JP2005031855A - Terminal, server, image data transmission method, and information distribution method - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To update an image contained in a page for browsing such as a web page by a simpler processing. <P>SOLUTION: An imaging terminal 200 having an imaging function uploads image data obtained by imaging to a web server 100 after adding a filename which is to be contained in the image insertion element of a page source for displaying web page. The filename here, contained in the image insertion element is the information for directing image data which is to be displayed on the page for browsing by the page source concerned. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an information distribution system that distributes a page source of a browsing page such as a web page, and more particularly to a technique for updating an image included in a browsing page.
[0002]
[Prior art]
With the spread of the Internet, opportunities for companies and individuals to publish information on browsing pages such as web pages are increasing. In general, a web page is provided from a web server as page data including a page source described in a markup language such as HTML (Hypertext Markup Language) and image data instructed to be displayed by the page source ( For example, see Patent Document 1). Here, the markup language is a language that can display various information such as text, images, and links to other files on the browser screen by designating the respective layouts. A terminal connected to the web server can receive page data from the web server and display the page data as a web page by a browser.
On the other hand, with the spread of digital cameras in recent years, an increasing number of information providers publish images taken by digital cameras via web pages.
[0003]
[Patent Document 1]
Japanese Patent No. 3201386 (paragraph 0026)
[0004]
[Problems to be solved by the invention]
Conventionally, when an image included in a published web page is updated to an image captured by a digital camera, the information provider has to update the image according to the following procedure. First, an information provider captures an image with a digital camera, and captures image data obtained by the imaging into a terminal that can be connected to a web server. Subsequently, the information provider modifies the page source of the published web page so that the captured image data is displayed by the page source. Next, the information provider uploads the corrected page source and the captured image data from the terminal to the web server. Through the above processing, the page source and image data provided by the web server are updated, and the image displayed on the web page is updated.
As described above, conventionally, in order to update an image included in a published web page, an information provider has to perform a process consisting of a plurality of stages. It was complicated.
[0005]
The present invention has been made in view of the above-described circumstances, and an object of the present invention is to provide a terminal and a server that can update an image included in a browsing page such as a web page by a simpler process. Another object is to provide an image data transmission method and an information distribution method.
[0006]
[Means for Solving the Problems]
In order to solve the above problems, a terminal according to the present invention captures image data representing an image included in the browsing page in an imaging unit that captures image data to obtain image data and a page source for displaying the browsing page. Addition means for adding identification information for identification to the image data obtained by the imaging means, and transmission means for transmitting the image data with the identification information added by the addition means to a server that distributes the page source It is characterized by comprising.
According to such a terminal, the user can update an image included in the browsing page only by an operation for imaging and transmitting image data obtained by the imaging from the terminal to the server. Thereby, the user can update an image by a simpler process compared with the process concerning the update of the image in the past.
[0007]
Here, the adding unit includes an image position display unit that indicates a display position of the image data on the browsing page, an operation unit that is operated by a user, and the image position display unit that is operated according to an operation of the operation unit. It is preferable to include a selection unit that selects one of the display positions shown, and to add identification information corresponding to the display position selected by the selection unit to the image data.
According to this configuration, the user can selectively instruct the display position for updating the image among the display positions of the image included in the browsing page.
[0008]
In addition, the present invention distributes an imaging unit that captures an image to obtain image data, a point-of-time information acquisition unit that acquires point-in-time information indicating a point in time captured by the imaging unit, and a page source for displaying a browsing page And a transmission means for transmitting the image data obtained by the imaging means and the time point information obtained by the time point information obtaining means to the server.
According to such a terminal, the server can update the image included in the web page to an image represented by the received image data in accordance with the time point information received from the terminal. Thereby, the user can update the image only by taking an image.
[0009]
From a viewpoint different from the above, the present invention provides an imaging unit that captures an image to obtain image data, a position information acquisition unit that acquires position information indicating a position at the time of image capturing by the imaging unit, A transmission unit that transmits image data obtained by the imaging unit and position information acquired by the position information acquisition unit to a server that distributes a page source for displaying a page; To provide a terminal.
According to this terminal, the server can update the image included in the web page to the image represented by the received image data in accordance with the position information received from the terminal. Thereby, the user can update the image only by taking an image.
[0010]
Further, the server according to the present invention includes identification information for specifying image data representing an image included in the browsing page in a page source for displaying the browsing page, image data representing a captured image, and Receiving means, image information received by the receiving means to be displayed on the browsing page by the page source, the received identification information among the identification information included in the page source, and the received image data And a distribution unit that distributes the received image data, and a page source including identification information associated by the association unit.
According to this configuration, the user can update an image included in the browsing page only by an operation for imaging and transmitting image data obtained by the imaging from the terminal to the server. Thereby, the user can update an image by a simpler process compared with the conventional process.
[0011]
Further, the present invention stores identification information for specifying image data representing an image included in the browsing page in the page source for displaying the browsing page and time information indicating the time in association with each other. Among the identification information stored in the storage unit, the reception unit that receives the storage unit, the image data representing the captured image, and the time point information that indicates the time point when the image data was captured. A specifying means for specifying identification information associated with the received point-in-time information, and image data received by the receiving means so that the image data received by the receiving means is displayed on the browsing page by the page source. Of these, the association means for associating the identification information identified by the identification means with the image data received by the reception means, and the association means A page source including the associated identification information, provides a server which is characterized by comprising a delivering device for delivering the received image data.
