Camera 100>
FIG. 1 is a block diagram showing an internal configuration of a camera 100 that exemplifies a communication device according to the present invention. As shown in FIG. 1, the camera 100 includes a control unit 101, a ROM 102, a RAM 103, a near field communication unit 104, a near field communication unit 105, a display unit 106, an operation unit 107, a recording unit 108, and an imaging unit 109. These components are connected to each other by an internal bus 110 serving as a data transmission path.
The control unit 101 is a processing block that controls the entire camera 100. The control unit 101 includes, for example, a CPU, and implements various functions by executing a program stored in the ROM 102.
The ROM 102 is a non-volatile memory, and stores processing programs and data executed by the control unit 101.
The RAM 103 is a volatile memory, and is used as a working memory of the control unit 101 and a temporary storage area for data.
The close proximity wireless communication unit 104 is a processing block that performs close proximity wireless communication using the NFC method. The close proximity wireless transfer unit 104 includes a resonance circuit having a predetermined inductance and capacitance, a demodulation circuit that demodulates a signal received by the resonance circuit, a transmission circuit that amplifies a carrier wave and transmits the carrier wave. NFC is a proximity wireless communication technology that uses a 13.56 MHz band frequency, and has a communication distance as short as about 10 cm, but is a technology that enables exchange of information with a simple operation of “just touching”.
The short-range wireless communication unit 105 is a processing block that performs wireless LAN communication using IEEE802.11a, b, g, and n, and includes a baseband / MAC controller circuit, an RF module, an antenna, and the like. The short-range wireless communication unit 105 performs wireless communication having a longer communication range than the close-range wireless communication unit 104.
The display unit 106 is a processing block that displays and outputs information to the user, and includes, for example, a liquid crystal panel, an organic EL panel, and the like.
The operation unit 107 is a processing block that receives an instruction input from a user, and includes a button, a cross key, a touch panel, and the like.
The recording unit 108 is a processing block that stores and reads information with respect to a large-capacity recording medium such as an internal hard disk, an internal flash memory, or a removable memory card.
The imaging unit 109 is configured by an optical lens, a CMOS sensor, a digital image processing unit, and the like, and is a processing block that generates a captured image by converting an analog signal input via the optical lens into digital data.

<Configuration of mobile terminal 200>
FIG. 2 is a block diagram showing an internal configuration of the mobile terminal 200 exemplifying an external device according to the present invention. As illustrated in FIG. 2, the mobile terminal 200 includes a control unit 201, a ROM 202, a RAM 203, a near field communication unit 204, a near field communication unit 205, a display unit 206, an operation unit 207, and a recording unit 208. These components are connected to each other by an internal bus 209 as a data transmission path.
The control unit 201 is a processing block that controls the entire mobile terminal 200, and is configured by, for example, a CPU, and implements various functions by executing programs stored in the ROM 202.
The ROM 202 is a non-volatile memory and stores processing programs and data executed by the control unit 201.
The RAM 203 is a volatile memory, and is used as a working memory for the control unit 201 and a temporary storage area for data.
The near field communication unit 204 is a processing block that performs near field communication using the NFC method. The close proximity wireless transfer unit 204 includes a resonance circuit having predetermined inductance and capacitance, a demodulation circuit that demodulates a signal received by the resonance circuit, a transmission circuit that amplifies a carrier wave and transmits the carrier wave.
The short-range wireless communication unit 205 is a processing block that performs wireless LAN communication using IEEE802.11a, b, g, and n, and includes a baseband / MAC controller circuit, an RF module, an antenna, and the like.
The display unit 206 is a processing block that displays and outputs information to the user, and includes, for example, a liquid crystal panel, an organic EL panel, and the like.
The operation unit 207 is a processing block that receives an instruction input from a user, and includes a button, a cross key, a touch panel, and the like.
The recording unit 208 is a processing block that stores and reads information with respect to a large-capacity recording medium such as an internal hard disk, an internal flash memory, or a removable memory card.

<Configuration of non-contact IC tag 300>
FIG. 3 is a block diagram showing an internal configuration of a non-contact IC tag 300 exemplifying a storage medium according to the present invention. As shown in FIG. 3, the non-contact IC tag 300 includes a proximity wireless communication unit 301 and a tag memory 302, and these components are connected to each other.
The near field communication unit 301 is a processing block that performs near field communication using the NFC method. The close proximity wireless transfer unit 301 includes a resonance circuit having a predetermined inductance and capacitance, a demodulation circuit that demodulates a signal received by the resonance circuit, a transmission circuit that amplifies a carrier wave and transmits the carrier wave.
The tag memory 302 is a small-capacity nonvolatile memory, and reading and writing are executed according to a request signal received by the close proximity wireless transfer unit 301. FIG. 4 shows an example of the recording format of the tag memory 302. As shown in FIG. 4, the recording format includes a 32-byte SSID (Service Set Identifier) 401, a 64-byte encryption key 402, and a 32-byte URL 403. The SSID 401 and the encryption key 402 are wireless LAN connection parameters for connecting to a wireless network generated by the short-range wireless communication unit 105 of the camera 100. URL 403 is Web page address information of a Web page published by the Web server function of the camera 100.

