JP3687807B2 - Data transmission apparatus and data transmission method - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a data transmission device that is used on a broadcast station side in a television broadcast system or the like and cyclically transmits data composed of a plurality of pages.
[0002]
[Prior art]
Currently, a data transmission apparatus that cyclically transmits data consisting of a plurality of pages is used for teletext. A conventional data transmission apparatus used for teletext broadcasting repeatedly transmits a group of information consisting of a plurality of pages having different contents one page at a time using an unused area of the terrestrial wave. Then, when the page to be viewed is specified, the receiving device captures and displays the specified page from a plurality of pages transmitted in forward order (revised text broadcasting technology handbook, edited by the Broadcasting Technology Development Council, Rokukan Publishing Co., Ltd., issued June 1, 1988).
[0003]
[Problems to be solved by the invention]
By the way, in the conventional data transmission apparatus, since all pages are transmitted at the same frequency, the average time from display designation to display (hereinafter referred to as “waiting time”) is the same for all pages. Become. That is, the user may be kept waiting for the same time for a page that is often viewed and a page that is rarely viewed.
[0004]
In view of the above problems, an object of the present invention is to provide a data transmission apparatus that can shorten the average waiting time of frequently viewed pages.
[0005]
[Means for Solving the Problems]
  In order to solve the above problems, a data transmission apparatus according to the present invention is transmission data composed of a plurality of pages, and the pages are associated with each other one-to-one or one-to-many in one direction or two directions A data transmission device in a television broadcasting system that cyclically transmits transmission data having a reference relationship and captures a selected page of transmission data received by the reception device and displays the selected page on the reception device, and holds the transmission data Transmission data holding means, selection frequency storage means for storing an expected selection frequency for each page of transmission data held in the transmission data holding means,A selection frequency rewriting unit that determines an expected selection frequency for each page of transmission data held in the transmission data holding unit based on the number of links based on the reference relationship, and stores the selection frequency in the selection frequency storage unit; ,Each page is referred to the selection frequency storage means so that the transmission interval of the page related to the transmission data and the data positioned at the top in the reference relation in one cycle in the data transmission cycle is shortened. Transmission order determining means for determining the transmission order of the transmission data, and data transmission means for cyclically transmitting the transmission data held in the transmission data holding means in accordance with the transmission order determined by the transmission order determining means.
[0006]
  MaIn addition, the selection frequency rewriting means obtains a reference number that is the sum of the number of other pages referred to by the page of the selection frequency determination means and the number of other pages referred to by the selection frequency determination target page from the transmission data. Detection is performed, and the selection frequency is determined to be higher for a page having a larger reference number.
  Further, the selection frequency rewriting means determines a higher selection frequency for a page having a smaller number of times of following the reference relationship before reaching a selection frequency determination target page from a predetermined page.
[0007]
  Furthermore, the present invention providesTransmission data consisting of a plurality of pages, and transmission data having a reference relationship in which one page is one-to-one or one-to-many and is associated in one direction or both directions is cyclically transmitted and received by a receiving apparatus. A data transmission method for a data transmission apparatus in a television broadcasting system that captures a selected page from among the transmitted data and displays the selected page on the reception apparatus, the transmission data holding step for holding the transmission data, and the transmission data holding step. A selection frequency storing step for storing an expected selection frequency for each page of transmission data held, and the number of links based on the reference relationship for each page of transmission data held in the transmission data holding step A selection frequency rewriting step of determining an expected selection frequency based on the selection frequency storage step and storing in the selection frequency storage step; The transmission of each page with reference to the selection frequency storage step so that the transmission interval of one page in the data transmission cycle of the page relating to the data that is the highest in the reference relationship is shortened. A transmission order determination step for determining the order; and a data transmission step for cyclically transmitting the transmission data held in the transmission data holding step according to the transmission order determined by the transmission order determination step..
[0008]
DETAILED DESCRIPTION OF THE INVENTION
(First embodiment)
FIG. 1 is a block diagram showing a configuration of a data communication system 100 according to the first embodiment of the present invention.
The data communication system 100 includes a data transmission device 110 and a plurality of data reception devices 150.
[0009]
The data transmission device 110 includes an information acquisition unit 111, a transmission data generation unit 112, a transmission data holding unit 113, a transmission data reading unit 114, a multiplexing unit 115, and a transmission unit 116.
The data reception device 150 includes a reception separation unit 151, a reception data holding unit 152, a reproduction unit 153, a display unit 154, a control unit 155, and a signal reception unit 156.
(Description of the configuration of the data transmission device 110)
Hereinafter, each configuration of the data transmission apparatus 110 will be described with reference to FIGS. 1 to 11.
(Description of configuration of information acquisition unit 111)
The information acquisition unit 111 includes an acquisition list storage unit 121 and a buffer (not shown) that holds information acquired from an external database such as a WWW server.
[0010]
The acquisition list storage unit 121 stores in advance an acquisition list indicating an acquisition destination of information to be acquired by the information acquisition unit 111 and a file name of the information to be acquired in association with an acquisition order number indicating the acquisition order. ing.
FIG. 2 is an explanatory diagram illustrating an example of the acquisition list 200 stored in the acquisition list storage unit 121. The file name extension “. “html” indicates that an HTML document is stored in the file, and the extension “. “gif” indicates that image information compressed in the GIF format is stored in the file. Also, the extension “. “au” represents that AU-format audio information is stored in the file.
[0011]
For example, when the information acquisition unit 111 is connected to the Internet and is set to acquire information from a WWW server, the acquisition list storage unit 121 stores an acquisition list 200 as illustrated in FIG. ing. In the acquisition list 200, the URL of the WWW server including the directory part is stored as the acquisition destination name 202 in association with the acquisition order number 201. The home page provided by each WWW server is represented by an HTML document and an image information file and a sound information file whose file names are specified in the HTML document. As the file name 203 to be acquired, the file name of the HTML document describing the page, the file name of the image information, and the audio information file name are stored in units of pages.
[0012]
In the acquisition list storage unit 121, the acquisition source and the file name do not necessarily have to be described separately, and may be represented by one URL. When the acquisition destination of the information acquisition unit 111 is not a WWW server, the acquisition destination is represented by the device address of the external database, and the file to be acquired is represented by a file address.
[0013]
The information acquisition unit 111 reads the URL of the acquisition destination and the file name of the information to be acquired from the acquisition list storage unit 121 in the order of the acquisition order number 201, accesses the WWW server indicated by the URL, and stores the file name Get the file. The information acquisition unit 111 assigns a file name to the acquired file and stores it in the buffer.
(Explanation of the acquired file)
Hereinafter, the contents of the file acquired by the information acquisition unit 111 will be specifically described with reference to FIGS. 3, 4, 5, and 6.
[0014]
FIG. 3 shows an HTML document 301 “Report.1” that describes an example of the first page of the WWW homepage. It is explanatory drawing which shows html. The HTML document 301 “Report. The notation “html” indicates that the file name is “Report. It is assumed that the HTML document 301 stored in the file “html” is shown. In each HTML document, a control code represented by <(character string)> is called a tag, and is used in principle as a pair of <(character string)> and </ (character string)>. The character string in <> represents the control content of the tag.
[0015]
<HTML> on line 320 and </ HTML> on line 322 indicate that the character string sandwiched between <HTML> and </ HTML> is one HTML document 301. .
<H1> and </ H1> in the row 321 indicate that the character string “weather forecast” between them is the heading of this document.
[0016]
<CENTER> on the line 313 and </ CENTER> on the line 315 indicate that the display element of the document expressed by the character string sandwiched between them is displayed in a neutral position.
<IMG SRC = “Weather.gif”> in line 314 is image information 401 “Weather.gif” shown in FIG. gif ”indicates that this position is included as a display element of the document. The attribute “SRC =” of the tag <IMG> indicates the designation of the image information file, and the attribute value ““ Weather.gif ”” indicates the file name of the designated file.
[0017]
FIG. 4 shows image information 401 “Weather.1” which is an example of an image displayed on the first page of the WWW homepage. It is explanatory drawing which shows gif.
As shown in FIG. 4, the image information file “Weather. The image information 401 stored in “gif” represents an image of a schematic Japan map showing the weather in various parts of Japan.
[0018]
Lines 316 and 317 of the HTML document 301 are the character string “Tomorrow will be springy nationwide tomorrow” surrounded by <P> and </ P>. Represents a paragraph (paragraph).
<UL> on line 318 and </ UL> on line 321 indicate that the display element of the document expressed by the character string between them is displayed in a bulleted form with unnumbered headings. Yes.
[0019]
<LI> in lines 319 and 320 indicates that the character string up to the next <LI> or </ UL> is one item of the itemized list.
<A HREF=“Tokyo.html”> Tokyo </A> in line 319 starts from an HTML document 501 “Tokyo. “html” indicates that a link is established. A character string or an image linked to another file like this character string “Tokyo” is called a hot spot or an anchor point. For example, when the hot spot “Tokyo” displayed on the monitor of the personal computer by the browser is selected by the user's mouse operation or the like, the HTML document 501 “Tokyo. “html” is read by the browser, and the display image is displayed. The tag <A> attribute “HREF =” indicates the designation of the link destination of the tag <A>, and the attribute value “Tokyo.html” indicates the file name of the link destination. ing.
[0020]
<A HREF=“Osaka.html”> Osaka </A> in the line 320 starts with the HTML document 601 “Osaka. “html” indicates that a link is established. The character string “Osaka” on the line 320 is also a hot spot similar to the character string “Tokyo” on the line 319. When the character string “Osaka” is selected, the HTML linked to the character string “Osaka” is selected. Document 601 “Osaka. A display image of “html” is displayed on the monitor.
[0021]
<A HREF=“Weather.au“> audio commentary </A> in the row 321 indicates that the audio information “Weather. “au” indicates that a link is established. The character string “voice commentary” is a hot spot, and when the character string “voice commentary” is selected, the linked voice information “Weather. au "is reproduced.
[0022]
FIG. 5 shows an HTML document 501 “Tokyo.” That describes an example of the second page of the WWW homepage. It is explanatory drawing which shows html.
Since the tags described in the HTML document 501 have already been described, the description will be omitted except for the description related to links to other pages.
<A HREF=“Report.html”> Return </A> in line 411 starts from the character string “Return” to the HTML document 301 “Report.html” shown in FIG. “html” indicates that a link is established.
[0023]
FIG. 6 shows an HTML document 601 “Osaka. It is explanatory drawing which shows html.
Since the tags described in the HTML document 601 have already been described, the description will be omitted except for the description related to links to other pages.
<A HREF=“Report.html”> Return </A> in line 511 starts from the character string “Return” and HTML document 301 “Report.html” shown in FIG. “html” indicates that a link is established.
[0024]
Note that the information acquisition unit 111 may continuously acquire all the files indicated in the acquisition list storage unit 121, store all the acquired files in the buffer, and acquire the files in units of pages. Then, the file may be stored in the buffer, and the next file may be acquired each time processing for the page of the transmission data generation unit 112 described later is completed.
(Description of configuration of transmission data generation unit 112)
The transmission data generation unit 112 includes a data conversion table storage unit 122 and a storage area (not shown) serving as a work area for transmission data generation. The data conversion table storage unit 122 includes a tag table indicating the control content of each HTML tag and a flag corresponding thereto, a font file containing character fonts for TV display according to use, and link information data describing a hot spot. A link information table showing a format for the communication system 100 is stored. The work area includes a file storage area for holding an HTML document of one file, a tag storage area for securing a character string sandwiched between <> in a tag, and a character string other than a tag. Character string storage area, and a flag storage area that is an area for setting a flag for controlling generation of display image information. The character string written in the tag storage area and the character string written in the character string storage area are deleted every time processing corresponding to the tag (flag) is completed. If there are a plurality of flags in the flag storage area, they are set in order from the top and reset in order from the bottom.