According to such a server, the identification information is specified according to the time point when the image data is captured, so that the image displayed on the browsing page is updated without the user performing an operation for selecting the identification information. It becomes possible.
[0012]
From another viewpoint, the present invention associates identification information for specifying image data representing an image included in the browsing page in the page source displayed by the browsing page with positional information indicating the position. Among the identification information stored in the storage unit, the storage unit that stores the image data that represents the captured image, the position information that indicates the position at which the image data was captured, and the storage unit The specifying means for specifying the identification information associated with the position information received by the receiving means and the image data received by the receiving means are included in the page source so that the page source can display them on the browsing page. Association means for associating the identification information specified by the specifying means with the image data received by the receiving means, Providing a page source including identification information associated with 応付 means, the server characterized by comprising a delivering device for delivering the received image data.
According to such a server, the identification information is specified according to the position at the time when the image data was captured, so that the image displayed on the browsing page can be displayed without the user performing an operation for selecting the identification information. It becomes possible to update.
[0013]
Furthermore, the present invention acquires identification information for specifying image data representing an image included in the browsing page in a page source for the terminal to acquire image data by imaging and display the browsing page. An image data transmission method comprising: transmitting image data with identification information added to a server that distributes the page source and the image data specified by the identification information included in the page source to the image data I will provide a.
According to this image data transmission method, the user can update the image included in the browsing page only by an operation for imaging and transmitting the image data obtained by the imaging from the terminal to the server. Thereby, the user can update an image by a simpler process compared with the process concerning the update of the image in the past.
[0014]
According to the present invention, in a page source for displaying a browsing page, the server includes identification information for specifying image data representing an image included in the browsing page, and image data representing a captured image. In order to display the received image data on the page for viewing by the page source, the received identification information is associated with the received image data in association with the received identification data included in the identification information included in the page source. There is provided an information distribution method characterized by distributing a page source including identification information and received image data.
According to this information distribution method, the user can update an image included in the browsing page only by an operation for imaging and transmitting image data obtained by imaging to the server from the terminal. As a result, the user can update the image by a simpler process as compared with the conventional process for updating the image.
[0015]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings.
<First Embodiment>
<Overall configuration>
FIG. 1 is a diagram showing an overall configuration of a web page update system according to the first embodiment of the present invention. This web page update system is a system for updating an image included in a browsing page such as a web page provided by an information provider to an image obtained by imaging.
[0016]
In FIG. 1, a web server 100 is a server that distributes page data D1 for displaying a web page to a browsing terminal 102 via the Internet 300. The page data D1 distributed by the web server 100 includes a page source d1 described according to a markup language such as HTML (Hypertext Markup Language) and image data d2 whose display position is specified by the page source d1. .
[0017]
The browsing terminal 102 includes a storage device that stores a browser and a display device that displays the page data D1 when the browser is executed. Under this configuration, the browsing terminal 102 receives the delivery of the page data D1 (page source d1 and image data d2) from the web server 100 via the Internet 300, and in the browser display area according to the delivered page data D1. Display a web page. In addition, in this embodiment, although the browsing terminal 102 is demonstrated as a component of a web page update system, the browsing terminal 102 does not participate directly in the update of a web page, In a web page update system, It is not always necessary.
[0018]
The imaging terminal 200 is a terminal used by an information provider that provides page data D1, and is, for example, wired communication conforming to xDSL (x Digital Subscriber Line), or wireless communication via a PDC (Personal Digital Cellular) network 310. By connecting to the Internet 300, data can be transmitted to the web server 100 via the Internet 300. Further, the imaging terminal 200 has a function as a digital camera, and can obtain a captured image as digital data.
In the present embodiment, the web server 100 distributes the page data D1 via the Internet 300. However, the web server 100 displays the browsing page via a network not via the Internet 300, such as a LAN (local area network). The page data P1 may be distributed.
[0019]
<Configuration of Imaging Terminal 200>
FIG. 2 is a block diagram illustrating a configuration of the imaging terminal 200. In this figure, a control unit 210 is used as a work area by a ROM (Read Only Memory) 214 in which a control program is recorded, a CPU (Central Processing Unit) 212 that executes the control program recorded in the ROM 214, and a CPU 212. And a RAM (Random Access Memory) 216, and controls each component connected via the bus 202.
[0020]
The control program recorded in the ROM 214 includes a control program for imaging, a program for uploading data to the web server 100 in accordance with FTP (File Transfer Protocol), and a program for executing file name conversion processing. . Among these, the file name conversion process is a process for converting the file name of the image data d2 so that the image data d2 obtained by imaging is displayed on the web page, and details thereof will be described later.
[0021]
The optical system mechanism 220 includes an optical system such as a lens, and inputs light representing an image of a subject to the imaging circuit 225. The imaging circuit 225 includes a CCD (Charge Coupled Device) and an image compression circuit. Among these, the CCD is an element that converts light indicating an image input from the optical system mechanism 220 into an electric signal. On the other hand, the data compression circuit compresses the image data indicated by the electrical signal generated by the CCD in accordance with, for example, the GIF (Graphic Interchange Format) format, and supplies the compressed image data d2 to the bus 202.