<Network system configuration>
FIG. 5 is a diagram illustrating a network system according to the first embodiment. As shown in FIG. 5, the network system includes two cameras 100 a, a camera 100 b, a mobile terminal 200, and a non-contact IC tag 300. The cameras 100a and 100b mean that there are two cameras 100 having the same configuration.
As shown in FIG. 5, the camera 100a and the camera 100b and the non-contact IC tag 300, and the portable terminal 200 and the non-contact IC tag 300 can communicate with each other by proximity wireless communication using the NFC method. The camera 100a, the camera 100b, and the mobile terminal 200 have a reader / writer function defined by the NFC standard, and can read and write information by proximity wireless communication with a non-contact IC tag 300 that also has a card function defined by the NFC standard. is there. In addition, although NFC was mentioned as an example of a near field communication system in this embodiment, it is not limited to this example. It may be an infrared port or the like according to other close proximity wireless communication standards, for example, IrDA (Infrared Data Association) standards.

  Further, as shown in FIG. 5, the camera 100a, the camera 100b, and the mobile terminal 200 can communicate with each other by short-range wireless communication using a wireless LAN system. The camera 100a and the camera 100b have a STA (station) function and an AP (access point) function defined by the wireless LAN standard, and these functions can be selectively executed. The mobile terminal 200 has a STA function and can perform wireless LAN communication in infrastructure mode with a camera that executes an AP function. Although not explicitly shown in FIG. 5, short-range wireless communication by the wireless LAN method is also possible between the camera 100a and the camera 100b. In that case, either one executes the AP function. In the present embodiment, the wireless LAN method is described as an example of the short-range wireless communication method, but the present invention is not limited to this example. Bluetooth (registered trademark) communication according to the standard specification according to IEEE802.15.1, which is another short-range wireless communication standard, may be used.

<Overview of writing and browsing sequence>
FIG. 6 is a diagram schematically showing a flow until the mobile terminal 200 browses a web page published by the camera 100 having the web server function using the non-contact IC tag 300.
First, the camera 100 does not contact the wireless LAN connection parameters (SSID, encryption key) related to the wireless LAN network generated by its own AP function and the URL of the Web page published by its own Web server function by contactless wireless communication. Write to the IC tag 300 (step S601).
Next, when the portable terminal 200 is held over the non-contact IC tag 300, the portable terminal 200 reads the wireless LAN connection parameter and the URL from the non-contact IC tag 300 by proximity wireless communication (step S602).
Next, the mobile terminal 200 connects to the wireless LAN network generated by the camera 100 using the read wireless LAN connection parameter, and subsequently sends a request to the camera 100 to acquire a web page based on the read URL. Transmit (step S603). In response, the camera 100 transmits its own web page to the mobile terminal 200 (step S604). Here, the Web page is HTML data in which a thumbnail image of the media content managed by the camera 100 and a URL indicating the acquisition source of the main body data are described. The mobile terminal 200 acquires the Web page by acquiring the Web page. The thumbnail image list can be displayed on the display screen.

Hereinafter, a writing process sequence performed between the cameras 100a and 100b and the non-contact IC tag 300 will be described.
<Write sequence>
FIG. 7 is a sequence diagram showing a flow of processing in which the camera 100b and the camera 100a sequentially write to the non-contact IC tag 300. As a premise, it is assumed that no valid information is written in the tag memory 302 of the non-contact IC tag 300 at the start of this sequence.

First, the writing sequence of the camera 100b will be described.
In step S701, the control unit 101 of the camera 100b transitions to a non-contact IC tag writing mode for executing writing to the non-contact IC tag 300 when the user performs a predetermined operation. For example, when a predetermined button of the operation unit 107 is pressed, the mode may be changed to the non-contact IC tag writing mode.

  In step S <b> 702, the control unit 101 of the camera 100 b transmits a read request signal for requesting reading of tag information of the non-contact IC tag 300 by the close proximity wireless communication unit 104. The communicable range by the close proximity wireless communication unit 104 is within a close distance range of about 10 cm in the case of the NFC method. Therefore, for example, a screen that prompts the user to bring the camera 100b close to (touch) the non-contact IC tag 300 is displayed on the display unit 106 of the camera 100b. Accordingly, the user touches the non-contact IC tag 300 with the camera 100b, and the read request signal transmitted from the close proximity wireless communication unit 104 reaches the close proximity wireless communication unit 301 of the non contact IC tag 300. Note that the shaded portion on the vertical axis in FIG. 7 indicates a state in which the devices are close to each other within the communicable range of NFC communication.

  In step S <b> 703, the control unit 101 of the camera 100 b receives the read response signal through the close proximity wireless transfer unit 104. The read response signal includes tag information (SSID, encryption key, URL) read from the tag memory 302 by the non-contact IC tag 300.

In step S704, the control unit 101 of the camera 100b determines whether all the values of the tag information (SSID, encryption key, URL) received in step S703 are valid. Since no valid information is written in the tag memory 302 of the non-contact IC tag 300 at the start of this sequence, the determination result is “invalid” in this step.
The determination process here is performed based on whether or not it complies with the standard description format. Specifically, the SSID and the encryption key are based on whether or not they conform to the format defined in IEEE 802.11, and the URL is RFC (Request For Comments) 1738 “Uniform Resource Locators (URL)”. The determination is made based on whether or not the method conforms to the method defined in the above.

In step S705, the control unit 101 of the camera 100b activates the wireless LAN AP function, and the short-range wireless communication unit 105 generates a wireless LAN network (SSID, encryption key). The SSID and the encryption key may be automatically generated at random by the control unit 101. Here, as an example, the SSID is “CameraB” and the encryption key is “abcde12345”. In this step, a DHCP (Dynamic Host Configuration Protocol) server function and a Web server function are also activated with the activation of the AP function.
DHCP is a protocol that dynamically assigns network addresses to devices, and the server function is a function on the side of assigning network addresses. The DHCP server function assigns a predetermined network address to the camera 100b at the same time as activation. Here, “192.168.1.1” is assumed as an example.
As described above, the Web server function is a function for publishing a Web page for referring to media content managed by the camera 100. The web server function generates the URL of the web page based on the network address assigned at the time of activation. Here, “http://192.168.1.1/top.html” is assumed as an example of the URL of the Web page of the camera 100b. The web page is described in an HTML (HyperText Markup Language) system. FIG. 8A shows a description example of the Web page of the camera 100b as an example. In FIG. 8A, media contents (bX.jpg, X = 1 to N) managed by the camera 100b are described in a table format.