[0025]
FIG. 7 is an explanatory diagram showing an example of the link information table 700 stored in the data conversion table storage unit 122. Note that “9” shown in the link information table 700 represents a single-digit decimal number.
As shown in the link information table 700, the link information includes index information 701 and hot spot information 702, and the index information 701 and hot spot information 702 are each represented by a character string sandwiched between <>. .
[0026]
The index information 701 includes an information identification part “INDEX =” indicating index information and a file identification value represented by a 4-digit decimal number. The file identification value indicates the identification number of the file of transmission data to which this index information belongs.
The hot spot information 702 includes an information identification unit “HOTSPOT” indicating hot spot information, and XY coordinates “X = 999, Y” indicating a cursor display position in the display image represented by the corresponding display image information. = 999, ”, a command“ GO_TO_PAGE ”associated with the cursor displayed at the XY coordinates, and a variable value of the command represented by a 4-digit decimal number. The variable value of the command indicates the identification number of another transmission data file linked to the cursor.
[0027]
The transmission data generation unit 112 handles a set of display image information, audio information, and link information generated based on one HTML document as one transmission data file. The transmission data generation unit 112 stores the transmission data in one file in each of a display image information storage unit 123, an audio information storage unit 124, and a link information storage unit 125 provided in a transmission data holding unit 113 described later. A storage area is set for storing display image information, audio information, and link information in association with each other. Hereinafter, the storage area in the display image information storage unit 123 is referred to as a display image information storage area, the storage area in the audio information storage unit 124 is referred to as an audio information storage area, and the storage area in the link information storage unit 125 is referred to as a link information storage area.
[0028]
Furthermore, the transmission data generation unit 112 stores the display image information storage area, the audio information storage area, and the link information storage area set for storing the display image information, the audio information, and the link information of the same transmission data file. The same identification number for reading transmission data is given. Also, the transmission data generation unit 112 manages the audio information and link information belonging to the same transmission data file as one file, respectively, and attaches the same identification number to them. The identification number is given by, for example, an acquisition order number 201 in the acquisition list 200 corresponding to the file name 203 of the acquired file.
[0029]
The transmission data generation unit 112 extracts the unprocessed HTML document file acquired by the information acquisition unit 111 from the buffer in the information acquisition unit 111 according to the acquisition order number 201 of the acquisition list 200, and stores it in the file storage area of the work area. In addition to writing, index information is generated according to the format of the index information 701 in the link information table 700. Further, the generated index information is stored at the head of the link information storage area of the transmission data holding unit 113.
[0030]
Further, the transmission data generation unit 112 reads the tag in order from the top of the HTML document, collates the read tag with the tag table, and interprets the control content of the tag. The interpretation of the control content is that the character string following the tag start character “<” is written to the tag storage area of the work area one by one until the tag end character “>” appears. Then, the character string written in the work area, that is, the character string sandwiched between “<” and “>” is interpreted by collating with the tag table.
[0031]
If the read tag is <(character string other than “A”, “IMG” or “character string starting with“ / ”)>, first, the transmission data generating unit 112 sets a flag indicating the interpretation result in the work area. In the flag storage area, a character string sandwiched between the tag <> and the corresponding tag </> is secured in the character string storage area of the work area in association with the flag. The method of securing the character string sandwiched between the corresponding tags in the character string storage area is the same as the character string in the tag. Next, the secured character string is converted into a character image using the character font in the font file, and display image information in which the character image is arranged according to the flag is generated. Next, the generated display image information is added to the display image information storage area set in the transmission data holding unit 113. If the tag <> is not a character string but another tag <(another character string)>, only the flag corresponding to the previous tag <> is set in the flag storage area. Then, processing corresponding to the next tag <(another character string)> is performed.
[0032]
If the read tag is <IMG>, the transmission data generation unit 112 extracts the image information file of ““ file name ”” specified by the attribute “SRC =” from the buffer of the information acquisition unit 111. The image data is decompressed in a format corresponding to the extension of the file name and converted into image information represented in a certain format such as bitmap data or graphic data. For example, the extension of the file name of the specified image information file is “. If “gif”, the image information is expanded according to the GIF format and converted into image information in a predetermined format. If there is an upper flag indicating the control content for the converted image information, display image information is generated according to the control content, and if not, display image information is arranged at the display position by default. Next, the generated display image information is added to the display image information storage area.
[0033]
If the read tag is the tag <A>, the transmission data generation unit 112 uses the “<link destination file” specified by “HREF =” attribute of the tag <A> as the extension “. It is checked whether the audio information is “au” or the like. If it is audio information, the audio information is extracted from the acquisition list storage unit 121 and converted into audio information in a predetermined format, and the converted audio information is stored in the audio information storage area.
[0034]
If it is not voice information, a character image is generated from a character string sandwiched between a tag <A> and a tag </A>, and the generated character image depends on a display position arranged by a higher flag or an initial setting. Display image information is generated so as to display an area for displaying the cursor from the display position. The generated display image information is additionally stored in the display image information storage area of the transmission data holding unit 113. Next, the XY coordinates of the cursor display position as a free area are calculated. Further, referring to the hot spot information 702 in the link information table 700, the calculated XY coordinates of the cursor display position and “link destination file name” designated by the attribute “HREF =” of the tag <A> To generate hotspot information. At this time, the acquisition list 200 is referred to, and the acquisition order number 201 corresponding to the file name 203 is checked from the ““ link destination file name ”” of the tag <A>, and the acquisition order number 201 is identified as the file identification. Describe it in the hotspot information as a number. If the link destination file name does not exist in the acquisition list, the file name of the own file is set as the link destination file name. Next, the generated hot spot information is added and stored in the link information storage area of the transmission data holding unit 113.
[0035]
When the transmission data generating unit 112 finishes all the processes described in one HTML document by the above process, the area that is not actually displayed in the display image information stored in the display image information area The identification number assigned to the display image information area is imaged and written at a certain position.
Here, the identification number is represented by a four-digit decimal number. However, the identification number may be any number of digits, a binary number, or a combination of numbers or symbols. There may be. It may be represented by a figure or a barcode. Alternatively, the file name may be used. Further, the voice information stored in the voice information storage area and the link information stored in the link information storage area are attached to the corresponding storage areas in the same manner as those attached to general digital data files. The identification number is attached.
[0036]
Through such processing, the transmission data generation unit 112 performs transmission data 800 on the first page of the WWW home page from the acquired HTML document 301, audio information (not shown), image information 401, HTML document 501, and HTML document 601. The second page transmission data 900 and the third page transmission data 1000 are generated.
(Example of transmission data generated by transmission data generation unit 112)
FIG. 8 shows an HTML document 301 and audio information “Weather. It is explanatory drawing which shows the transmission data 800 of the 1st page of the WWW homepage produced | generated from "au" and the image information 401. FIG. FIG. 9 is an explanatory diagram showing the transmission data 900 of the second page of the WWW home page generated from the HTML document 501. FIG. 10 is an explanatory diagram showing the transmission data 1000 of the third page of the WWW home page generated from the HTML document 601.
[0037]
Transmission data 800 shown in FIG. 8 represents the first page of the WWW home page, and includes display image information 801 and audio information 802, and link information 803 associated with display image information 801. FIG. 8A is an explanatory diagram showing the contents of the display image information 801 using a display image displayed based on the display image information 801. FIG. 8B is an explanatory diagram showing the audio information 802. FIG. 8C is an explanatory diagram showing the contents of the link information 803.
[0038]
A region indicated by a broken line above the display image information 801 indicates a non-display region common to all display image information. The non-display area is not displayed on the display screen of the display unit 154. In such a position in the upper right corner of the non-display area, the identification number “0001” represented as an image by the transmission data generation unit 112 is written. Further, in the displayed area, the character string represented by the character code in the original file is represented as an image and displayed as one image as a whole together with the image represented as the image information. Represents an image.
[0039]
The voice information 802 is voice information linked to the character string “voice comment” which is a hot spot in the HTML document 301. As shown in FIG. 8B, the identification number “0001” is attached to the file storing the audio information 802. Like the audio information 802, as shown in FIG. 8C, the file storing the link information 803 is assigned an identification number “0001”. The link information 803 is not displayed because it is control information. A row 811 in the link information 803 indicates the index information already described and indicates that the file identification number of the transmission data 800 is “0001”.
[0040]
In the row 812, the instruction “GO_TO_PAGE (0002)” is associated with the position represented by the coordinate values (100, 600) on the display image information 801, and the data receiving apparatus 150 side holds this instruction. Indicates that the cursor image should be displayed. The command “GO_TO_PAGE (0002)” represents a command to display the page represented by the transmission data 900 having the identification number “0002”.
[0041]
The line 813 indicates that the instruction “GO_TO_PAGE (0003)” is associated with the position represented by the coordinate values (100, 700) on the display image information 801, and the cursor image should be displayed at this position. Is shown. The command “GO_TO_PAGE (0003)” represents a command to display the page represented by the transmission data 1000 having the identification number “0003”.
[0042]
Transmission data 900 shown in FIG. 9 represents the second page of the WWW home page, and includes display image information 901 and link information 902 associated with the display image information 901. FIG. 9A is an explanatory diagram showing the contents of the display image information 901 using a display image displayed based on the display image information 901. FIG. 9B is an explanatory diagram showing the contents of the link information 902.
[0043]
Similar to the display image information 801, the display image information 901 has its identification number “0002” written in the upper right corner of the non-display area indicated by the broken line.
As shown in FIG. 9B, the file storing the link information 902 is assigned an identification number “0002”.
A line 911 in the link information 902 indicates that the file identification number of the transmission data 900 is “0002”.
[0044]
A row 912 indicates that the instruction “GO_TO_PAGE (0001)” is associated with the position represented by the coordinate values (050, 400) on the display image information 901, and the cursor should be displayed at this position. . The command “GO_TO_PAGE (0001)” represents a command to display the page represented by the transmission data 800 having the identification number “0001”.
[0045]
The transmission data 1000 shown in FIG. 10 represents the third page of the WWW home page, and includes display image information 1001 and link information 1002 associated with the display image information 1001. FIG. 10A is an explanatory diagram showing the contents of the display image information 1001 using a display image displayed based on the display image information 1001. FIG. 10B is an explanatory diagram showing the contents of the link information 1002.
[0046]
In the upper right corner of the non-display area of the display image information 1001, the identification number “0003” is written as an image.
Also, as shown in FIG. 10B, the identification number “0003” is assigned to the file storing the link information 1002.
A row 1011 in the link information 1002 indicates that the identification number of the transmission data 1000 is “0003”.
[0047]
A row 1012 indicates that a command “GO_TO_PAGE (0001)” is associated with a position represented by coordinate values (050, 400) on the display image information 1001, and the cursor should be displayed at this position. . The command “GO_TO_PAGE (0001)” represents a command to display the page represented by the transmission data 800 having the identification number “0001”.
(Exemplary explanation of processing of information acquisition unit 111 and transmission data generation unit 112)
Hereinafter, the information acquisition part 111 and transmission data generation until it acquires the file illustrated in FIG.3, FIG.4, FIG.5 and FIG. 6, and it produces | generates the transmission data of FIG.8, FIG.9 and FIG. The processing of the unit 112 will be specifically described.
(Processing of information acquisition unit 111)
The information acquisition unit 111 requests connection to a WWW server on the Internet shown in the acquisition list storage unit 121, and the HTML document 301 “Report. html ”. Next, the file name “Report. “html” is added and stored in the buffer. Similarly, compressed image information 401, HTML document 501 and HTML document 601 are acquired from the WWW server.
(Processing of transmission data generation unit 112)
The transmission data generation unit 112 stores a storage area for storing transmission data 800 including a storage area for display image information 801, a storage area for audio information 802, and a storage area for link information 803 in the transmission data holding unit 113. The identification number “0001” for reading the transmission data 800 is assigned to the set storage area. The unprocessed HTML document 301 is extracted from the buffer of the information acquisition unit 111, and the extracted HTML document 301 is written in the file storage area of the work area.