[0022]
The storage device 230 is a non-volatile recording medium such as a flash memory, and stores image data d2 and directory information D3. Among these, the image data d2 is information generated by the imaging circuit 225, and is stored in the storage device 230 after being given a unique file name. On the other hand, the directory information D3 is information indicating an address (path name) for specifying a storage area in the web server 100 in which the page data D1 provided by the user of the imaging terminal 200 is stored.
[0023]
The operation unit 240 includes an operation element such as a shutter button for instructing imaging, and supplies a signal indicating the content of the instruction input from the user to the bus 202. The display unit 250 is a liquid crystal display panel, for example, and displays a screen or the like for prompting the user to give an instruction regarding the update of the page data D1. The communication interface 260 is a communication module for connecting to the web server 100 via the Internet 300.
The imaging terminal 200 having the above configuration is realized, for example, by adding a communication function to a digital camera, or by adding an imaging function to a communication terminal such as a mobile phone.
[0024]
<Configuration of Web Server 100>
FIG. 3 is a block diagram illustrating a configuration of the web server 100. In this figure, the control unit 110 includes a CPU 112, a ROM 114, and a RAM 116, and controls each component via the bus 104. Among these, the ROM 114 stores an image processing program for processing the image data d2 as a control program. The communication interface 120 is an interface for connecting to the Internet 300.
[0025]
The storage device 130 is a non-volatile recording device such as a magnetic disk, for example, and stores the page data D1 with a directory structure. Specifically, the storage device 130 stores page data D1 (page source d1 and image data d2) for displaying one web page per directory. It is assumed that the page data D1 to be noted in this description is stored in the directory “/ member1” in the storage device 130, and the file name thereof is “index.html”. Further, the address of the web server 100 in the Internet 300 is “http: //www.***.ne.jp”. At this time, the browsing terminal 102 downloads a file specified by a URL (Uniform Resource Locator) “http: //www.***.ne.jp/member1/index.html” via the Internet 300. Thereby, the web page provided by the user of the imaging terminal 200 can be displayed.
[0026]
FIG. 4 is a diagram showing the contents of a web page (URL “http: //www.***.ne.jp/member1/index.html”) provided by the user of the imaging terminal 200. 5 and 6 are diagrams showing the contents of page data D1 for displaying the web page shown in FIG. 4 by a browser. More specifically, FIG. 5 is a diagram showing the contents of the page source d1 “index.html” stored in the directory “/ member1”, and FIG. 6 is the image data stored in the directory “/ member1”. It is a figure which shows the content of d2.
[0027]
As shown in FIG. 6, the directory “/ member1” of the storage device 130 stores four image data d2 having different file names. That is, the image data d2 having the file name “nagano-day.gif”, the image data d2 having the file name “nagano-night.gif”, the image data d2 having the file name “tokyo-day.gif”, and the file name “ "Tokyo-night.gif" image data d2. These image data d2 are GIF image data and correspond to transmissive display. In the GIF method, for each pixel constituting the image, it is managed whether the pixel is a transmissive pixel or a non-transparent pixel, and the background color of the web page is displayed for the transmissive pixel. Thereby, the viewer of a web page visually recognizes a transparent image as if it is transparent.
[0028]
For example, the image data d2 of the file names “tokyo-day.gif” and “tokyo-night.gif” shown in FIG. 6 has a rectangular display area, but pixels corresponding to the hatched area are transparent pixels. The non-transparent pixel group has a circular outline. For this reason, when the image data d2 having the file name “tokyo-day.gif” is displayed on the web page, it is displayed as an image 186I having a circular outline as shown in FIG. Similarly, when the image data d2 of the file name “tokyo-night.gif” is displayed on the web page, it is displayed as the image 188I shown in FIG.
[0029]
On the other hand, the page source d1 shown in FIG. 5 is data described according to HTML, and displays text such as “Nagano Landscape”, “Tokyo Landscape”, “● Daytime ●”, “★ Sunset ★”, etc. A text display element 162 for instructing the browser to display, and image insertion elements 172, 174, 176 for instructing the browser to display the image data d2 stored in the same directory (“/ member1” in this example) as the page source d1 and 178.
[0030]
Among them, the image insertion element 172 <IMG SRC = “nagano-day.gif” WIDTH = “300” HEIGHT = “300” ALIGN = “left” BORDER = “5”> is “SRC =“ nagano-day.gif ”. “gif” ”indicates the display of the image data d2 of the file name“ nagano-day.gif ”,“ WIDTH = “300” ”indicates the width“ 300 ”of the image to be displayed, and“ HEIGHT = “300” ”. The user designates the height “300” of the image to be displayed, and the arrangement position “left end of the screen” to be displayed by “ALIGN =“ left ””. As a result, in the web page in FIG. 4, the image data d <b> 2 with the file name “nagano-day.gif” is displayed at the arrangement position 182 with the width “300” and the height “300”. .
[0031]
Similarly, the image insertion element 174 (FIG. 5) instructs the browser to display the image data d2 (FIG. 6) with the file name “nagano-night.gif” at the arrangement position 184 (FIG. 4). The element 176 (FIG. 5) instructs the browser to display the image data d2 (FIG. 6) with the file name “tokyo-day.gif” at the arrangement position 186 (FIG. 4), and the image insertion element 178 (FIG. 5). ) Instructs the browser to display the image data d2 (FIG. 6) with the file name “tokyo-night.gif” at the arrangement position 188 (FIG. 4).