  In step S <b> 706, the control unit 101 of the camera 100 b transmits a write request signal for requesting writing of tag information of the non-contact IC tag 300 by the proximity wireless communication unit 104. The write request signal includes the SSID, encryption key, and URL generated in step S705.

In step S707, the control unit 101 of the camera 100b receives the write response signal by the close proximity wireless transfer unit 104. The write response signal includes a success message notifying that the contactless IC tag 300 has successfully written the SSID, encryption key, and URL received in step S706 in the tag memory 302.
When the writing response signal is normally received, the writing sequence of the camera 100b ends. In order to notify the user of the end of the writing process, a screen indicating that the writing process has ended may be displayed on the display unit 106 of the camera 100b. FIG. 9A shows an example of the display screen of the camera.
In steps S701 to S707 as described above, the writing sequence of the camera 100b with respect to the non-contact IC tag 300 ends.

Next, a writing sequence of the camera 100a that is continuously executed will be described.
In step S708, the control unit 101 of the camera 100a transitions to a non-contact IC tag writing mode for executing writing to the non-contact IC tag 300 when the user performs a predetermined operation.

  In step S <b> 709, the control unit 101 of the camera 100 a transmits a read request signal for requesting reading of tag information of the non-contact IC tag 300 by the close proximity wireless communication unit 104. Similar to step S <b> 702, when the user touches the non-contact IC tag 300 with the camera 100 a, the read request signal transmitted from the close proximity wireless communication unit 104 reaches the close proximity wireless communication unit 301 of the non-contact IC tag 300.

  In step S <b> 710, the control unit 101 of the camera 100 a receives the read response signal through the close proximity wireless transfer unit 104. The read response signal includes tag information (SSID, encryption key, URL) read from the tag memory 302 by the non-contact IC tag 300.

  In step S711, the control unit 101 of the camera 100a determines whether or not all the tag information (SSID, encryption key, URL) values received in step S710 are valid. The determination criteria are the same as in step S704. In this step, since valid information has already been written by the camera 100b in the above-described step, the determination result is “valid”.

  In step S712, the control unit 101 of the camera 100a activates the wireless LAN STA function, and the short-range wireless communication unit 105 transmits a connection request signal to the wireless LAN network. The connection request signal to the wireless LAN network includes the wireless LAN connection parameters (SSID, encryption key) received in step S710. The connection request signal to the wireless LAN network transmitted here is processed by the camera 100b.

  In step S713, the control unit 101 of the camera 100a receives the wireless LAN network connection response signal by the short-range wireless communication unit 105. In the wireless LAN network connection response signal, a success message notifying that the camera 100b has permitted the connection of the camera 100a to the wireless LAN network based on the wireless LAN connection parameters (SSID, encryption key) received in step S712. Is included.

  In step S714, the control unit 101 of the camera 100a activates the DHCP client function, and transmits a network address acquisition request signal by the short-range wireless communication unit 105. The network address acquisition request signal transmitted here is processed by the camera 100b.

  In step S715, the control unit 101 of the camera 100a receives a network address request response signal by the short-range wireless communication unit 105. The network address request response signal includes a network address assigned by the DHCP server function of the camera 100b. Here, as an example, “192.168.1.2” is assumed.

In step S716, the control unit 101 of the camera 100a updates its own web page by associating the URL received in step S710 with its own web page, and activates the web server function. The association process is performed by inserting the URL received in step S710 as a link into its own web page.
Hereinafter, the association process will be specifically described. FIG. 8B shows an example of the HTML description of the web page of the camera 100a before executing the association process. As shown in FIG. 8B, media contents (aX.jpg, X = 1 to N) managed by the camera 100a are described in a table format on the Web page. FIG. 8C shows an example of an HTML description of the web page of the camera 100a after the association process is executed. As shown in FIG. 8C, a link 801 to the Web page of the camera 100b is additionally inserted into the Web page of the camera 100a. The URL received in step S710 is set in an anchor tag (<a> tag) that specifies a link destination in HTML.
The control unit 101 activates the Web server function after updating its own Web page by performing the above association process. The URL of its own web page is generated based on the network address acquired in step S715. Here, as an example of the URL of the Web page of the camera 100a, “http://192.168.1.2/top.html” is assumed.

  In step S717, the control unit 101 of the camera 100a transmits a write request signal for requesting writing of tag information of the non-contact IC tag 300 by the proximity wireless communication unit 104. The write request signal includes the URL generated in step S716. Since the camera 100a does not write the wireless LAN connection parameters (SSID, encryption key), the write request signal transmitted in this step does not include the wireless LAN connection parameters (SSID, encryption key).

In step S718, the control unit 101 of the camera 100a receives the write response signal by the close proximity wireless transfer unit 104. The write response signal includes a success message notifying that the contactless IC tag 300 has successfully written the URL received in step S717 in the tag memory 302. Note that the non-contact IC tag 300 has not received the wireless LAN connection parameters (SSID, encryption key) in step S717, and therefore does not rewrite the wireless LAN connection parameters.
When the writing response signal is normally received, the writing sequence of the camera 100a ends. In order to notify the user of the end of the writing process, a screen indicating that the writing process has ended may be displayed on the display unit 106 of the camera 100a. FIG. 9B shows an example of the display screen of the camera.
In steps S709 to S718 thus performed, the writing sequence of the camera 100a with respect to the non-contact IC tag 300 ends.
In the above, with reference to FIG. 7, the sequence indicating the flow of processing in which the camera 100b and the camera 100a sequentially write to the non-contact IC tag 300 has been described.