[0048]
The transmission data generation unit 112 reads the file name “Report. The index information “<INDEX = 0001>” shown in the row 811 of the transmission data 800 representing the first page of the WWW home page is generated from “html”, and is added to the head of the storage area for the link information 803 in the transmission data holding unit 113. Store.
[0049]
The transmission data generation unit 112 reads the tag <HTML> in line 311 from the HTML document 301. The character string “HTML” in the read tag <HTML> is secured in the tag storage area in the work area, interpreted with reference to the tag table in the data conversion table storage unit 122, and at the start line of the HTML document 301. Identify something. Thereafter, the character string “HTML” in the tag storage area is deleted.
[0050]
Next, the transmission data generating unit 112 reads the tag <H1> in the row 312, interprets the tag <H1> with reference to the tag table, and sets a heading flag in the flag storage area in the work area. The heading flag indicates that the character string following the tag <H1> is a heading and should be displayed using a heading font. Subsequently, the character string “weather forecast” is read as a result while writing the character string following the tag <H1> to the character string storage area character by character until the tag </ H1> appears, and the tag </ H1> When it appears, the character string “weather forecast” in the character string storage area is converted into display image information using a predetermined font for headings. The generated display image information is added to the display image storage area set in the transmission data holding unit 113. The heading flag set in the work area is reset, and the character string “weather forecast” secured in the character string storage area and the character string “H1” secured in the tag storage area are erased.
[0051]
The transmission data generation unit 112 reads the tag <CENTER> in the line 313 and sets a middle flag in the work area. The intermediate flag indicates that the character string read following the flag should be displayed with the intermediate. Next, when the character string following the tag <CENTER> is to be read, there is no character string, so the process moves to reading of the line 314.
[0052]
The transmission data generation unit 112 reads the tag <IMG SRC = “Weather.gif”> in line 314 and interprets the read tag <IMG SRC = “Weather.gif”> with reference to the tag table. The transmission data generation unit 112 checks whether or not the file of the image information 401 represented by the file name “Weather.gif” exists in the buffer of the information acquisition unit 111, and reads this because it exists. Next, the image information 401 compressed and stored in the read file is converted into, for example, bitmap data according to the GIF expansion method.
[0053]
The transmission data generation unit 112 reads the tag </ CENTER> in the line 315 and arranges the image information 401 converted into the bitmap data according to the neutralization flag set in the work area. The display image information generated in this way is added to the display image storage area in the transmission data holding unit 113. Next, the work area inside flag is reset.
[0054]
The transmission data generation unit 112 reads the tag <P> in line 316 and sets a paragraph flag. The paragraph flag indicates that the character string up to the tag </ P> following the flag should be displayed as one paragraph in which a blank line is inserted immediately after that. In the same manner as the “weather forecast” in line 312, the character string “Tomorrow will be springy nationwide” will be read and secured in the character string storage area of the work area. Next, when the tag </ P> is read, the character string it holds will be imaged with the paragraph font stored in the font file and displayed as a display image. Information is added to the storage area for display image information 801 in the transmission data holding unit 113. Further, the work area is reset.
[0055]
Similarly, the transmission data generation unit 112 reads and interprets the tag <UL> in the line 318, and sets a bulleted flag in the work area. The itemized flag indicates that after the flag, a character string that is interpreted as a character string of one item should be displayed as a bulleted item as an unnumbered item.
The transmission data generation unit 112 reads the tag <LI> in line 319, refers to the tag table, interprets that it is the head of one item, and sets an item flag in the flag storage area. The item flag indicates that when the tag <LI> or the tag </ UL> is read, the display position of the display image should be broken.
[0056]
The transmission data generation unit 112 reads the tag <A HREF=“Tokyo.html”> following the tag <LI>, and writes it in the tag storage area. The transmission data generation unit 112 interprets the tag <A HREF=“Tokyo.html”> according to the tag table, and further sets a link flag in the flag storage area.
The link flag checks whether or not the link destination file is audio information from the extension of the attribute value in the tag <A>. If it is audio information, the audio information is converted into a predetermined format, and the converted audio information Is stored in the voice information storage area, indicating that the processing relating to the tag <A> should be terminated. In addition, the link flag indicates that if the linked file is not audio information, the cursor is placed immediately before the character string between the tag <A> and the tag </A> and linked by the tag <A>. A character string is imaged by providing a blank portion for two characters as a display area, display image information of the character string is generated, and hot spot information should be generated according to the format of the hot spot information 702 Show.
[0057]
The transmission data generation unit 112 reads the character string “Tokyo” following the tag <A HREF=“Tokyo.html”> until the tag </A> appears, and writes it in the character string storage area of the work area. When the transmission data generation unit 112 reads the tag </A>, the transmission data generation unit 112 images the character string “Tokyo” by providing a blank portion for two characters immediately before the character string “Tokyo”, and the character string according to the bulleted flag. “Tokyo” is arranged, display image information is generated and added to the display image information 801 storage area of the transmission data holding unit 113. Next, the transmission data generation unit 112 calculates the coordinates of the display position of the cursor. Further, the calculated coordinate values (100, 600) and the attribute value “Tokyo. The hot spot information shown in line 812 of FIG. 8 is generated from “html”. Next, the generated hot spot information is added to the storage area for link information 803 in the transmission data holding unit 113. Thereafter, the in-tag character string “A HREF =“ Tokyo.html ”” written in the tag storage area of the work area and the character string “Tokyo” written in the character string storage area are deleted, and the link flag is deleted. To reset.
[0058]
The transmission data generation unit 112 reads the tag <LI> in the line 320, and then has the item flag so that the display position of the display image is changed, and the display image of the character string “Osaka” is processed in the same manner as the process in the line 319. In addition to generating information, the hot spot information shown in the row 813 of FIG. 8 is generated. The generated display image information is added to the storage area for display image information 801 in the transmission data holding unit 113, and the hot spot information is added to the storage area for link information 803 in the transmission data holding unit 113. Thereafter, the character string “A HREF =“ Osaka.html ”” in the tag and the character string “Osaka” are deleted, and the link flag is reset.
Next, after reading the tag <LI> in the row 321, the transmission data generation unit 112 changes the display position of the display image because there is an item flag, and sets the link flag according to the tag <A HREF=“Weather.au”>. Stand up. When the extension of the attribute value is examined according to the link flag, the link destination file is audio information in the AU format. Therefore, the AU format is converted into a predetermined format, and the converted audio information is used for the audio information 802. Store in the storage area.
[0059]
Next, when the tag </ UL> of the line 322 is read and the end of the itemized list is interpreted, the itemized flag and the item flag are reset.
Further, when the tag </ HTML> in line 323 is read and the end of the HTML document 301 is interpreted, the generation processing of the transmission data 800 is completed.
Thereafter, the transmission data generation unit 112 checks that there is an unprocessed HTML document 501, and the transmission data including a display image information 901 storage area and a link information 902 storage area in the transmission data holding unit 113. A storage area for storing 900 is set, and an identification number “0002” for reading the transmission data 900 is assigned to both the set storage areas. An unprocessed HTML document 501 is extracted from the buffer of the information acquisition unit 111, and the extracted HTML document 501 is written in the work area.
[0060]
The transmission data generation unit 112 sends the file name “Tokyo. The index information “<INDEX = 0002>” shown in the row 911 of the transmission data 900 representing the second page of the WWW home page is generated from “html” and stored at the head of the storage area for the link information 902 of the transmission data holding unit 113. To do. Hereinafter, the transmission data 900 can be generated from the HTML document 501 and the transmission data 1000 can be generated from the HTML document 601 in the same manner as the transmission data 800 is generated from the HTML document 301 and the image information 401. Is omitted.
(Description of configuration of transmission data holding unit 113, transmission data reading unit 114, multiplexing unit 115, and transmission unit 116)
The transmission data holding unit 113 includes a display image information storage unit 123, an audio information storage unit 124, and a link information storage unit 125 that can be read simultaneously.
[0061]
The display image information storage unit 123 is realized by, for example, a RAM, a hard disk device, or the like. In the display image information storage area set by the transmission data generation unit 112, one of the display image information generated by the transmission data generation unit 112 is stored. Hold the file.
The audio information storage unit 124 is realized by a RAM, a hard disk device, or the like, and holds audio information for one file stored by the transmission data generation unit 112 in each audio information storage area set by the transmission data generation unit 112. .
[0062]
The link information storage unit 125 is realized by a RAM, a hard disk device, or the like, and holds one file of link information generated by the transmission data generation unit 112 in each link information storage area set by the transmission data generation unit 112. . The transmission data reading unit 114 simultaneously displays display image information, audio information, and link information in the same transmission data file in the order of identification numbers from the storage areas set in the transmission data holding unit 113. The data are read out and output to the multiplexing unit 115. Also, after reading the transmission data file corresponding to the last identification number, the transmission data returns to the transmission data with the identification number “0001”, and the transmission data is read in the order of the identification numbers. That is, the transmission data reading unit 114 reads the transmission data stored in the transmission data holding unit 113 in the order of the identification number, and outputs it to the multiplexing unit 115.
[0063]
The multiplexing unit 115 multiplexes the display image information (including audio information) read out by the transmission data reading unit 114 and the link information, and outputs the multiplexed information to the transmission unit 116. As a multiplexing method, for example, a conventional TV broadcast character multiplexing technique is used. In this case, the display image information and the audio information are multiplexed in the same manner as a conventional broadcast program composed of an image and audio, and the link information is multiplexed in the same manner as general character information multiplexed in the broadcast program.
[0064]
The transmission unit 116 sequentially transmits the transmission data multiplexed by the multiplexing unit 115 using a TV broadcast terrestrial wave.
(Description of transmission data transmission method)
FIG. 11 is an explanatory diagram illustrating a transmission method of transmission data by the transmission unit 116. FIG. 11 shows a case where transmission data from the first page to the n-th (n is a natural number) page is generated by the transmission data generation unit 112. FIG. 11 shows a set of display image information and audio information having the same identification number as one transmission unit associated with a normal broadcast program of TV, and link information having one identification number is represented by the broadcast. It is expressed as one transmission unit associated with general character information multiplexed in a program.
[0065]
As shown in FIG. 11, the display image information, audio information, and link information stored in the same transmission data file are associated with the same identification number. Are also transmitted in association with each other. The transmission data from the first page to the nth page held in the transmission data holding unit 113 is repeatedly transmitted in the order of identification numbers.
[0066]
Here, the transmission data reading unit 114 displays the display image information, audio information, and link information stored in the same transmission data file, the display image information storage unit 123, the audio information storage unit 124, and the link information storage unit 125. The display image information, the sound information, and the link information are transmitted in association with both the identification number and the transmission timing, but the display image information (including the sound information), the link information, Need not be transmitted in accordance with the transmission timing. For example, the transmission data reading unit 114 includes two components, a first reading unit and a second reading unit, and the first reading unit is generated in the display image information storage unit 123 and the audio information storage unit 124. The set of display image information and audio information being read is continuously read and output to the multiplexing unit 115, and the second reading unit continuously reads only the link information generated in the link information storage unit 125. The data may be output to the multiplexing unit 115. In this way, even when the display image information and the link information stored in the same transmission data file are transmitted from the transmission unit 116, the timing is not necessarily the same. Since each link information is assigned an identification number, the corresponding display image information and link information can be captured on the data reception device 150 side by the identification number.
[0067]
Further, the multiplexing unit 115 multiplexes the display image information (including audio information) generated by the transmission data generation unit 112 and the link information, and the transmission unit 116 converts the multiplexed transmission data to the TV broadcast ground. The display image information and the link information do not necessarily need to be multiplexed and transmitted. For example, the display image information and the audio information are transmitted by terrestrial TV broadcasting or satellite digital broadcasting. The link information may be transmitted using a telephone line and a modem. Moreover, you may make it transmit using a several channel.