[0032]
Thus, in the page source d1, the file name of the image data d2 is used as identification information for causing the browser to specify the image data d2 to be displayed. Therefore, when updating an image included in a web page, the contents of the image data d2 stored in the directory “/ member1” are rewritten without changing the contents of the page source d1 and the file name of the image data d2. Thus, it is possible to update the image.
[0033]
As will be described later, the value of “WIDTH (image width)” and “HEIGHT (image height)” included in the image insertion element 164 in the page source d1 is selected by the information provider. Overwritten values are overwritten. In this embodiment, as the size indicator of an image, indicators (“WIDTH” and “HEIGHT”) for indicating the width and height of the image are used. The coordinate system assigned on the browser screen is used. It is also possible to use it. In other words, the size and shape of the image may be specified by designating the position coordinates of the vertex or center of the image.
[0034]
<Web page update process>
Next, a web page update process executed between the web server 100 and the imaging terminal 200 will be described. This web page update process is a process for updating an image included in a web page provided by the web server 100. In the following description, an operation for displaying a web page with an updated image on the browsing terminal 102 will also be described.
[0035]
FIG. 7 is a sequence diagram of web page update processing.
In this figure, first, the control unit 210 of the imaging terminal 200 captures an image when it detects that the user has pressed the shutter button, and stores the image data d2 obtained by the imaging in the storage device 230 (step Sa1). In step Sa1, the control unit 210 assigns a unique file name (in this example, “PIC001.gif”) to each image data d2, and then stores the image data d2.
[0036]
Next, the control unit 210 of the imaging terminal 200 displays a shape selection screen as shown in FIG. 8 on the display unit 250 (step Sa2). This shape selection screen is a screen for prompting the user to select the shape of the captured image to be displayed on the web page. Specifically, the shape selection screen includes selection of whether the outline shape of the image is “rectangular” or “circular”, input of the “height” of the image, and input of the “width” of the image. This is a screen prompting the user. The user can select the contour shape and input the height and width by operating the operation unit 240. In this operation example, it is assumed that “circular” is selected as the “contour shape” of the image, “200” is input as “height”, and “300” is input as “width”. Hereinafter, information indicating the “contour shape”, “height”, and “width” of the image input by the user is referred to as “image shape information”.
[0037]
When the image shape information is input by the user, the control unit 210 of the imaging terminal 200 sends a request signal indicating a request for arrangement position selection screen data for displaying the arrangement position selection screen and the image shape information to the web server 100. (Step Sa3). Here, the arrangement position selection screen indicates to the user the selection of which of the arrangement positions 182, 184, 186, and 188 on the web page (see FIG. 4) the image captured in step Sa1 is to be displayed. It is a screen for prompting.
[0038]
When receiving the request signal, the control unit 110 of the web server 100 generates arrangement position selection screen data according to the image shape information received together with the request signal, and transmits the generated arrangement position selection screen data to the imaging terminal 200 ( Step Sa4).
[0039]
When receiving the arrangement position selection screen data from the web server 100, the control unit 210 of the imaging terminal 200 executes a file name conversion process (step Sa5).
FIG. 9 is a diagram illustrating a file name conversion process executed by the control unit 210 of the imaging terminal 200. 9, first, the control unit 210 of the imaging terminal 200 displays an arrangement position selection screen on the display unit 250 in accordance with the received arrangement position selection screen data (step Sa51). As shown in FIG. 10, the arrangement position selection screen includes four areas (hereinafter, “display areas”) having shapes corresponding to the image shape information (in this example, ellipses having a height of “200” and a width of “300”). 282, 284, 286 and 288 are depicted. These display areas 282, 284, 286 and 288 are arranged in a layout imitating the arrangement positions 182, 184, 186 and 188 on the web page shown in FIG. Specifically, the display area 282 corresponds to the arrangement position 182, the display area 284 corresponds to the arrangement position 184, the display area 286 corresponds to the arrangement position 186, and the display area 288 corresponds to the arrangement position 188. Display areas 282, 284, 286 and 288 are arranged.
[0040]
Further, the file names of the image data d2 included in the image insertion elements 172, 174, 176, and 178 of the page source d1 (see FIG. 5) are associated with the display areas 282, 284, 286, and 288, respectively. Specifically, the display area 282 is associated with the file name “nagano-day.gif” included in the image insertion element 172 that instructs the display of the image at the arrangement position 182. The display area 284 is associated with the file name “nagano-night.gif” included in the image insertion element 174 that instructs to display an image at the arrangement position 184. The display area 286 is associated with the file name “tokyo-day.gif” included in the image insertion element 176 that instructs to display an image at the arrangement position 186. The display area 288 is associated with the file name “tokyo-night.gif” included in the image insertion element 176 that instructs the display position 188 to display an image.
[0041]
When displaying the arrangement position selection screen in step Sa51, the control unit 210 of the imaging terminal 200 enters a standby state until any of the display areas 282, 284, 286, and 288 is selected by the user (step Sa52: No). The user can select one of the display areas 282, 284, 286 and 288 by operating the operation unit 240.