Next, a processing sequence for browsing the web pages of the camera 100a and the camera 100b with the portable terminal 200 using the non-contact IC tag 300 that has been subjected to the writing process according to the processing sequence of FIG. 7 will be described.
<Browsing sequence>
FIG. 10 is a sequence diagram showing a flow of processing for browsing the web pages of the cameras 100a and 100b on the portable terminal 200 using the non-contact IC tag 300 on which the writing process is executed according to the processing sequence of FIG.

  In step S <b> 1001, the control unit 201 of the mobile terminal 200 shifts to a non-contact IC tag reading mode for reading information of the non-contact IC tag 300 when the user performs a predetermined operation. For example, when a predetermined button of the operation unit 207 is pressed, the mode may be changed to the non-contact IC tag reading mode. Or you may make it change automatically when the power supply of the portable terminal 200 is turned on.

  In step S <b> 1002, the control unit 201 of the mobile terminal 200 transmits a read request signal for requesting reading of tag information of the non-contact IC tag 300 by the proximity wireless communication unit 204. As in step S <b> 702, when the user touches the non-contact IC tag 300 with the portable terminal 200, the read request signal transmitted from the close proximity wireless communication unit 204 reaches the close proximity wireless communication unit 301 of the non contact IC tag 300. .

  In step S <b> 1003, the control unit 201 of the mobile terminal 200 receives the read response signal through the close proximity wireless transfer unit 204. The read response signal includes tag information (SSID, encryption key, URL) read from the tag memory 302 by the non-contact IC tag 300. The close proximity wireless communication between the portable terminal 200 and the non-contact IC tag 300 ends here.

  In step S1004, the control unit 201 of the mobile terminal 200 activates the STA function of the wireless LAN, and uses the wireless LAN connection parameters (SSID, encryption key) received in step S1003 by the short-range wireless communication unit 205 to establish a wireless LAN. Send a connection request signal to the network. The connection request signal to the wireless LAN network transmitted here is processed by the camera 100b.

  In step S <b> 1005, the control unit 201 of the mobile terminal 200 receives a wireless LAN network connection response signal by the short-range wireless communication unit 205. Success in notifying the wireless LAN network connection response signal that the camera 100b has permitted the connection of the portable terminal 200 to the wireless LAN network based on the wireless LAN connection parameters (SSID, encryption key) received in step S1004. Contains a message.

  In step S <b> 1006, the control unit 201 of the mobile terminal 200 activates the DHCP client function and transmits a network address acquisition request signal by the short-range wireless communication unit 205. The network address acquisition request signal transmitted here is processed by the camera 100b.

  In step S <b> 1007, the control unit 201 of the mobile terminal 200 receives a network address request response signal through the short-range wireless communication unit 205. The network address request response signal includes a network address assigned by the DHCP server function of the camera 100b. Here, as an example, “192.168.1.3” is assumed.

  In step S1008, the control unit 201 of the mobile terminal 200 activates a web browser program, and the short-range wireless communication unit 205 transmits a web page acquisition request signal to the URL received in step S1003. Here, since the URL received in step S1003 is the URL of the web page of the camera 100a, the web page acquisition request signal in this step is transmitted to the camera 100a.

  In step S1009, the control unit 201 of the mobile terminal 200 receives the web page acquisition response signal by the web server function of the camera 100a by the short-range wireless communication unit 205. The web page acquisition response signal includes the web page of the camera 100a (FIG. 8C).

  In step S1010, the control unit 201 of the mobile terminal 200 transmits a thumbnail image acquisition request signal to the URL of each thumbnail image included in the Web page received in step S1009 by the short-range wireless communication unit 205. The thumbnail image acquisition request signal is transmitted to the camera 100a.

  In step S1011, the control unit 201 of the mobile terminal 200 receives the thumbnail image acquisition response signal by the Web server function of the camera 100a by the short-range wireless communication unit 205. The thumbnail image acquisition request signal includes thumbnail image data. Note that the thumbnail image acquisition processing (steps S1010 and S1011) is actually repeated for the number of thumbnail images. However, here, the description will be given once for the sake of simplicity. The thumbnail image acquired in this step is displayed on the display unit 206 by the Web browser program. An example of the Web page displayed here is shown in FIG. In FIG. 11A, frames indicated by a1, a2,... Indicate thumbnail images of media contents managed by the camera 100a. Then, a link 1101 for referring to the image of the camera 100b is displayed. The link 1101 is a link corresponding to the description illustrated as the link 801 in FIG.

  In step S <b> 1012, the control unit 201 of the mobile terminal 200 receives a selection operation of the link 1101 by the user via the operation unit 207.

  In step S1013, the control unit 201 of the mobile terminal 200 transmits a web page acquisition request signal to the URL indicated by the link selected in step S1012 by the short-range wireless communication unit 205. Here, since the URL indicated by the link is the URL of the web page of the camera 100b, the web page acquisition request signal in this step is transmitted to the camera 100b.

  In step S1014, the control unit 201 of the mobile terminal 200 receives the web page acquisition response signal by the web server function of the camera 100b by the short-range wireless communication unit 205. The web page acquisition response signal includes the web page of the camera 100b (FIG. 8A).