[0068]
Further, when satellite digital broadcasting is used as a data transmission method, for example, compression encoding technology and multiplexing technology based on MPEG2 video standard and system standard are used, display image information is set as I picture, audio information and link information. May be transmitted as private information. As described above, when the display image information, the audio information, and the link information can be transmitted as digital data, the identification number imaged in the non-display area in the display image information is written as described above. The display image information and the audio information can be transmitted with a simple identification number, similarly to the link information. The MPEG2 standard is described in detail in “Latest MPEG Textbook” (available from ASCII Publishing Co., Ltd.).
(Schematic processing procedure of the entire data transmission device 110)
Hereinafter, the processing procedure of the data transmission apparatus 110 will be specifically described with reference to FIGS. 12 to 14.
[0069]
FIG. 12 is a flowchart showing a schematic processing procedure of the entire data transmission apparatus 110.
The information acquisition unit 111 acquires predetermined information from the external database and stores it in an internal buffer (step S1101).
The transmission data generation unit 112 interprets the information acquired by the information acquisition unit 111, generates display image information, audio information, and link information, and stores them in the transmission data holding unit 113 (step S1102).
[0070]
The transmission data reading unit 114 circulates and reads the transmission data in the transmission data holding unit 113 in the order of identification numbers (step S1103).
Multiplexer 115 multiplexes the read display image information (including audio information) and link information, and transmitter 116 transmits the multiplexed transmission data using the terrestrial TV broadcast wave ( Step S1104).
(Processing procedure of the information acquisition unit 111)
FIG. 13 is a flowchart illustrating an example of a procedure of information acquisition processing by the information acquisition unit 111.
[0071]
The information acquisition unit 111 refers to the acquisition information list in the acquisition list storage unit 121 and checks whether there is information that has not yet been acquired (step S1201). If it does not exist, the information acquisition process is terminated. If it exists, one acquisition address (URL) of information that has not yet been acquired is extracted (step S1202).
Based on the retrieved address, a connection is requested to the external database (step S1203), and it is confirmed whether the connection is successful (step S1204). If unsuccessful, the process returns to step S1203 (step S1204).
[0072]
If the connection is successful, the file name of information not yet acquired is read from the acquired information list, the target file is acquired from the external database, and stored in the internal buffer (step S1205). The process returns to step S1201.
(Processing procedure of transmission data generation unit 112)
FIG. 14 is a flowchart illustrating an example of a procedure of transmission data generation processing by the transmission data generation unit 112.
[0073]
The transmission data generation unit 112 refers to the buffer in the information acquisition unit 111 and checks whether there is an unprocessed HTML document (step S1301). If not, the display image generation process is terminated. If there is, a storage area for storing transmission data is set in the transmission data holding unit 113, an identification number is assigned to the set storage area, and one unprocessed HTML document is taken out from the buffer (step S1302).
[0074]
Index information indicating the file name of the transmission data is created from the file name of the extracted HTML document and added to the link information storage area set in the transmission data holding unit 113 (step S1303).
One character is read from the extracted HTML document and written into the character string storage area (step S1304).
[0075]
It is checked whether or not the read character is a tag start character “<” (step S1305). If it is a tag start character, the process proceeds to step S1307. If it is not a tag start character, the read character is added to the character string storage area in the work area and written, and the process returns to step S1304 (step S1306).
One character is read next (step S1307). It is checked whether or not the tag end character is “>” (step S1308). If it is a tag end character, the process moves to step S1310. If it is not a tag end character, the read character is added to the tag storage area in the work area and written, and the process returns to step S1307 (step S1309).
[0076]
The character string in the tag storage area is checked against the tag table to check whether the character string starts with “/” (step S1310). In the case of a character string starting with “/”, it is checked whether or not the read tag is a </ HTML> tag (step S1311). In the case of the </ HTML> tag, all the work areas are reset, and the process returns to step S1301. If the tag is not a </ HTML> tag, processing corresponding to the lowest flag set in the flag storage area corresponding to the tag is performed, and the corresponding storage area in the work area is reset (step S1312). The process returns to S1304.
[0077]
If it is not a character string starting with “/” in step S1310, it is checked whether the read tag is an <IMG> tag (step S1313). In the case of the <IMG> tag, the image information file having the file name specified by the attribute value of the <IMG> tag is extracted from the buffer of the information acquisition unit 111 (step S1314). The extracted image information is converted into image information represented by bitmap data in accordance with the GIF expansion method, and the process returns to step S1304 (step S1315).
[0078]
If the read tag is not an <IMG> tag, the character string in the tag storage area is checked against the tag table, a flag corresponding to the tag is set in the flag storage area, or a process corresponding to the tag is performed (step S1316). ), The process returns to step S1304.
Note that various tags are used in the HTML document, and processing corresponding to these tags can be performed in the same manner as in an existing browser. Therefore, hereinafter, only processing for the </A> tag related to generation of link information generated in a format dedicated to the data communication system 100 will be described as an example of processing in step S1312.
[0079]
FIG. 15 is a flowchart showing a specific example of part of the processing procedure in step S1312 of FIG.
It is checked whether the tag is a </A> tag (step S1401). If it is not a </A> tag, the process moves to step S1408.
In the case of the </A> tag, it is checked whether or not the link destination file indicated by the attribute value is an audio information file (step S1402). In the case of an audio information file, the process proceeds to step S1407.
[0080]
If it is not an audio information file, display image information of a character string secured in the character string storage area is created by opening the display area of the cursor graphic and added to the display image information storage area in the transmission data holding unit 113 (step) S1403).
XY coordinates indicating the display position of the cursor graphic are calculated (step S1404).
[0081]
Hot spot information is generated from the calculated XY coordinates and the attribute value secured in the tag storage area, and is added and stored in the link information storage area of the transmission data holding unit 113 (step S1405).
The link flag in the work area is reset, and the character strings in the tag storage area and the character string storage area are deleted (step S1406).
[0082]
The voice information file is taken out, the voice information in the file is converted into a predetermined format and stored in the voice information storage area (step S1407).
Processing corresponding to the read tag is performed (step S1408).
(Description of configuration of data receiving apparatus 150)
Hereinafter, each configuration of the data receiving apparatus 150 will be described with reference to FIGS. 16 to 20.
(Configuration of Reception Separation Unit 151)
The reception separation unit 151 includes a reading buffer 161 for reading an identification number attached to transmission data. The reading buffer 161 has a storage area for temporarily storing display image information (including audio information) for one file and link information for one file.
[0083]
The reception separation unit 151 separates display image information (including audio information) and link information from received transmission data, and separates display image information (including audio information) for one file and link for one file. Information is stored in a storage area in the read buffer 161 corresponding to each information. As for the display image information stored in the storage area, the identification number is read by recognizing the image written at a fixed position in the non-display area of the display image information. The link information stored in the storage area is read in the same manner as an identification number attached to a general digital data file. If the read identification number is the identification number instructed to the control unit 155, the display image information (including audio information) or the link information held in the read buffer 161 is stored in the received data holding unit 152. Store in the corresponding storage area. If the read identification number is not the identification number instructed to the control unit 155, the display image information (including audio information) or the link information held in the read buffer 161 is discarded, and the control unit 155 is instructed. Until the identification number is read, new display image information (including audio information) and link information are taken into the reading buffer 161, and the above processing is repeated.
(Configuration of received data holding unit 152, playback unit 153, and display unit 154)
The reception data holding unit 152 stores display image information (including audio information) separated by the reception separation unit 151 and link information in association with each other by an identification number. The area for storing the display image information is realized by, for example, a RAM or a hard disk device for storing a still image of one screen.
[0084]
The reproduction unit 153 reproduces display image information stored in the reception data holding unit 152 and graphic information described later input from the control unit 155 in accordance with an instruction from the control unit 155, and outputs it to the display unit 154. . Further, in synchronization with the reproduction of the display image information, the audio information stored together with the display image information is reproduced and output to the audio output unit 157.
[0085]
The display unit 154 is realized by a TV monitor or the like that displays an image according to the NTSC system or the like, and displays a display image and a cursor graphic on the screen according to an input from the reproduction unit 153.
(Configuration of control unit 155)
First, the control unit 155 sets an initial value in a register that stores a variable value, for example, display image information (including audio information) and link information of an identification number “0001” corresponding to the page indicated by the initial value. Is received from the reception separation unit 151.
[0086]
Each time new display image information (including audio information) is stored in the reception data holding unit 152, the control unit 155 instructs the reproduction unit 153 to reproduce the display image information (including audio information). Each time new link information is stored in the holding unit 152, the link information is interpreted to create a cursor graphic correspondence table in which a cursor graphic described later is associated with each cursor display position. The cursor graphic is represented by graphic information held in the control unit 155. Further, the control unit 155 outputs the graphic information representing the cursor graphic and the display position thereof to the reproduction unit 153 and instructs the reproduction of the graphic information.
[0087]
FIG. 16 is an explanatory diagram showing an example of a cursor graphic correspondence table created by the control unit 155 to control the display position of the cursor graphic.
The cursor graphic correspondence table shows the correspondence between each cursor display position indicated by the hot spot information of the link information held in the received data holding unit 152 and the cursor number of the cursor graphic to be displayed at the display position. For example, the control unit 155 attaches a cursor number to each cursor display position in the link information in ascending order of Y coordinate and then in ascending order of X coordinate, and sets the item corresponding to the cursor number in the cursor graphic correspondence table. Write the display position.
[0088]
FIG. 17 is an explanatory diagram illustrating an example of graphic information held by the control unit 155. As shown in FIG. 17, the control unit 155 retains graphic information indicating the cursor graphic when the cursor is selected and the cursor graphic when the cursor is not selected in association with each cursor number. Yes.
Further, the control unit 155 interprets the type of the input signal held by the signal receiving unit 156 in response to the interruption from the signal receiving unit 156, selects the corresponding graphic information of the cursor graphic, and outputs it to the reproducing unit 153. Next, in accordance with the cursor whose selection has been confirmed, the reception separation unit 151 controls fetching of transmission data.
(Received data display control processing)
Hereinafter, a set of display image information (including audio information) having the same identification number and link information stored in a corresponding storage area in the reception data holding unit 152 by the reception separation unit 151 and link information is referred to as reception data. In particular, the received data display control processing by the control unit 155 will be described more specifically.
[0089]
The control unit 155 sets a variable P-Index representing the identification number of received data to be displayed to a predetermined value, for example, “1”. Next, a variable Cur-Pos representing the cursor number in the selected state is set to a predetermined value, for example, “1”. The control unit 155 instructs the reception separation unit 151 to capture transmission data indicated by the variable P-Index. Furthermore, the graphic information of each cursor that is taken in accordance with the instruction and interprets the link information of the received data stored in the received data holding unit 152 to select the cursor indicated by the variable Cur-Pos is displayed in the corresponding display position. At the same time, it is output to the playback unit 153. Next, when an interrupt from the signal receiving unit 156 occurs, the input signal held in the signal receiving unit 156 is interpreted. First, it is checked whether or not the input is “up”. If it is “up”, the value of the variable Cur-Pos is incremented by one. It is checked whether or not the input is “down”. If it is “down”, the value of the variable Cur-Pos is decreased by one. It is checked whether or not the input is “confirmed”. If it is “confirmed”, the coordinates of the display position are obtained from the cursor number indicated by the variable Cur-Pos, and the link destination file described in the hot spot information is obtained from the coordinates. Get the identification number. Further, the identification number is set to the value of the variable P-Index, and the reception separating unit 151 is instructed to capture the transmission data indicated by the variable P-Index.
(Configuration of the signal receiving unit 156 and the audio output unit 157)
When receiving an input signal from an external remote controller (not shown) or the like, the signal receiving unit 156 generates an interrupt to the control unit 155 by receiving the input signal, and holds the received input signal.
[0090]
The audio output unit 157 is realized by a speaker or the like, and outputs reproduced audio information as audio.