[0042]
When one of the display areas 282, 284, 286, and 288 is selected by the user (step Sa52: Yes), the control unit 210 converts the file name of the image data d2 (step Sa53). More specifically, the control unit 210 converts the file name “PIC001.gif” of the image data d2 obtained by imaging into a file name corresponding to the selected display area. Now, assuming that the display area 282 is selected by the user, the control unit 210 converts the file name of the image data d2 from “PIC001.gif” to “nagano-day.gif”. Thereby, the file name of the image data d2 obtained by imaging is converted into the file name of the image data d2 instructed to be displayed by the image insertion elements 172, 174, 176 and 178 included in the page source d1.
[0043]
Returning to FIG. 7 again. When the control unit 210 of the imaging terminal 200 converts the file name of the image data d2 (step Sa5), the image data d2, the image shape information, and the directory information D3 of the file name “nagano-day.gif” are transferred to the Internet 300. Is transmitted to the web server 100 (step Sa6). Among these, the directory information D3 is information indicating a storage area in which the page data D1 is stored as described above, and in this example, is information indicating the directory “/ member1” in the storage device 230.
From the viewpoint of security, it is preferable that the web server 100 is configured to permit uploading of data from the imaging terminal 200 after authenticating the information provider (user of the imaging terminal 200).
[0044]
When the control unit 110 of the web server 100 receives the image data d2 (file name “nagano-day.gif”), image shape information, and directory information D3 from the imaging terminal 200, first, the image data according to the image shape information. d2 is processed (step Sa7). For example, assume that the shape of the image indicated by the image data d2 received from the imaging terminal 200 is a rectangle having a width “600” and a height “500”. At this time, as shown in FIG. 11, the control unit 110 of the web server 100 determines that the shape of the non-transparent image among the images indicated by the image data d <b> 2 is from a rectangle having a width “600” and a height “500”. The image data d2 is processed so as to be an ellipse having a width “300” and a height “200” indicated by the shape information. Note that the control unit 110 processes the image data d2 so that the centroid of the image before processing and the centroid of the image after processing overlap.
[0045]
In FIG. 7 again, the control unit 110 of the web server 100 uses the image data d2 (file name “nagano-day.gif”) processed in step Sa7 as the directory “/ member1” indicated by the directory information D3 in the storage device 230. "Is overwritten (step Sa8). As a result, as shown in FIG. 12, among the four pieces of image data d2 stored in the directory “/ member1”, the image indicated by the image data d2 with the file name “nagano-day.gif” is received from the imaging terminal 400. It will be updated to the uploaded image.
[0046]
Next, the control unit 110 of the web server 100 updates the page source d1 (see FIG. 5) stored in the directory “/ member1” in accordance with the image shape information (step Sa9). More specifically, according to the width and height of the image indicated by the image shape information, a value indicating the image width “WIDTH” and a value indicating the image height “HEIGHT” in the page source d1. Update. In this example, the control unit 110 includes the image insertion element 172 <IMG SRC = “nagano-day.gif” WIDTH = “300” HEIGHT = “300” ALIGN = “left” BORDER = “5”> HEIGHT = "300""is updated to" HEIGHT = "200"". Thus, the size of the image arranged at the arrangement position 182 associated with the file name “nagano-day.gif” is set to the size selected by the user (width “300”, height “200”). Updated.
[0047]
Hereinafter, with reference to FIG. 7, the operation of delivering the page data D1 from the web server 100 to the browsing terminal 102 will be described.
First, the browsing terminal 102 indicates a browsing request indicating a browsing request for the page source d1 “index.html” specified by the URL “http: //www.***.ne.jp/member1/index.html”. Is transmitted to the web server 100 (step Sa10). When receiving the browsing request from the browsing terminal 102, the control unit 110 of the web server 100 browses the page data D1 including the page source d1 updated in step Sa9 and the image data d2 (see FIG. 12) updated in step Sa8. It transmits to the terminal 102 (step Sa11). Upon receiving the page data D1, the browsing terminal 102 displays a web page as shown in FIG. 13 by the browser (step Sa12).
As shown in FIG. 13, an image captured by the imaging terminal 200 is displayed in the shape selected by the user at the arrangement position 182 in the web page.
[0048]
As described above, according to the web page update system, the imaging terminal 200 adds the file name included in the image insertion element 164 to the image data d2, and then uploads the image data d2 to the web server 100. To do. For this reason, the user of the imaging terminal 200 simply selects an arrangement position (display area) and selects an image shape without performing an editing operation on the page source d1 and the like. Can be updated. As a result, the web page image can be updated more easily and the operation time can be greatly reduced as compared with the conventional processing for updating the web page.
[0049]
Of course, in the above embodiment, the user selects the display shape of the image every time the image is taken, but the display shape of the image may be fixed. According to this configuration, the user can update the image displayed on the web page only by selecting the arrangement position of the image, and the processing related to the image update is further simplified.
In the web page update system, if a portable terminal is used as the imaging terminal 200, the information provider can update the web page without being subjected to positional restrictions.