  In step S1015, the control unit 201 of the mobile terminal 200 transmits a thumbnail image acquisition request signal to the URL of each thumbnail image included in the Web page received in step S1014 by the short-range wireless communication unit 205. The thumbnail image acquisition request signal is transmitted to the camera 100b.

In step S1016, the control unit 201 of the mobile terminal 200 receives the thumbnail image acquisition response signal by the Web server function of the camera 100b by the short-range wireless communication unit 205. The thumbnail image acquisition request signal includes thumbnail image data. It should be noted that the thumbnail image acquisition processing (steps S1015 and S1016) is actually repeated for the number of thumbnail images, but here it will be described once for the sake of simplicity. The thumbnail image acquired in this step is displayed on the display unit 206 by the Web browser program. An example of the Web page displayed here is shown in FIG. 11B, frames indicated by b1, b2,... Indicate thumbnail images of media content managed by the camera 100b.
The sequence of processing for browsing the web pages of the camera 100a and the camera 100b on the mobile terminal 200 using the non-contact IC tag 300 that has been subjected to the writing processing according to the processing sequence of FIG. 7 has been described above with reference to FIG. did.

  As described above, when the camera 100a writes the SSID, encryption key, and URL to the contactless IC tag 300, if the camera 100b has already written a valid SSID, encryption key, and URL, the URL of the camera 100b is changed to its own. After inserting and associating with the web page, the URL of the web page is written to the non-contact IC tag 300. Thereby, it is possible to refer to the media content managed by the camera 100a and the camera 100b only by holding the portable terminal 200 over the non-contact IC tag 300 once.

In FIG. 7, the processing is branched only based on the result of determination as to whether or not the information written in the non-contact IC tag 300 is valid. In this case, information is once stored in the non-contact IC tag 300. Is written, the wireless LAN connection parameters are not updated thereafter. On the other hand, an embodiment in which processing is branched based on different conditions can be realized.
For example, information written to the non-contact IC tag 300 may have an expiration date. When writing information to the non-contact IC tag 300, the time stamp information is also written together. When the next device writes information to the non-contact IC tag 300, the time stamp of the already written information is old. This can be realized by controlling so as to determine “invalid”.
Further, as the non-contact IC tag writing mode, the camera 100 is provided with two types of modes, that is, a mode for executing the determination process (FIG. 7) and a mode for not executing the determination process so that the user can selectively execute the mode. Also good. In the mode in which the determination process is not executed, steps S705 to S707 are always executed, and the wireless LAN connection parameter on the non-contact IC tag 300 is updated by executing this.

[Second Embodiment]
In the first embodiment, an example has been described in which the camera 100a performs association by inserting the URL of the Web page of the camera 100b as a link in its own Web page. In the present embodiment, an example will be described in which the camera 100a acquires the metadata information of the media content of the camera 100b, and executes the association by inserting the URL of each content as a link in the image unit on its own Web page.
In addition, about the component which has the function structure substantially the same as 1st Embodiment, duplication description is abbreviate | omitted by attaching | subjecting the same code | symbol, and it demonstrates in detail about the characteristic part of 2nd Embodiment. To do. Further, the internal configuration and network system configuration of the camera 100, the portable terminal 200, and the non-contact IC tag 300 are the same as those in the first embodiment, and thus the description thereof is omitted.

<Write sequence>
FIG. 12 is a sequence diagram showing a flow of processing in which the camera 100b and the camera 100a sequentially write to the non-contact IC tag 300. As a premise, the Web server function of the camera 100a and the camera 100b publishes a URL (WebAPI) for acquiring information related to its own media content from the outside, and the URL specifications are the camera 100a and the camera 100b. It shall be the same. In other words, if the camera 100a can acquire the network address information of the camera 100b, the camera 100a can issue a request for acquiring information related to the media content of the camera 100b. Here, the information related to the media content includes a URL for acquiring main data of the media content and a URL for acquiring a thumbnail image of the media content.

  In step S1201, the control unit 101 of the camera 100a transmits a media content information acquisition request signal by the short-range wireless communication unit 105 based on the URL received in step S710. The control unit 101 acquires the network address information of the camera 100b from the URL received in step S710, configures a URL for acquiring information related to the media content of the camera 100b based on the URL, and executes the request.

  In step S1202, the control unit 101 of the camera 100a receives the media content information acquisition response signal through the short-range wireless communication unit 105. The media content information acquisition response signal includes information related to the media content managed by the camera 100b.

In step S1203, the control unit 101 of the camera 100a associates the URL of the main body data of the media content and the URL of the thumbnail image included in the information related to the media content received in step S1202 with its own Web page. The web page is updated and the web server function is activated. The association process is performed by inserting the URL received in step S1202 as a link into its own web page.
Hereinafter, the association process will be specifically described. FIG. 8B is an example of an HTML description of the Web page of the camera 100a before executing the association process, as described in the first embodiment. FIG. 13 shows an example of the HTML description of the Web page of the camera 100a after executing the association process. As shown in FIG. 13, a link 1301 to the main body image and thumbnail image of the camera 100b is additionally inserted into the Web page of the camera 100a in units of images. In the HTML, the URL of the main body data received in step S1202 is set in the anchor tag (<a> tag) that specifies the link destination, and the URL of the thumbnail image is set in the image tag (<img> tag). Note that the insertion order may be, for example, the order of image generation date and time. In this case, the media content information received in step S1202 includes image generation date / time information.
The control unit 101 activates the Web server function after updating its own Web page by performing the above association process. The URL of its own web page is generated based on the network address acquired in step S715. Here, as an example of the URL of the Web page of the camera 100a, “http://192.168.1.2/top.html” is assumed.
In the above, with reference to FIG. 12, the sequence indicating the flow of processing in which the camera 100b and the camera 100a sequentially write to the non-contact IC tag 300 has been described.