(Example of display image)
18 is an explanatory diagram showing a display image 1800 of the initial screen displayed on the display unit 154 based on the transmission data 800 of FIG.
[0091]
As shown in FIG. 18, the display image 1800 has a cursor number at the display position (100, 600) in the display image represented by the display image information 801 in accordance with the hot spot information shown in the row 812 of the link information 803. A cursor graphic 1801 corresponding to “1” is displayed. Note that graphic information indicating a selected state is selected as the cursor graphic 1801 based on the initial value of the variable Cur-Pos of the control unit 155.
[0092]
Similarly, a cursor graphic 1802 corresponding to the cursor number “2” is displayed at the display position (100, 700) according to the hot spot information shown in the row 813 of the link information 803. Since the cursor number “2” is not the initial value of the variable Cur-Pos, graphic information indicating the non-selected state is selected as the cursor graphic 1802.
[0093]
Since the transmission data 800 includes the audio information 802 together with the display image information 801, the display image 1800 is displayed on the display unit 154, and “audio explanation” by audio is output from the audio output unit 157. The
FIG. 19 is an explanatory diagram showing a display image 1900 of the initial screen displayed on the display unit 154 based on the transmission data 900 of FIG.
[0094]
Similar to the display image 1800 shown in FIG. 18, the display position of the display image 1900 in the display image represented by the display image information 901 (050, 400) according to the hot spot information shown in the row 912 of the link information 902. The cursor graphic 1901 corresponding to the cursor number “1” is displayed. Further, as the cursor graphic 1901, graphic information indicating a selected state is selected.
[0095]
FIG. 20 is an explanatory diagram showing a display image 2000 of the initial screen displayed on the display unit 154 based on the transmission data 1000 of FIG.
Similarly, the display image 2000 has the cursor number “1” at the display position (050, 400) in the display image represented by the display image information 1001 according to the hot spot information shown in the row 1012 of the link information 1002. Correspondingly, a cursor graphic 2001 indicating the selected state is displayed.
(Specific example of processing of control unit 155)
Hereinafter, a processing procedure of the control unit 155 when displaying the display image 1800 on the display unit 154 based on the transmission data 800 will be specifically described.
[0096]
First, the control unit 155 sets the initial value of the variable P-Index to “0001” and the initial value of the variable Cur-Pos to “1”. Next, the reception / separation unit 151 is instructed to capture the display image information 801 (including the audio information 802) of the identification number “0001” indicated by the variable P-Index and the link information 803. The control unit 155 instructs the reproduction unit 153 to reproduce the display image information 801 (including the audio information 802) stored in the reception data holding unit 152. The reproduction unit 153 reproduces the display image information 801 of the first page and outputs it to the display unit 154, and reproduces the audio information 802 and outputs it to the audio output unit 157. The control unit 155 interprets the link information 803 stored in the received data holding unit 152, creates a cursor graphic correspondence table, and outputs the graphic information of each cursor and its display position to the reproduction unit 153. At this time, the cursor indicated by the variable Cur-Pos, that is, the first cursor is set to the selected image.
[0097]
The control unit 155 waits for an input from the signal receiving unit 156. It is assumed that an “up” signal is input to the signal receiving unit 156 from an external remote controller or the like. If the input signal is “up”, the control unit 155 increases the value of the variable Cur-Pos by one. That is, the value of the variable Cur-Pos is set to “2”. Next, the graphic of the cursor number “2” indicated by the new variable Cur-Pos is selected as graphic information, and the graphic of the cursor number “1” indicated by the original variable Cur-Pos is set as non-selected graphic information. These are output to the playback unit 153.
[0098]
It is assumed that the control unit 155 waits for an interrupt from the signal receiving unit 156, and an input signal indicating “determined” is held in the signal receiving unit 156 after the occurrence of the interrupt. If the input signal is “confirmed”, the control unit 155 reads out the XY coordinates (100, 700) associated with the cursor number “2” indicated by the variable Cur-Pos from the cursor graphic correspondence table. Next, based on the read XY coordinates (100, 700), the identification number “0003” of the link destination file of the hot spot information in row 813 is read, and the identification number “0003” of the read link destination file is obtained. . The obtained identification number “0003” is set as the value of the variable P-Index. Next, the reception separating unit 151 is instructed to capture the display image information 1001 and the link information 1002 having the identification number indicated by the variable P-Index. The control unit 155 initializes the value of the variable Cur-Pos to “1”.
[0099]
Thereafter, the display image 2000 shown in FIG. 20 can be displayed on the display unit 154 by performing the same processing as described above. When the value of the variable Cur-Pos is “1”, an interrupt occurs. When the control unit 155 refers to the signal receiving unit 156 by the interrupt, the signal receiving unit 156 holds an input signal indicating “determined”. In such a case, the control unit 155 can display the display image 1900 shown in FIG. 19 on the display unit 154 in the same manner as described above.
(Display control processing procedure)
FIG. 21 is a flowchart illustrating an example of the procedure of display control processing by the control unit 155.
[0100]
The control unit 155 sets a variable P-Index indicating an identification number of transmission data to be captured to an initial value (step S2101).
The control unit 155 sets a variable Cur-Pos indicating the cursor number of the selected state on the initial screen of each display image to an initial value (step S2102).
The control unit 155 instructs the reception separation unit 151 to capture transmission data having the identification number of the variable P-Index. The reception separation unit 151 separates display image information and link information from the received transmission data in accordance with an instruction from the control unit 155, and associates the corresponding display image information and link information with an identification number to receive data holding unit It stores in 152 (step S2103).
[0101]
The reproduction unit 153 reproduces the display image information in the reception data holding unit 152 according to an instruction from the control unit 155 and outputs it to the display unit 154. If there is audio information associated with the display image information, the audio information is reproduced and output to the audio output unit 157 (step S2104).
The control unit 155 interprets the link information in the reception data holding unit 152, outputs the graphic information representing the cursor graphic to the reproduction unit 153 together with the XY coordinates indicating the display position, and instructs the reproduction of the graphic information. To do. The reproduction unit 153 reproduces the graphic information input from the control unit 155 and outputs it to the display unit 154 (step S2105). As a result, the display unit 154 displays a display image of one screen.
[0102]
The control unit 155 waits for an interrupt from the signal receiving unit 156 (step S2106). When an interrupt occurs, the control unit 155 checks whether or not the input signal held in the signal receiving unit 156 is “up” (step S2107). ).
If it is “up”, “1” is subtracted from the value of the variable Cur-Pos (step S2108). If it is not “up”, it is checked whether it is “down” (step S2109).
[0103]
If it is “down”, “1” is added to the value of the variable Cur-Pos (step S2110). If it is not “down”, it is further checked whether it is “confirmed” (step S2111).
If “determined”, each value in the order of cursor number → cursor display position (X, Y) of cursor figure correspondence table → identification number of linked file in hot spot information according to the value of variable Cur-Pos at that time And the obtained identification number is set to the value of the variable P-Index. Thereafter, the process returns to step S2102.
[0104]
If it is not “determined”, the process returns to step S2106.
As described above, according to the present embodiment, display image information to be generated while interpreting control information is originally generated on the data transmission device 110 side on the data reception device 150 side. Since it transmits, the load of the data receiver 150 can be reduced. Compared to the number of types of display control processing for display character strings described in the control information and the number of processing, the control processing based on link information is limited in the types of processing. The number of processing is also small. Therefore, the data reception device 150 can easily perform pseudo two-way communication with the data transmission device 110 using such link information.
[0105]
In addition, according to the present embodiment, when displaying the WWW home page on the Internet, the data communication system 100 performs pseudo two-way communication using one-to-many TV broadcasting, so that it is displayed using a browser on a personal computer. Compared to the case, the desired page can be promptly displayed on the display unit 154 without being affected by the state of the transmission path. In addition, since display image information expressed in advance in the TV format is used, a display image of full color and high resolution can be easily displayed on the display unit 154. Further, in the case of displaying a display image generated by the browser on the TV, the configuration originally provided in the TV, such as a display image reproduction process, has not been sufficiently utilized. The pseudo two-way communication can be performed by effectively using a memory or a decoder.
[0106]
In the present embodiment, as an example of information to be acquired, an HTML document used in the WWW and compressed image information in GIF format and audio information in AU format associated therewith are shown. Information described in a format or language may be used. In this case, the processing relating to the <A> tag may be changed by a method corresponding to the format and the language. Further, in the present embodiment, an example of conversion of an HTML document including only a limited tag is shown, but other tags may be included.
[0107]
In the present embodiment, as an example of control of pseudo two-way communication by link information, a process of displaying another screen has been described. However, in addition to the pseudo two-way communication, the screen blinks, Processing for scrolling the screen, processing for starting and operating a device such as a FAX, a telephone, or a video connected to the data receiving device may be described.
[0108]
In the data communication system 100, the transmission data generation unit 112 describes the file in the link information with the identification number, but it does not necessarily have to be described with the identification number. For example, the identification number of the file in the link information may be described with the original file name. In this case, at the time of transmission, the display image information (including audio information) and link information of each transmission data is transmitted with an identification number, and the data receiving device 150 that receives the information transmits a round of links in advance at the time of activation. Information may be taken in sequentially to check the correspondence between the file name and the identification number.
[0109]
In addition, the data reception device 150 may store all the display image information and link information in one round transmitted repeatedly from the data transmission device 110 in the reception data holding unit 152.
(Second Embodiment)
In the first embodiment, the transmission data held in the transmission data holding unit 113 is read by the transmission data reading unit 114 in the order of identification number from the first identification number, and the one with the last identification number is read. Then, it returns to the first identification number, and so on, in order of the identification numbers, and is read out. The read transmission data is transmitted from the transmission unit 116 via the multiplexing unit 115. That is, transmission data of any identification number is transmitted in the same cycle. Therefore, in the data reception device, the average waiting time until the data is displayed on the display unit after the transmission data is selected by the remote controller is the same for any transmission data.
[0110]
By the way, each transmission data is not necessarily selected at the same frequency, and there is a difference in the selection frequency depending on its popularity.
Therefore, the second embodiment is devised so as to shorten the average waiting time of data that is expected to have a high selection frequency.
FIG. 22 is a block diagram illustrating a configuration of a data communication system according to the second embodiment. This data communication system further includes a selection frequency storage unit 2211 and a transmission order determination unit 2212 in addition to the configuration of the data communication system of the first embodiment, and instead of the transmission data reading unit 114, transmission data The reading unit 2214 is included. Since other configurations are basically the same as those of the first embodiment, the same reference numerals as those of the first embodiment are given, and the description thereof is omitted.
[0111]
From this embodiment onward, one set of display image information (including audio information) and link information with the same identification number and link information is defined as one page of transmission data. The same number as the identification number is used. In this embodiment, for the sake of simplicity, it is assumed that the transmission data holding unit 113 stores transmission data for three pages identified by page numbers 1 to 3.
[0112]
The selection frequency storage unit 2211 stores a selection frequency S for each page of transmission data held in the transmission data holding unit 113. The selection frequency is an expected value of the frequency with which the page is selected in the data reception device for all transmission data held in the transmission data holding unit 113. The selection frequency is set in advance.
FIG. 23 shows an example of the storage state of the selection frequency storage unit 2211. As shown in this figure, the selection frequency of the page with page number 1 is 30%, the selection frequency of the page with page number 2 is 20%, and the selection frequency of the page with page number 3 is 50%. The total selection frequency is 100%.
[0113]
The transmission order determination unit 2212 refers to the selection frequency storage unit 2211 and determines the transmission order of each page so that the transmission interval is shortened as the selection frequency is higher. First, the transmission order determination unit 2212 obtains the number N of times the transmission data reading unit 2214 reads transmission data from the transmission data holding unit 113 during one cycle (hereinafter referred to as “transmission data reading cycle N”) (first). In one embodiment, N = n (the identification number at the end). Assuming that the number of times transmission data is read during one round is A, the number Gx of pages with page number X whose selection frequency is Sx% is read during one round is calculated by the formula Gx = (Sx / 100) × A. However, at this time, the minimum value of A in which Gx of all pages is an integer is obtained, and this is set to N. In this embodiment, G1 = (30/100) * A = (3/10) * A, G2 = (20/100) * A = (1/5) * A, G3 = (50/100) * A = (1/2) × A, and 10 is obtained as the minimum A in which all of G1, G2, and G3 are integers.