[0050]
Second Embodiment
In the first embodiment described above, the web page update system that updates the image arranged at the arrangement position selected by the user among the arrangement positions 182, 184, 186, and 188 has been described. On the other hand, in the web page update system according to the second embodiment, the web server 100 selects an arrangement position according to the position and time point when the image data d2 is captured, and the arrangement is performed at the arrangement position selected by the web server 100. Update the image to be played. More specifically, each of the arrangement positions 182, 184, 186, and 188 includes a condition regarding a position where the image data d2 is imaged and a time point when the image data d2 is imaged as a condition of the image data d2 to be arranged at the arrangement position. These conditions are set by the information provider (user of the imaging terminal 200). The web server 100 selects an arrangement position where the image data d2 can be arranged from the imaged position and time point of the image data d2 uploaded from the imaging terminal 400, and displays the image data d2 at the selected arrangement position.
In the following description, in the web page updating system according to the second embodiment, the same components as those in the first embodiment described above are denoted by the same reference numerals, and details thereof are omitted.
[0051]
<Configuration of Imaging Terminal 400>
FIG. 14 is a diagram illustrating a configuration of an imaging terminal according to the second embodiment of the present invention. As shown in this figure, the imaging terminal 400 is different from the imaging terminal 200 according to the first embodiment in that it includes a position information generation unit 270 and a time point information generation unit 280. Among these, the position information generation unit 270 includes a GPS positioning unit 272 that measures the position of the own device based on radio waves transmitted from a GPS (Global Positioning System) satellite group 274. Position information indicating the measured position is supplied to the bus as information representing place names such as “Tokyo” and “Nagano”.
[0052]
On the other hand, the time point information generation unit 280 has a time counter 282 that counts time, and supplies time information indicating the time to the bus. The control unit 210 acquires position information and time point information at the time of image capturing, and transmits the acquired position information and time point information to the web server 100 together with image data d2 obtained by image capturing.
[0053]
<Configuration of Web Server 100>
The configuration of the web server 100 according to the second embodiment is substantially the same as the configuration according to the first embodiment shown in FIG. 3, but the image condition table is stored in each directory for the storage device 130. However, it differs from the web server 100 of 1st Embodiment.
[0054]
FIG. 15 is a diagram illustrating a configuration of an image condition table stored in the directory “/ member1” of the storage device 130. As shown in this figure, one record in the image condition table TBL includes “file name”, “position condition”, and “time condition”. Among these, the file name stores the file name corresponding to the image data d2 instructed to be displayed by the page source d1 stored in the directory “/ member1”. As described above, the image data d2 is displayed at any one of the arrangement positions 182, 184, 186, and 188 after its file name is designated by the page source d1.
[0055]
The position condition stores information indicating the position (name of place in this example) where the image is captured as the condition of the image to be placed at the placement positions 182, 184, 186 and 188 corresponding to the file name. On the other hand, the time condition stores information indicating a range of time (in this example, time) when the image is captured as a condition of the image to be arranged at the arrangement positions 182, 184, 186 and 188 corresponding to the file name. Is done. In other words, the image data d2 is associated with the file name corresponding to the position condition and the time condition only when the imaged position satisfies the position condition and the time when the image is taken satisfies the time condition. It is displayed at any of the arrangement positions 182, 184, 186 and 188. Note that the position condition and time point condition included in the image condition table TBL are set in advance by the information provider.
[0056]
<Web page update process>
Next, web page update processing according to the second embodiment will be described with reference to FIG. In the web page update process according to the second embodiment, the shape and size of an image included in the web page are fixed (for example, a rectangle having a width of 300 and a height of 300) and are not changed by the user.
[0057]
In FIG. 16, first, the control unit 210 of the imaging terminal 400 captures an image when detecting that the user has pressed the shutter button, and stores the image data d2 obtained by the imaging in the storage device 230 (step Sb1). In step Sb1, the control unit 210 adds a unique file name (assuming “PIC001.gif” in this example) to the image data d2 and stores the image data d2 in the storage device 230.
[0058]
Next, the control unit 210 of the imaging terminal 400 acquires the position information at the time when the image data d2 is imaged from the position information generation unit 270, and the time information at the time when the image data d2 is imaged is the time information generation unit. It is acquired from 280 (step Sb2). Next, the control unit 210 of the imaging terminal 400 reads the image data d2 from the storage device 230, and transmits the image data d2, the position information, the time point information, and the directory information D3 to the web server 100 (step Sb3).
[0059]
When receiving the image data d2, the position information, the time point information, and the directory information D3 from the imaging terminal 400, the control unit 110 of the web server 100 determines a file name to be added to the image data d2 according to the position information and the time point information. It is specified from the image condition table TBL (step Sb4). For example, when the position information received from the imaging terminal 400 indicates “Nagano” and the time point information indicates “13:00”, the control unit 110 of the web server 100 stores the image condition table TBL shown in FIG. The file name “nagano-day.gif” included in the record with the position condition “Nagano” and the time condition “5: 0 to 18:59” should be added to the image data d2. Identifies as a file name.
[0060]
Next, the control unit 110 of the web server 100 converts the file name “PIC001.gif” of the image data d2 into the file name “nagano-day.gif” specified in step Sb4 (step Sb5). As a result, file names corresponding to the arrangement positions 182, 184, 186 and 188 corresponding to the imaged positions and time points are given to the image data d 2.
[0061]
Subsequently, the control unit 110 of the web server 100 overwrites the image data d2 having the file name “nagano-day.gif” on the directory “/ member1” indicated by the directory information D3 received in step Sb3 in the storage device 230. Save (step Sb6). As a result, the content of the image data d2 stored in the directory “/ member1” is updated, and the image data d2 included in the page data D1 distributed from the web server 100 to the browsing terminal 102 is updated.