Next, a processing sequence for browsing the web pages of the camera 100a and the camera 100b with the mobile terminal 200 using the non-contact IC tag 300 that has been subjected to the writing process according to the processing sequence of FIG. 12 will be described.
<Browsing sequence>
FIG. 14 is a sequence diagram showing a flow of processing for browsing the web pages of the camera 100a and the camera 100b on the portable terminal 200 using the non-contact IC tag 300 on which the writing process has been executed by the processing sequence of FIG.
As shown in steps S1401 to S1404, the control unit 201 of the mobile terminal 200 receives the web page acquisition response signal in step S1009, and then based on the URL of the thumbnail image described in the web page received in step S1009. Then, a thumbnail image acquisition request is transmitted to the camera 100a or the camera 100b to acquire a thumbnail image. The thumbnail image acquired in this step is displayed on the display unit 206 by the Web browser program. An example of the Web page displayed here is shown in FIG. As shown in FIG. 15, the thumbnail image of the camera 100 a and the thumbnail image of the camera 100 b are mixedly displayed on the display screen of the mobile terminal 200.
The processing sequence for browsing the web pages of the camera 100a and the camera 100b on the portable terminal 200 using the non-contact IC tag 300 that has been subjected to the writing process according to the processing sequence of FIG. 12 has been described above with reference to FIG. did.

  As described above, the camera 100a acquires information related to the media content of the camera 100b (URL of main body data, URL of thumbnail image), and uses the information to insert an image unit link into its own Web page. Make associations. Thereby, the mobile terminal 200 can refer to the media content managed by the camera 100a and the camera 100b in one web page.

[Third Embodiment]
In this embodiment, an example in which the non-contact IC tag 300 is built in the camera 100 will be described.
<Configuration of Camera 100>
FIG. 16 is a block diagram showing an internal configuration of the camera 100 in the present embodiment. As shown in FIG. 16, the camera 100 includes a tag memory 1601 in addition to the blocks described in FIG. The tag memory 1601 has the same configuration as the tag memory 302 described in the first embodiment. The tag memory 1601 is connected to the internal bus 110, and information is read and written in response to a request from the control unit 101 or a request from an external device received by the close proximity wireless transfer unit 104.

<Network system configuration>
FIG. 17 is a diagram illustrating a network system according to the third embodiment. As shown in FIG. 17, the network system includes two cameras 100 a, a camera 100 b, and a mobile terminal 200.
As shown in FIG. 17, the camera 100a can read and write information from and to the tag memory 1601 of the camera 100b by near field wireless communication using the NFC method. In addition, the mobile terminal 200 can read and write information from and to the tag memory 1601 of the camera 100b by proximity wireless communication using the NFC method. The camera 100a and the camera 100b have both a reader / writer function and a card function defined by the NFC standard, and can be selectively executed.

<Write sequence>
Hereinafter, a writing process sequence performed between the camera 100a and the camera 100b will be described. Note that this embodiment is different from the first embodiment only in the internal configuration of the camera 100, and only points different from the contents of the first embodiment will be described with reference to FIG.
First, in the sequence diagram shown in FIG. 7, the non-contact IC tag 300 is independent from the camera 100b. In the present embodiment, the non-contact IC tag 300 is included in the camera 100b. Along with this, the contents of several processing steps are replaced as follows.
Steps S702 and S703 are replaced with processing in which the control unit 101 of the camera 100b directly reads tag information (SSID, encryption key, URL) from the tag memory 1601.
Steps S706 and S707 are replaced with a process in which the control unit 101 of the camera 100b directly writes tag information to the tag memory 1601.
Steps S709 and S710 are replaced with processing in which the control unit 101 of the camera 100a reads tag information from the tag memory 1601 of the camera 100b by the close proximity wireless communication unit 104. The control unit 101 of the camera 100b reads tag information from the tag memory 1601 in response to the read request signal received by the close proximity wireless transfer unit 104. Then, the read tag information is transmitted to the camera 100a as a read response signal.
Steps S717 and S718 are replaced with a process in which the control unit 101 of the camera 100a writes a URL to the tag memory 1601 of the camera 100b by the proximity wireless communication unit 104. The control unit 101 of the camera 100b writes the URL included in the write request signal in the tag memory 1601 in response to the write request signal received by the close proximity wireless transfer unit 104. Then, a write completion notification is transmitted to the camera 100a as a write response signal.

[Fourth Embodiment]
In the first embodiment, an example has been described in which the camera 100a performs association by inserting the URL of the Web page of the camera 100b as a link in its own Web page. In the present embodiment, an example will be described in which the camera 100b performs association by inserting the URL of the Web page of the camera 100a as a link in its own Web page.
In addition, about the component which has the function structure substantially the same as 1st Embodiment, duplication description is abbreviate | omitted by attaching | subjecting the same code | symbol, and it demonstrates in detail about the characteristic part of 2nd Embodiment. To do. Further, the internal configuration and network system configuration of the camera 100, the portable terminal 200, and the non-contact IC tag 300 are the same as those in the first embodiment, and thus the description thereof is omitted.

<Write sequence>
FIG. 18 is a sequence diagram showing a flow of processing in which the camera 100b and the camera 100a sequentially write to the non-contact IC tag 300. As a premise, the Web server function of the camera 100a and the camera 100b has a function of executing processing for associating the URL of the Web page designated by the external device with its own Web page in response to a request from the external device. Further, it is assumed that the URL specifications accessed for requesting the association process are the same for the camera 100a and the camera 100b. That is, if the camera 100a can acquire the network address information of the camera 100b, the camera 100a can issue a request for associating the URL of its own Web page with the Web page of the camera 100b.