[0114]
When the transmission data read cycle N is determined, the transmission order determination unit 2212 generates a transmission order management table 2400 for holding the transmission order of each page of transmission data as shown in FIG. The transmission order management table 2400 is a table having a variable length in the column direction, and the number of columns for storing page numbers is determined according to the transmission data read cycle N. In this example, there are 10 columns.
[0115]
When the transmission order determination unit 2212 generates the transmission order management table 2400, the transmission order management table 2400 assigns the page number of each page of transmission data to the transmission order management table 2400.
First, the transmission order determination unit 2212 refers to the selection frequency storage unit 2211 and sets the interval M (X) (hereinafter referred to as M (X) to be read from the transmission data holding unit 113 to the page number X for all pages. The “ideal read cycle” of the page is calculated to the first decimal place based on the calculation formula M (X) = 100 / Sx [= N / (N × (Sx / 100))]. For example, in this example, M (1) = 100/30 = 3.3, M (2) = 100/20 = 5, and M (3) = 100/50 = 2.
[0116]
Next, the transmission order determining unit 2212 assigns the page numbers to the transmission order management table based on the ideal read cycle in order from the page with the smallest value in the determined M (X). First, the first page number of the page to be allocated is assigned to the storage location of the smallest column number among the empty columns in the transmission order management table 2400. Thereafter, a value obtained by sequentially multiplying the column number of the storage location assigned first by an integer multiple of the ideal read cycle and rounding off the first decimal place of the value (hereinafter this value is referred to as “assignment candidate column number”) The page number is stored in the storage location corresponding to (). When the value obtained by adding the value obtained by multiplying the ideal read cycle by an integer to the column number of the storage location allocated first exceeds the maximum value of the column number, the allocation of the page number of the page ends. When another page number is already stored in the storage location corresponding to the allocation candidate column number, the subsequent columns are sequentially examined, and the page number is stored in the first empty column found. At this time, if there is no empty column up to the last column, the same operation is performed after returning to the first column.
[0117]
In this example, first, page number 3 having the smallest ideal read cycle is assigned to the transmission order management table. 1 is assigned to the storage location of the smallest column number among the empty columns in the transmission order management table 2400, and then page number 3 is assigned at intervals of two. The allocation result is shown in FIG.
Next, page number 1 is assigned. First, since the storage location of column number 2 is empty, 1 is stored here. Next, the ideal read cycle 3.3 is added to the first stored column number 2 and the first decimal place is rounded off to obtain the allocation candidate column number 5. However, as shown in FIG. 24B, since the page number 3 has already been assigned to the storage location of the column number 5, the page number 1 is assigned to the column number 6 which is the first empty column after the column number 5. Is assigned. Subsequently, the value 2 times the ideal read cycle 3.3 is added to the column number 2 stored first, and the first decimal place is rounded off to obtain the allocation candidate column number 9. Also in this case, page number 3 is already assigned to the storage location of column number 9, so page number 1 is assigned to column number 10 which is the first empty column after column number 5. When the value obtained by multiplying the ideal read cycle 3.3 by 3 is added to the column number 2 stored first, the value becomes 11.9, which exceeds the maximum column number of 10, and the allocation of the page number 1 ends. The allocation result is shown in FIG.
[0118]
Next, page number 2 is assigned. First, since the storage location of column number 4 is empty, 2 is stored here. Next, the ideal read cycle 5 is added to the column number 4 stored first, and the first decimal place is rounded off to obtain the allocation candidate column number 9. However, as shown in FIG. 24C, page number 3 is assigned to the storage location of column number 9, so page number 2 is assigned to column number 8 which is the first empty column after column number 9. Assign. Then, when the value obtained by doubling the ideal read cycle 5 is added to the column number 4 stored first, it becomes 14 and the maximum number of column numbers exceeds 10, so the allocation of page number 2 ends. The allocation result is shown in FIG.
[0119]
The transmission data reading unit 2214 refers to the transmission order management table 2400, reads page numbers in the order of column numbers (transmission order), and displays the display image information storage unit 123, the audio information storage unit 124, and the link information of the transmission data holding unit 113. Display image information, audio information, and link information are read from the storage area of the storage unit 125 having the same identification number as the read page number, and output to the multiplexing unit 115. When the transmission data processing for the last column number page is completed, the processing returns to the processing for the page with column number 1 and the above processing is repeated.
[0120]
The processing procedure of the data transmission apparatus having the above configuration will be described based on the flowcharts shown in FIGS.
FIG. 25 is a flowchart showing a schematic processing procedure of the entire data transmitting apparatus 110. The processing procedure of the data transmitting apparatus 110 according to the present embodiment is the same as the processing procedure of the first embodiment shown in FIG. 12, but instead of the transmission data reading step S1103, the transmission order determining step S2501, the transmission data reading Step S2502 is included. The other processing procedures are the same as the processing procedures in the first embodiment, and therefore the same step numbers as those in the first embodiment are given and description thereof is omitted.
[0121]
The transmission order determining unit 2212 refers to the selection frequency storage unit 2211 and determines the transmission order of the transmission data held in the transmission data holding unit 113 (step S2501).
The transmission data reading unit 2214 circulates and reads the transmission data held in the transmission data holding unit 113 in accordance with the transmission order determined by the transmission order determination unit 2212 (step S2502).
[0122]
Next, details of the procedure for determining the transmission order (step S2501) will be described based on the flowchart shown in FIG.
The transmission order determining unit 2212 refers to the selection frequency storage unit 2211 to obtain a transmission data read cycle N (step S2602), generates a transmission order management table including N columns (step S2604), and sets the ideal of each page. A reading cycle M (X) (X: page number) is calculated (step S2606).
[0123]
Subsequently, the transmission order determining unit 2212 assigns page numbers to the transmission order management table. First, the page number X having the smallest value of the obtained ideal read cycle M (X) is assigned ( In step S2610), the page number X is assigned to the storage location of the smallest column number p among the empty columns in the transmission order management table (step S2612).
[0124]
Next, the counter i is set to 1 (step S2614), P is calculated based on the calculation formula P = p + (M (X) × i), and the value of P is compared with the value of N. If the value exceeds the value N, the process returns to step S2608. If there is an unprocessed page, the page number X having the smallest value of the ideal read cycle M (X) among the unprocessed pages is assigned to the next allocation target. (Step S2610), and if there is no unprocessed page, the process ends. On the other hand, when the value of P is less than or equal to the value of N, the value of P is rounded to the allocation candidate column number P (step S2608), and when the column of column number P in the transmission order management table is empty, The page number X is assigned to the storage location of the column number P (step S2626), and if it is not an empty column, the next column number (P = P + 1) is assigned (step S2622). At this time, if the value of the next column number (P = P + 1) exceeds the last column number N of the transmission order management table (step S2622), the first column is assigned to (P = P + 1−N). (Step S2624).
[0125]
When the page number is assigned to one place in the transmission order management table (step S2626), the counter i is incremented by 1 (step S2628), and the process returns to step S2616.
Next, the details of the transmission data read processing procedure (step S2502) in FIG. 25 will be described based on the flowchart shown in FIG.
[0126]
The transmission data reading unit 2214 first sets the counter i to 1 (step S2720), and holds the transmission data of the page number (identification number) stored in the column of the column number i in the transmission order management table 2400. The data is read from the unit 113 and output to the multiplexing unit 115 (step S2724). Subsequently, the counter i is incremented by 1 (step S2726), and the transmission data of the page number (identification number) stored in the column of the next column number is set as a reading target. During this time, when the value of the counter i exceeds the value N of the last column number of the transmission order management table 2400 (step S2722), the value of i is reset to 1. Through the above processing, the transmission data of the page numbers assigned to the transmission order management table 2400 are read cyclically in the order of the column numbers and output to the multiplexing unit.
[0127]
As described above, according to the present embodiment, the transmission order determining unit 2212 transmits the transmission order so that the transmission interval of the page number set with a higher selection frequency in the selection frequency storage unit 2211 is shorter. The transmission data reading unit 2214 cyclically reads transmission data from the transmission data holding unit 113 in accordance with the determined transmission order. The read transmission data is transmitted from the transmission unit 116 via the multiplexing unit 115. Therefore, in the receiving device, since the transmission data of a page set with a high selection frequency, that is, a page that is likely to be seen frequently is received more frequently, an average of pages that are likely to be seen frequently is obtained. The waiting time is shortened.
[0128]
(Third embodiment)
In the second embodiment, the selection frequency of each page of transmission data is determined and set by the subjectivity of the setter.
In contrast, the third embodiment is devised so that the selection frequency is set objectively. In this embodiment, the more links the page has to other pages (the more the other pages that are referenced), the more links the page has from other pages. The selection frequency is determined based on the idea that the selection frequency will increase as the number increases (the number of other pages referenced increases).
[0129]
FIG. 28 is a block diagram showing a data communication system configuration according to the third embodiment. This data communication system includes a selection frequency determination unit 2811 in addition to the configuration of the data communication system according to the second embodiment. Since other configurations are basically the same as those of the second embodiment, the same reference numerals as those of the second embodiment are given, and the description thereof is omitted.
[0130]
In the present embodiment, it is assumed that transmission data for five pages shown in FIGS. 29 to 31 has already been generated and stored in transmission data holding section 113.
The selection frequency determining unit 2811 refers to the link information storage unit 125 of the transmission data holding unit 113, obtains the reference number for each page, and totals the obtained reference numbers. Then, for each page, the percentage of the reference number of the page with respect to the total reference number is stored as the selection frequency in the corresponding page number storage location of the selection frequency storage unit. Here, the number of references is the total of the number of links that the page extends to other pages and the number of links that extend from other pages. For the processing described above, the selection frequency determination unit 2811 has a reference number storage table 3200 for temporarily storing the number of references obtained for each page and the total as shown in FIG. 32 and a link number counter (not shown). doing.
[0131]
For example, a case where the reference number of the page with page number 1 is obtained will be described. First, the selection frequency determination unit 2811 searches the data in the storage area of the identification number 1 in the link information storage unit 125, and counts up the link number counter each time the character string “GO_TO_PAGE” is detected. When the search of the storage area of the identification number 1 is completed, the storage areas of other identification numbers are sequentially searched, and each time the character string “GO_TO_PAGE (0001)” is detected, the link number counter is incremented. Then, the count value of the link number counter when the above process is completed is stored in a location corresponding to page number 1 in the reference number storage table 3200. In the case of the page of page number 1, there are four character strings “GO_TO_PAGE” in the link information storage unit 125 itself, that is, the storage area of identification number 1, as shown in FIG. As shown in FIGS. 30 to 31, there are four character strings “GO_TO_PAGE (0001)” in the storage area of the page, that is, the other identification numbers. Finally, the count value of the link number counter is 8 It becomes.
[0132]
If the number of references to the page with the page number 2 is to be obtained, first, the data in the storage area of the identification number 2 in the link information storage unit 125 is searched, and each time the character string “GO_TO_PAGE” is detected, the number of links When the counter is incremented and the search of the storage area of the identification number 2 is completed, the storage areas of other identification numbers are sequentially searched, and each time the character string “GO_TO_PAGE (0002)” is detected, the number of links The counter is counted up, and the final count value is stored in a location corresponding to page number 2 in the reference number storage table 3200.
[0133]
The above processing is performed for all the transmission data stored in the transmission data holding unit 113, and the reference number of each page is obtained.
When the reference number of each page is obtained, the total of them is calculated and stored in the reference number storage unit 3200. The storage result in this example is shown in FIG.