[0062]
As described above, according to the web page updating system according to the second embodiment, the arrangement positions 182, 184, 186, and 188 at which the image data d2 is to be displayed according to the position and time point at which the image data d2 was captured. Is selected by the web server 100, and the image data d2 is displayed at the selected arrangement position. Therefore, the information provider (user of the imaging terminal 400) only needs to transmit the image data d2 obtained by imaging to the web page when updating the web page, and the work related to updating the web page is performed by the user. This is simpler than the configuration for updating the images at the arrangement positions 182, 184, 186 and 188 selected by.
[0063]
<Modification>
The application form of the present invention is not limited to the first and second embodiments described above, and various applications, improvements, changes, and the like can be added to each embodiment.
For example, in each of the above-described embodiments, an example in which a web page provided by a single web server 100 is updated has been described. However, a plurality of web pages provided by a plurality of web servers 100 are selectively updated. It is good also as a structure. More specifically, the user of the imaging terminal 200 publishes a plurality of web pages and distributes the page data D1 from different web servers 100. The storage device 230 of the imaging terminal 200 stores directory information D3 for accessing each page data D1, and the user selects any one of the page data D1 to be managed by selecting the directory information D3. Can be selectively updated.
[0064]
Moreover, in each embodiment mentioned above, although the page source d1 and the image data d2 which comprise one web page were stored in the same directory, it is not restricted to this. For example, in the storage device 130 of one web server 100, the page source d1 and the image data d2 may be stored independently in different directories, or the page source may be stored between the storage devices 130 of the plurality of web servers 100. A configuration may be adopted in which d1 and image data d2 are stored in a distributed manner. When page source d1 and image data d2 are stored in a distributed manner among a plurality of web servers 100, information for identifying image data d2 in page source d1 is the image data in addition to the file name. The path of the directory where d2 is stored is required.
[0065]
In each embodiment mentioned above, although the example which replaces the image contained in a web page with another image was shown, it is also possible to replace a mutual position between a plurality of images contained in a web page. More specifically, it is assumed that image data d2 corresponding to a plurality of images included in the web page is stored in the storage device 230 of the imaging terminal 200. Under this situation, for example, if the positions of two images in a web page are interchanged, the file names of the corresponding two image data d2 are transferred in the file name conversion process shown in FIG. The user may select a display area (arrangement position) to be converted into the previous file name. Thereby, the replacement between a plurality of images on the web page can be easily performed.
[0066]
In the second embodiment described above, the information indicating “time” is used as the time information. However, the information is not limited to “time”, and may be information indicating the time such as “year” or “month / day”. It can be arbitrarily adopted as time information. In other words, “year” or “month / day” when the image is captured may be used as a condition for the images to be arranged at the arrangement positions 182, 184, 186 and 188 on the web page.
[0067]
In the first embodiment, FIG. 10 is shown as an example of the arrangement position selection screen for prompting the user to select the arrangement positions 182, 184, 186, and 188. The arrangement of the arrangement position selection screen is shown in FIG. It is not limited to the configuration. More specifically, the arrangement position selection screen in FIG. 10 prompts the user to select an arrangement position by display areas 282, 284, 286, and 288 associated with the layout of each of the arrangement positions 182, 184, 186, and 188. However, a configuration may be adopted in which selection of an arrangement position is prompted by character information associated with each of the arrangement positions 182, 184, 186, and 188.
[0068]
FIG. 17A is a diagram exemplifying an arrangement position selection screen that prompts selection of arrangement positions 182, 184, 186, and 188 using character information. The arrangement position selection screen shown in this figure includes four soft buttons 252, 254, 256, and 258 associated with character information. That is, on the arrangement position selection screen, a soft button 252 displaying “upper right” as character information, a soft button 254 displaying “upper left” as character information, and “lower right” as character information are displayed. A soft button 256 and a soft button 258 displaying “lower left” as character information are included. These character information “upper right”, “upper left”, “lower right”, and “lower left” suggest the approximate positions of the arrangement positions 182, 184, 186 and 188 on the web page to the user.
[0069]
In addition, in the storage device 230 of the terminal 200, as shown in FIG. 17B, the four character information displayed on each soft button 252, 254, 256, and 258 and the four image insertion elements 172, 174, File names included in 176 and 178 (see FIG. 5) are stored in association with each other. More specifically, the file name “nagano-day.gif” is associated with the character information “upper right”, and the file name “nagano-night.gif” is associated with the character information “upper left”. The character information “lower right” is associated with the file name “tokyo-day.gif”, and the character information “lower left” is associated with the file name “tokyo-night.gif”.
[0070]
With the above configuration, the control unit 210 of the terminal 200 performs the soft button 252, 254, 256 and 258 included in the arrangement position selection screen shown in FIG. 17A in the file name conversion process shown in FIG. When either one is selected by the user, the file name is converted as follows. That is, the control unit 210 converts the file name associated with the character information displayed on the soft buttons 252, 254, 256 and 258 selected in the storage device 230 into a file name of image data obtained by imaging. . Thereby, similarly to 1st Embodiment, the image displayed on a web page can be updated by a simple process.