  In step S1801, the control unit 101 of the camera 100a determines whether all the values of the tag information (SSID, encryption key, URL) received in step S710 are valid. The determination criteria are the same as in step S704. In this step, since valid information has already been written by the camera 100b in the above-described step, the determination result is “valid”. The close proximity wireless communication between the camera 100a and the non-contact IC tag 300 ends here.

  In step S1802, the control unit 101 of the camera 100a generates a URL of its own web page based on the network address acquired in step S715, and activates the web server function. Here, as an example of the URL of the Web page of the camera 100a, “http://192.168.1.2/top.html” is assumed.

  In step S1803, the control unit 101 of the camera 100a specifies the network address of the camera 100b from the URL received in step S710, and transmits a web page association request signal to the camera 100b by the short-range wireless communication unit 105. The web page association request signal includes the URL of the web page of the camera 100a generated in step S1802.

In step S1804, the control unit 101 of the camera 100b updates its own Web page by associating the URL of the Web page transmitted from the camera 100a with the Web page of the camera 100b. Similar to the first embodiment, the association process is performed by inserting a URL as a link into its own web page.
Hereinafter, the association process will be specifically described. FIG. 8A is an example of an HTML description of the Web page of the camera 100b before executing the association process. As shown in FIG. 8A, media contents (bX.jpg, X = 1 to N) managed by the camera 100b are described in a table format on the Web page. FIG. 19 shows an example of the HTML description of the Web page of the camera 100b after executing the association process. As shown in FIG. 19, a link 1901 to the Web page of the camera 100a is additionally inserted into the Web page of the camera 100b. The URL received in step S1803 is set in an anchor tag (<a> tag) that specifies a link destination in HTML.

In step S1805, the control unit 101 of the camera 100a receives the web page association response signal from the camera 100b by the short-range wireless communication unit 105. The Web page association response signal includes a success message notifying that the URL association has been completed by the camera 100b.
When the web page association response signal is normally received, the writing sequence of the camera 100a ends. In order to notify the user of the end of the writing process, a screen indicating that the writing process has ended may be displayed on the display unit 106 of the camera 100a. FIG. 20 shows an example of the display screen of the camera.
In the above, with reference to FIG. 18, the sequence indicating the flow of processing in which the camera 100b and the camera 100a sequentially write to the non-contact IC tag 300 has been described.

Next, a processing sequence for browsing the web pages of the camera 100a and the camera 100b with the portable terminal 200 using the non-contact IC tag 300 that has been subjected to the writing processing according to the processing sequence of FIG. 18 will be described.
<Browsing sequence>
FIG. 21 is a sequence diagram showing a flow of processing for browsing the web pages of the camera 100a and the camera 100b on the portable terminal 200 using the non-contact IC tag 300 on which the writing process is executed by the processing sequence of FIG.
In step S2101, the control unit 201 of the portable terminal 200 activates a web browser program, and the short-range wireless communication unit 205 transmits a web page acquisition request signal to the URL received in step S1003. Here, since the URL received in step S1003 is the URL of the web page of the camera 100b, the web page acquisition request signal in this step is transmitted to the camera 100b.

  In step S2102, the control unit 201 of the mobile terminal 200 receives a web page acquisition response signal by the web server function of the camera 100b by the short-range wireless communication unit 205. Here, the Web page acquisition response signal includes the Web page of the camera 100b (FIG. 19).

  In step S2103, the control unit 201 of the portable terminal 200 transmits a thumbnail image acquisition request signal to the URL of each thumbnail image included in the Web page received in step S2102 by the short-range wireless communication unit 205. The thumbnail image acquisition request signal is transmitted to the camera 100b.

  In step S2104, the control unit 201 of the mobile terminal 200 receives the thumbnail image acquisition response signal by the Web server function of the camera 100b by the short-range wireless communication unit 205. The thumbnail image acquisition request signal includes thumbnail image data. Note that the thumbnail image acquisition processing (steps S2103 and S2104) is actually repeated for the number of thumbnail images. However, here, the description will be given once for the sake of simplicity. The thumbnail image acquired in this step is displayed on the display unit 206 by the Web browser program. An example of the Web page displayed here is shown in FIG. In FIG. 22A, frames indicated by b1, b2,... Indicate thumbnail images of media content managed by the camera 100b. Then, a link 2201 for referring to the image of the camera 100a is displayed. The link 2201 is a link corresponding to the description illustrated as the link 1901 in FIG.

  In step S2105, the control unit 201 of the mobile terminal 200 transmits a web page acquisition request signal to the URL indicated by the link selected in step S1012 by the short-range wireless communication unit 205. Here, since the URL indicated by the link is the URL of the Web page of the camera 100a, the Web page acquisition request signal in this step is transmitted to the camera 100a.

  In step S2106, the control unit 201 of the mobile terminal 200 receives the web page acquisition response signal by the web server function of the camera 100a by the short-range wireless communication unit 205. Here, the Web page acquisition response signal includes the Web page of the camera 100a (FIG. 8B).

  In step S2107, the control unit 201 of the mobile terminal 200 transmits a thumbnail image acquisition request signal to the URL of each thumbnail image included in the Web page received in step S2106 by the short-range wireless communication unit 205. The thumbnail image acquisition request signal is transmitted to the camera 100a.