When the creation of the reference number storage table 3200 is completed, the selection frequency determination unit 2811 refers to the table, and for each page, the calculation formula Sx = Rx / Rs (Rx: reference number of pages of page number X, Rs: The selection frequency is calculated based on the total number of references) and stored in the storage location of the corresponding page number in the selection frequency storage unit 2211. The storage result is shown in FIG.
[0134]
The processing procedure of the data transmission apparatus having the above configuration will be described based on the flowcharts shown in FIGS.
FIG. 34 is a flowchart showing a schematic processing procedure of the entire data transmitting apparatus 110. The processing procedure of the data transmitting apparatus 110 according to the present embodiment is the same as that of the second embodiment shown in FIG. 25, in which the selection frequency is determined between the transmission data generation step S1102 and the transmission order determination step S2501. Step S3401 is inserted. The other processing procedures are the same as the processing procedures in the second embodiment, so the same step numbers as those in the second embodiment are given and description thereof is omitted.
[0135]
Next, details of the selection frequency determination procedure (step S3401) will be described based on the flowchart shown in FIG.
The selection frequency determination unit 2811 refers to the link information storage unit 125 of the transmission data holding unit 113 and obtains the reference number Rx of all pages (steps S3502 and S3504). When the reference numbers of all pages are obtained, the total reference number Rs is calculated by adding the obtained reference numbers (step S3506), and the selection frequency Sx of each page based on the calculation formula Sx = (Rx / Rs) × 100. Is calculated and stored in the selection frequency storage unit 2211 (steps S3508 and S3510).
[0136]
As described above, according to the present embodiment, the selection frequency determination unit 2811 refers to the link information storage unit 125, extends more links, and the pages with more links, that is, The selection frequency is set to be higher for pages that are more likely to be seen, and the transmission order determination unit 2212 determines the transmission order so that the transmission interval of the transmission data of the pages set with higher selection frequency is shorter, Transmission data reading unit 2214 cyclically reads transmission data from transmission data holding unit 113 in accordance with the determined transmission order. The read transmission data is transmitted from the transmission unit 116 via the multiplexing unit 115. Therefore, in the receiving device, since the transmission data of a page set with a high selection frequency, that is, a page that is likely to be seen frequently is received more frequently, an average of pages that are likely to be seen frequently is obtained. The waiting time is shortened.
[0137]
In the present embodiment, the number of references used to determine the selection frequency is the total of the number of links that the page has extended to other pages and the number of links that have been extended from other pages. The reference number is not limited to this, and only the number of links that the page extends to other pages or only the number of links that the page extends from other pages may be used as the reference number.
[0138]
(Fourth embodiment)
In the fourth embodiment, the selection frequency is devised so as to be determined from a different point of view from the third embodiment.
In other words, the fourth embodiment is based on the idea that the frequency of selection will be higher for pages closer to a certain page. Here, the distance about a page means the minimum number of links that must be followed from the starting page to the target page. Further, a link with a link name (Q → R) is specified for a link that starts from the page with the page number Q and starts with the page with the page number R. In the present embodiment, a specific page refers to a page that can reach all other pages starting from that page, that is, transmission data held in the transmission data holding unit 113. Of these, the page located at the top in terms of the link is referred to, and this page is stored in the storage location of the identification number 1 of the transmission data holding unit 113 (that is, the page number is 1). The distance of the page number 1 itself is 0. For example, it is assumed that the transmission data holding unit 113 holds transmission data having a relationship as shown in FIG. In this figure, squares 3611 to 3619 represent pages, and arrows 3651 to 663 represent links provided between pages. In this case, since the second page 3612 is reached by following the link (1 → 2) 2651 once from the first page, the distance is 1. Further, since the fifth page follows two links of link (1 → 2) 2651 and link (2 → 5), the distance is 2. The 7th page can be reached by following the link (1 → 4) and the link (4 → 7) via the 4th page or by directly following the link (1 → 7) from the first page. In this case, the distance is 1 taking the smaller (minimum) number of links.
[0139]
The configuration of the fourth embodiment is the same as the configuration of the third embodiment except that the processing content of the selection frequency determination unit 2811 is different from the configuration of the third embodiment shown in FIG. The configuration diagram is omitted.
In the fourth embodiment, the selection frequency determination unit 2811 has an extraction link storage table 3700 and a page distance storage table 3750 as shown in FIG.
[0140]
The extracted link storage table 3700 stores the link names of links extracted by referring to the link information storage unit 125 of the transmission data holding unit 113, as shown in FIG. Each link name is set with a processed flag. Note that the meaning of the case where the link has been processed will be described later.
The page distance storage table 3750 stores the page number and the distance from the first page of the page with the page number in association with each other. A processed flag is set for each page number. The meaning of the case where the page has been processed will be described later.
[0141]
The selection frequency determination unit 2811 extracts all the links between pages of transmission data held in the transmission data holding unit 113 and stores the link names in the extracted link storage table 3700. Link extraction is performed by referring to the link information of all pages stored in the link information storage unit 125 of the transmission data holding unit 113. That is, the identification information (page number) of the index information is extracted from the link information of the page to be extracted as the starting point, and the identification number (page number) following GO_TO_PAGE is extracted as the ending point. For example, when links are extracted using the first page 3611 shown in FIG. 36 as an extraction target, four links (1 → 2), (1 → 3), (1 → 4), and (1 → 7) are extracted. . When multiple links are made from one page to another page (ie, the link names of the multiple links are all the same), only one of them is extracted. Are stored in the extracted link storage table 3700, and others are ignored.
[0142]
When the link extraction is completed, the selection frequency determination unit 2811 refers to the link information storage unit 125 and determines the distance of each page from the first page. First, the first page is set as a processing target, the link information of the first page of the link information storage unit 125 is referred to, the link stretched from the first page is extracted, and the distance 1 is set to the link destination page of the extracted link. Set. In the example shown in FIG. 36, a link (1 → 2) 3651, a link (1 → 3) 3652, a link (1 → 4) 3653, and a link (1 → 7) 3662 are taken out and specified by these links. The distance 1 is set for the second page, the third page, the fourth page, and the seventh page. The setting result is shown in FIG. Each time a link is extracted, a processed flag corresponding to the extracted link in the extracted link storage table 3700 is set to indicate that the flagged link has been processed. That is, processing for a link means that the link has been taken out from the link information storage unit 125, that is, the link has been followed. When the above processing is completed, a processed flag of page number 1 in the page distance storage table 3750 is set to indicate that the first page has been processed. In other words, the processed page means that the distance of the page is set (mostly, the distance of the first page is given 0 as a specified value), and all the links extending from the page are processed The state that became.
[0143]
Next, the selection frequency determination unit 2811 refers to the page distance storage table 3750, sequentially sets pages for which distance 1 is set, and performs the same processing as that performed for the first page. At this time, the distance of the link destination page of the page to be processed is a value obtained by adding 1 to the distance set in itself, that is, 2. If the distance is already set on the linked page, it is not reset and is left as it is. Thereafter, pages with distances of 2, 3,... Are sequentially processed, and the same processing is performed for all pages of transmission data held in the transmission data holding unit.
[0144]
When the selection frequency determination unit 2811 finishes setting the distance for all pages, the selection frequency determination unit 2811 obtains the weight Ex for each page based on the calculation formula Ex = 1 / (Dx + 1) (Dx: distance of the Xth page). That is, the page weight E increases as the distance from the first page decreases, and decreases as the distance increases. When the weight E of each page is obtained, the selection frequency determining unit 2811 obtains the sum F thereof.
[0145]
When the weight E of each page and the sum F thereof are obtained, the selection frequency determination unit 2811 calculates the selection frequency Sx of each page based on the calculation formula Sx = (Ex / F) × 100, and the selection frequency storage unit Store in the storage location of the corresponding page number.
The processing procedure of the data transmission apparatus having the above-described configuration is the third embodiment except that the processing procedure of the selection frequency determination step S3401 in the processing procedure of the third embodiment shown in FIG. 34 is different. It is the same. Therefore, the procedure for determining the different selection frequencies will be described, and the others will be omitted.
[0146]
FIG. 38 is a flowchart showing an outline of the procedure for determining the selection frequency.
The selection frequency determination unit 2811 refers to the link information storage unit 125 of the transmission data holding unit 113, extracts all the links stretched between the pages, and stores the link names in the extracted link storage table 3700 ( Step S3804).
Subsequently, the selection frequency determination unit 2811 determines the distance Dx of each page (step S3806), calculates the page weight Ex based on the calculation formula Ex = 1 / (1 + Dx) (step S3808), and calculates the calculated page. The total sum F of the weights Ex is obtained (step S3810). When the sum F is obtained, the selection frequency Sx of each page is determined based on the calculation formula Sx = Ex / F (step S3812).
[0147]
Next, details of the procedure for determining the page distance Dx (step S3806) will be described according to the flowchart shown in FIG. 39 and using the example of FIG.
First, the selection frequency determination unit 2811 sets the distance of the first page 3611 having the page number 1 to 0 (step S3082), and sets the variable d to 0 (step S3904).
[0148]
Subsequently, it is determined whether or not there is an unprocessed page in the page of distance d (= 0). In this case, since the first page exists (distance is set to 0 for the first page). Since the link is not processed, the page is not processed), and the first page is set as the processing target (step S3912).
It is determined whether or not there is an unprocessed link on the first page to be processed (step S3914). In this case, there are four links (3651, 3652, 3653, and 3662). The link (1 → 2) 3651 is taken out (step S3918). It is determined whether or not the distance has already been set for the second page 3612 that is the link destination page that has been taken out (step S3920). Since no setting has been made in this case, the distance of the second page is set to 2 (= d + 1). ). If it is determined that the setting has already been made, the resetting is not performed and it is left as it is (step S3920). Subsequently, the extracted link (1 → 2) 3651 is set to be processed (step S3924), and the process returns to step S3914.
[0149]
Thereafter, steps S3914 to S3924 are repeated, and the same processing is performed for the remaining three links. With the above processing, the distance between the second page, the third page, the fourth page, and the seventh page is set to 1, and the links (1 → 2), (1 → 3), (1 → 4), (1 → 7) is set to processed.
When the processing of all the links on the first page that is the processing target is completed (step S3914), the first page that is the processing target is set to be processed (step S3916), and the process returns to step S3906.
[0150]
Since there is no other page with distance 0, after step S3908, 1 is added to variable d in step S3910, and then the page with distance 1 is set as the processing target.
Thereafter, the processing of steps S3906 to S3924 is repeated until all pages have been processed (step S3908).
As described above, according to the present embodiment, the selection frequency determining unit 2811 refers to the link information storage unit 125, and the shorter the page from the first page, that is, the more likely to be seen. The selection frequency is set high, and the transmission order determination unit 2212 determines the transmission order so that the transmission interval of the transmission data of the page set with a high selection frequency is shorter, and the transmission data reading unit 2214 is determined. The transmission data is cyclically read from the transmission data holding unit 113 in accordance with the transmission order. The read transmission data is transmitted from the transmission unit 116 via the multiplexing unit 115. Therefore, in the receiving device, since the transmission data of a page set with a high selection frequency, that is, a page that is likely to be seen frequently is received more frequently, an average of pages that are likely to be seen frequently is obtained. The waiting time is shortened.
[0151]
In this embodiment, the weight of the page whose distance is D is calculated by the calculation formula “1 / (1 + D)”, but the calculation formula is not limited to this. In short, any calculation formula that calculates the weight according to the distance may be used.
In the third and fourth embodiments, the selection frequency is determined by paying attention to the nature of the transmission data in the transmission data holding unit. That is, in the third embodiment, the selection frequency is determined by focusing on the number of references, and in the fourth embodiment, focusing on the distance from a specific page, the present invention is not limited to this method. For example, the following may be used.