[0071]
In FIG. 17A, character strings indicating positions such as “upper right”, “upper left”, “lower right”, and “lower left” are used as the character information, but the user places the arrangement positions 182, 184, 186. And a character string that does not indicate a position can be used. Furthermore, even if an image showing a symbol or a pattern is used instead of the character string (character information), the same effect as the configuration using the character information described above is obtained.
[Brief description of the drawings]
FIG. 1 is a diagram showing an overall configuration of a web page update system according to a first embodiment of the present invention.
FIG. 2 is a diagram showing a configuration of an imaging terminal included in the web page update system.
FIG. 3 is a diagram showing a configuration of a web server included in the web page update system.
FIG. 4 is a view showing a web page provided by the web server.
FIG. 5 is a diagram showing page sources stored by the web server.
FIG. 6 is a diagram showing image data stored by the web server.
FIG. 7 is a diagram showing an overall operation of the web page update system.
FIG. 8 is a diagram showing a shape selection screen displayed on the imaging terminal.
FIG. 9 is a diagram showing file name conversion processing executed by the imaging terminal.
FIG. 10 is a diagram showing an arrangement position selection screen displayed by the imaging terminal.
FIG. 11 is a diagram showing how image data is processed by the web server.
FIG. 12 is a diagram showing image data updated in the web server.
FIG. 13 is a diagram showing a web page with an updated image.
FIG. 14 is a diagram showing a configuration of an imaging terminal according to a second embodiment of the present invention.
FIG. 15 is a view showing an image condition table stored in the web server.
FIG. 16 is a diagram showing an operation of the web page update system.
FIG. 17 is a diagram for explaining a modification of the arrangement position selection screen.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 100 ... Web server, 110 ... Control part, 200,400 ... Imaging terminal, 210 ... Control part, 225 ... Imaging circuit, 270 ... Position information generation part, 280 ... Time point information generation part, 300 ... Internet

Claims (9)

An imaging means for imaging and obtaining image data;
Adding means for adding identification information for specifying image data representing an image included in the browsing page in the page source for displaying the browsing page to the image data obtained by the imaging means;
A terminal comprising: transmission means for transmitting image data to which identification information is added by the adding means to a server that distributes a page source. The adding means includes
Image position display means for indicating the display position of the image data on the browsing page;
Operation means operated by a user;
Selecting means for selecting one of the display positions indicated by the image position display means in accordance with the operation of the operation means;
The terminal according to claim 1, wherein identification information corresponding to a display position selected by the selection unit is added to the image data. An imaging means for imaging and obtaining image data;
Time point information acquisition means for acquiring time point information indicating a time point when the image is picked up by the image pickup means;
A transmission unit configured to transmit image data obtained by the imaging unit and time point information acquired by the time point information acquisition unit to a server that distributes a page source for displaying a browsing page; Terminal. An imaging means for imaging and obtaining image data;
Position information acquisition means for acquiring position information indicating the position at the time of image pickup by the image pickup means;
A transmission unit that transmits image data obtained by the imaging unit and position information acquired by the position information acquisition unit to a server that distributes a page source for displaying a browsing page; Characteristic terminal. Receiving means for receiving identification information for specifying image data representing an image included in the browsing page and image data representing a captured image in a page source for displaying the browsing page;
Association means for associating the received identification data with the received identification data among the identification information included in the page source so that the image data received by the receiving means is displayed on the browsing page by the page source;
A server comprising: a page source including identification information associated by the association unit; and a distribution unit that distributes received image data. Storage means for storing identification information for specifying image data representing an image included in the browsing page in the page source for displaying the browsing page, and time information indicating the time, in association with each other;
Receiving means for receiving image data representing a captured image and time point information indicating a time point when the image data was picked up;
Of the identification information stored in the storage means, a specifying means for specifying identification information associated with the time point information received by the receiving means;
The identification information specified by the specifying means among the identification information included in the page source and the image received by the receiving means so that the image data received by the receiving means is displayed on the browsing page by the page source. A server comprising: association means for associating data; page source including identification information associated by the association means; and distribution means for distributing received image data. Storage means for storing identification information for specifying image data representing an image included in the browsing page in the page source displayed by the browsing page, and positional information indicating the position, in association with each other;
Receiving means for receiving image data representing a captured image and position information indicating a position at the time when the image data was captured;
Of the identification information stored in the storage means, a specifying means for specifying identification information associated with the position information received by the receiving means;
The identification information specified by the specifying means among the identification information included in the page source and the image received by the receiving means so that the image data received by the receiving means is displayed on the browsing page by the page source. An association means for associating data;
A server comprising: a page source including identification information associated by the association unit; and a distribution unit that distributes received image data. The device
Acquire image data by imaging,
In the page source for displaying the browsing page, identification information for specifying image data representing an image included in the browsing page is added to the acquired image data,
An image data transmission method comprising: transmitting image data to which identification information is added to a server that distributes a page source and image data specified by identification information included therein. The server
In the page source for displaying the browsing page, the identification information for specifying the image data representing the image included in the browsing page and the image data representing the captured image are received,
In order for the received image data to be displayed on the browsing page by the page source, the received identification information in the identification information included in the page source is associated with the received image data, and the associated identification information is displayed. An information delivery method, comprising delivering a page source including the received image data.

Images