In step S2108, the control unit 201 of the mobile terminal 200 receives the thumbnail image acquisition response signal by the Web server function of the camera 100a by the short-range wireless communication unit 205. The thumbnail image acquisition request signal includes thumbnail image data. Note that the thumbnail image acquisition processing (steps S2107 and S2108) is actually repeated for the number of thumbnail images. However, here, the description will be given once for the sake of simplification. The thumbnail image acquired in this step is displayed on the display unit 206 by the Web browser program. An example of the Web page displayed here is shown in FIG. In FIG. 22B, frames indicated by a1, a2,... Indicate thumbnail images of media contents managed by the camera 100a.
The processing sequence for browsing the web pages of the camera 100a and the camera 100b on the portable terminal 200 using the non-contact IC tag 300 that has been subjected to the writing process according to the processing sequence of FIG. 18 has been described above with reference to FIG. did.

As described above, when the camera 100a writes the Web page information to the non-contact IC tag 300, if the valid Web page information is already written by the camera 100b, the camera 100b sets the URL of the Web page of the camera 100a. Associations are made by inserting them into their web pages as links. Thereby, it is possible to refer to the media content managed by the camera 100a and the camera 100b only by holding the portable terminal 200 over the non-contact IC tag 300 once.
In addition, as shown in FIG. 18, it is possible to reduce the time for close proximity wireless communication with the non-contact IC tag 300 of the camera 100a.

(Other embodiments)
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.

100: Camera, 101: Control unit, 102: ROM, 103: RAM, 104: Near field communication unit, 105: Near field communication unit, 106: Display unit, 107: Operation unit, 108: Recording unit, 109: Imaging Unit: 110: internal bus; 200: portable terminal; 201: control unit; 202: ROM; 203: RAM; 204: near field communication unit; 205: near field communication unit; 206: display unit; 208: Recording unit, 209: Internal bus, 300: Non-contact IC tag, 301: Proximity wireless communication unit, 302: Tag memory

Claims (9)

A communication device that publishes a Web page in which address information indicating a content acquisition destination is described,
It is possible to perform proximity wireless communication with a storage medium and read and write network connection information for network connection with the communication device and Web page address information of a Web page published by the communication device. Close proximity wireless communication means;
When the network connection information and the Web page address information are written in the storage medium, the network connection information for network connection with the other communication device by another communication device and the Web that the other communication device makes public When the Web page address information of the page is written effectively, the communication device publishes the Web page address information already written in the storage medium or the content address information acquired from the other communication device. A communication device comprising: a control unit that updates a Web page in association with a Web page, and writes the Web page address information of the updated Web page in the storage medium by the proximity wireless communication unit. A communication device that publishes a Web page in which address information indicating a content acquisition destination is described,
It is possible to perform proximity wireless communication with a storage medium and read and write network connection information for network connection with the communication device and Web page address information of a Web page published by the communication device. Close proximity wireless communication means;
When the network connection information and the Web page address information are written in the storage medium, the network connection information for network connection with the other communication device by another communication device and the Web that the other communication device makes public When the Web page address information of the page is effectively written, the Web page address information of the Web page published by the communication device or the address information of the content managed by the communication device is sent to the other communication device. And a control means for requesting association with a Web page published by the other communication device.   The control means obtains address information from the other communication device using the network connection information already written in the storage medium, and based on the address information, obtains the Web page address information of the updated Web page. The communication device according to claim 1, wherein the communication device is generated.   The communication device according to any one of claims 1 to 3, further comprising a storage medium capable of reading and writing information by proximity wireless communication.   5. The communication device according to claim 1, wherein the close proximity wireless communication is NFC communication. A method for controlling a communication device that publishes a Web page in which address information indicating a content acquisition destination is described,
When writing network connection information for performing close proximity wireless communication with a storage medium and network connection with the communication device, and Web page address information of a Web page published by the communication device, another communication device has already been written. Thus, when the network connection information for network connection with the other communication device and the Web page address information of the Web page published by the other communication device are written effectively, they are already written in the storage medium. The web page address information or the content address information acquired from the other communication device is associated with the web page published by the communication device, the web page is updated, and the web page address information of the updated web page is A method for controlling a communication device, wherein the method is written in a storage medium. A method for controlling a communication device that publishes a Web page in which address information indicating a content acquisition destination is described,
When writing network connection information for performing close proximity wireless communication with a storage medium and network connection with the communication device, and Web page address information of a Web page published by the communication device, another communication device has already been written. Thus, when the network connection information for network connection with the other communication device and the Web page address information of the Web page published by the other communication device are effectively written, And requesting to associate the Web page address information of the Web page published by the communication device or the address information of the content managed by the communication device with the Web page published by the other communication device. Control method. A program for controlling a communication device that publishes a Web page in which address information indicating a content acquisition destination is described,
When writing network connection information for performing close proximity wireless communication with a storage medium and network connection with the communication device, and Web page address information of a Web page published by the communication device, another communication device has already been written. Thus, when the network connection information for network connection with the other communication device and the Web page address information of the Web page published by the other communication device are written effectively, they are already written in the storage medium. The web page address information or the content address information acquired from the other communication device is associated with the web page published by the communication device, the web page is updated, and the web page address information of the updated web page is A program for causing a computer to execute a process of writing to a storage medium. A program for controlling a communication device that publishes a Web page in which address information indicating a content acquisition destination is described,
When writing network connection information for performing close proximity wireless communication with a storage medium and network connection with the communication device, and Web page address information of a Web page published by the communication device, another communication device has already been written. Thus, when the network connection information for network connection with the other communication device and the Web page address information of the Web page published by the other communication device are effectively written, In order to cause the computer to execute processing for requesting that the web page address information of the web page published by the communication device or the address information of the content managed by the communication device be associated with the web page published by the other communication device. Program.

Images