(1) Focusing on the number of characters described in each page, the selection frequency may be set to be higher for pages with a larger number of characters. For this purpose, a character number detection unit for detecting the number of characters per page and a detected character number storage unit for storing the detected number of characters for each page are selected from the ratio of the number of characters on each page to the total number of characters on all pages. Determine the frequency.
(2) Focusing on the last update date of the page data, the newer page with the latest update date may be set to have a higher selection frequency. Refer to the point storage unit and the point storage unit that store past dates and points in association so that the closer to the current date, the higher the points, and the point corresponding to the last update date of the target page A point detection unit for detection and a detection point storage unit for storing the detected points for each page are provided, and the selection frequency is determined from the ratio of the number of points of each page to the total number of points of all pages.
[0152]
In short, the selection frequency may be determined based on the nature of the transmission data.
[0153]
【The invention's effect】
  As described above, the data transmission apparatus according to the present invention is a transmission data composed of a plurality of pages, and the reference relationship between the pages is one-to-one or one-to-many and associated in one direction or both directions. A data transmission device in a television broadcasting system that transmits transmission data that is cyclically transmitted and receives a selected page from transmission data received by the reception device and displays the selected page on the reception device, and holds the transmission data A selection frequency storage unit that stores an expected selection frequency for each page of transmission data held in the transmission data holding unit;A selection frequency rewriting unit that determines an expected selection frequency for each page of transmission data held in the transmission data holding unit based on the number of links based on the reference relationship, and stores the selection frequency in the selection frequency storage unit; ,Each page is referred to the selection frequency storage means so that the transmission interval of the page related to the transmission data and the data positioned at the top in the reference relation in one cycle in the data transmission cycle is shortened. Transmission order determining means for determining the transmission order of the transmission data, and data sending means for cyclically transmitting the transmission data held in the transmission data holding means in accordance with the transmission order determined by the transmission order determining means It is said. by this,The reference relationship between each page determines the expected selection frequency,Since the transmission data of the data holding means is transmitted according to the transmission order determined so that the transmission interval is shortened as the expected frequency of selection is high, the page having a high selection frequency in the receiving device, that is, When the page related to the data positioned at the top in the reference relationship is selected, an average waiting time until the selected page is displayed is shortened.
[0155]
  The selection frequency rewriting meansIs a selection frequency determination meansThe number of references that is the sum of the number of other pages referred to by the page and the number of other pages referenced by the selection frequency determination page is detected from the transmission data. High decisionI am going to do that. by this,In the receiving device, a page with a high selection frequency, i.e.,Related to the data at the top in the reference relationshipWhen a page is selected, the average waiting time until the selected page is displayed is shortened.
[0156]
  Further, the selection frequency rewriting means determines a higher selection frequency for a page having a smaller number of times of following the reference relationship before reaching the selection frequency determination target page from a predetermined page. When a set page, that is, a page related to data positioned at the top in the reference relationship is selected, an average waiting time until the selected page is displayed is shortened.
  In addition, transmission data that consists of a plurality of pages and has a reference relationship in which one page is one-to-one or one-to-many and is associated in one direction or both directions is cyclically transmitted, and a receiving apparatus A data transmission method for a data transmission apparatus in a television broadcasting system for capturing a selected page from transmission data received in step (b) and displaying the selected page on a reception apparatus, the transmission data holding step for holding transmission data, and the transmission data holding A selection frequency storing step for storing an expected selection frequency for each page of transmission data held in the step, and a reference relationship for each page of transmission data held in the transmission data holding step A selection frequency rewriting step of determining an expected selection frequency based on the number of links and storing in the selection frequency storage step; Each page with reference to the selection frequency storage step so that the transmission interval of the page related to the transmission data and the data located at the top in the reference relationship in one cycle in the data transmission cycle is shortened. A transmission order determination step for determining the transmission order of the transmission data, and a data transmission step for cyclically transmitting the transmission data held in the transmission data holding step according to the transmission order determined by the transmission order determination step. Yes. By such a method, the expected selection frequency is determined by the reference relationship between the pages, and the data holding means is determined in accordance with the transmission order determined so that the transmission interval is shortened as the predicted frequency of the selection is higher. Therefore, when a page having a high selection frequency, that is, a page related to data positioned at the top in the reference relationship is selected in the receiving apparatus, the selected page is displayed. The average waiting time until is shortened.
[Brief description of the drawings]
FIG. 1 is a block diagram showing a configuration of a data communication system 100 according to a first embodiment of the present invention.
FIG. 2 is an explanatory diagram showing an example of an acquisition list 200 stored in the acquisition list storage unit 121. FIG.
FIG. 3 shows an HTML document 301 “Report.1” that describes an example of the first page of the WWW homepage. It is explanatory drawing which shows html.
FIG. 4 shows image information 401 “Weather.1” which is an example of an image displayed on the first page of the WWW homepage. It is explanatory drawing which shows gif.
FIG. 5 shows an HTML document 501 “Tokyo. 501” that describes an example of the second page of the WWW homepage. It is explanatory drawing which shows html.
FIG. 6 shows an HTML document 601 “Osaka. It is explanatory drawing which shows html.
7 is an explanatory diagram showing an example of a link information table 700 stored in a data conversion table storage unit 122. FIG.
FIG. 8 shows an HTML document 301 and audio information “Weather. It is explanatory drawing which shows the transmission data 800 of the 1st page of the WWW homepage produced | generated from "au" and the image information 401. FIG.
FIG. 9 is an explanatory diagram showing transmission data 900 of the second page of the WWW home page generated from the HTML document 501.
FIG. 10 is an explanatory diagram showing transmission data 1000 of the third page of a WWW home page generated from an HTML document 601.
FIG. 11 is an explanatory diagram illustrating a transmission method of transmission data by a transmission unit.
12 is a flowchart showing a schematic processing procedure of the entire data transmission apparatus 110. FIG.
13 is a flowchart illustrating an example of a procedure of information acquisition processing by the information acquisition unit 111. FIG.
FIG. 14 is a flowchart illustrating an example of a procedure of transmission data generation processing by the transmission data generation unit 112;
15 is a flowchart showing a specific example of part of the processing procedure in step S1312 of FIG.
FIG. 16 is an explanatory diagram showing an example of a cursor graphic correspondence table created by the control unit 155 to control the display position of the cursor graphic.
FIG. 17 is an explanatory diagram showing an example of graphic information held by the control unit 155;
18 is an explanatory diagram showing a display image 1800 of an initial screen displayed on the display unit 154 based on the transmission data 800 of FIG.
19 is an explanatory diagram showing a display image 1900 of the initial screen displayed on the display unit 154 based on the transmission data 900 of FIG.
20 is an explanatory view showing a display image 2000 of an initial screen displayed on the display unit 154 based on the transmission data 1000 of FIG.
FIG. 21 is a flowchart illustrating an exemplary procedure of display control processing by the control unit 155;
FIG. 22 is a block diagram showing a configuration of a data communication system 100 according to the second embodiment of the present invention.
FIG. 23 is an explanatory diagram showing an example of a selection frequency stored in a selection frequency storage unit 2211.
FIG. 24 is an explanatory diagram showing an example of a transmission order management table.
25 is a flowchart showing a schematic processing procedure of the entire data transmitting apparatus 110. FIG.
FIG. 26 is a flowchart illustrating an example of a procedure of a transmission order determination process by a transmission order determination unit 2212.
27 is a flowchart showing an example of a procedure for reading transmission data by a transmission data reading unit 2214. FIG.
FIG. 28 is a block diagram showing a configuration of a data communication system 100 according to a third embodiment of the present invention.
FIG. 29 is an explanatory diagram illustrating an example of one page of transmission data held in the transmission data holding unit 113;
30 is an explanatory diagram showing an example of transmission data held in a transmission data holding unit 113. FIG.
31 is an explanatory diagram showing an example of transmission data held in a transmission data holding unit 113. FIG.
32 is an explanatory diagram showing an example of a reference number storage unit 3200. FIG.
33 is an explanatory diagram showing an example of a selection frequency stored in a selection frequency storage unit 2211. FIG.
34 is a flowchart showing a schematic processing procedure of the entire data transmission apparatus 110. FIG.
FIG. 35 is a flowchart illustrating an example of a procedure of selection frequency determination processing by a selection frequency determination unit 2811.
FIG. 36 is an explanatory diagram illustrating an example of a reference relationship of transmission data held in the transmission data holding unit in the third embodiment.
FIG. 37A is an explanatory diagram showing an example of the storage result of the extraction link storage table 3700. FIG.
FIG. 20B is an explanatory diagram illustrating an example of a storage result of the page distance storage table 3750.
FIG. 38 is a flowchart illustrating an example of a procedure of selection frequency determination processing by a selection frequency determination unit 2811.
FIG. 39 is a flowchart illustrating an example of a procedure for determining the page distance D by the selection frequency determination unit 2811;
[Explanation of symbols]
100 Data communication system
110 Data transmission device
111 Information acquisition unit
112 Transmission data generator
113 Transmission data holding unit
114 Transmission data reading unit
115 Multiplexer
116 Transmitter
121 Acquisition list storage
122 Data conversion table storage unit
123 Display image information storage unit
124 Voice information storage unit
125 Link information storage unit
150 Data receiver
151 Reception separation unit
152 Received data holding unit
153 Playback unit
154 Display
155 Control unit
156 Signal receiver
157 Audio output unit
700 Link information table
701 Index information
702 Hot spot information
2211 Selection frequency storage
2212 Transmission order determination unit
2214 Transmission data reading unit
2811 Selection frequency determination unit

Claims (4)

Transmission data consisting of a plurality of pages, and transmission data having a reference relationship in which one page is one-to-one or one-to-many and associated in one direction or two directions is cyclically transmitted and received by a receiving device A data transmission device in a television broadcasting system that captures a selected page of the transmitted data and displays the selected page on the reception device,
Transmission data holding means for holding transmission data;
Selection frequency storage means for storing an expected selection frequency for each page of transmission data held in the transmission data holding means;
A selection frequency rewriting unit that determines an expected selection frequency for each page of transmission data held in the transmission data holding unit based on the number of links based on the reference relationship, and stores the selection frequency in the selection frequency storage unit; ,
Each page is referred to the selection frequency storage means so that the transmission interval of the page related to the transmission data and the data positioned at the top in the reference relationship in one cycle in the data transmission cycle is shortened. Transmission order determining means for determining the transmission order of
A data transmission apparatus comprising: data transmission means for cyclically transmitting the transmission data held in the transmission data holding means according to the transmission order determined by the transmission order determination means. The selection frequency rewriting means detects from the transmission data a reference number that is the sum of the number of other pages referred to by the page of the selection frequency determination means and the number of other pages referred to by the selection frequency determination target page. the data transmission apparatus according to claim 1, wherein the high determine selection frequency larger page of the reference number. 2. The data transmission according to claim 1, wherein the selection frequency rewriting unit determines a higher selection frequency for a page having a smaller number of times of following a reference relationship before reaching a selection frequency determination target page from a predetermined page. apparatus. Transmission data consisting of a plurality of pages, and transmission data having a reference relationship in which one page is one-to-one or one-to-many and associated in one direction or two directions is cyclically transmitted and received by a receiving device A data transmission method for a data transmission device in a television broadcasting system that captures a selected page from the transmitted data and displays the selected page on the reception device,
  A transmission data holding step for holding transmission data;
  A selection frequency storage step for storing an expected selection frequency for each page of transmission data held in the transmission data holding step;
A selection frequency rewriting step for determining an expected selection frequency for each page of transmission data held in the transmission data holding step, based on the number of links based on the reference relationship, and storing in the selection frequency storage step; ,
  Each page is referred to the selection frequency storage step so that the transmission interval of the page related to the transmission data and the data positioned at the top in the reference relationship in one cycle in the transmission cycle of the data is shortened. A transmission order determination step for determining the transmission order of
  A data transmission method for a data transmission apparatus, comprising: a data transmission step for cyclically transmitting the transmission data held in the transmission data holding step according to the transmission order determined in the transmission order determination step.

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