JP3911198B2 - Display device for digital broadcasting - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a display device for digital broadcast that is preferably used when receiving a digital broadcast, for example, and displaying a still image in the received digital broadcast on a display mounted on a vehicle. In the present invention, the data broadcast program includes a program represented by a still image, text, an electronic program guide (abbreviated as EPG), or the like.
[0002]
[Prior art]
Compared with analog broadcasting that broadcasts video information and audio information using analog signals, digital broadcasting capable of broadcasting high-quality video and audio and capable of multi-functional broadcasting is becoming widespread. In digital broadcasting, terrestrial digital broadcasting using a terrestrial antenna is scheduled to start in 2003 following BS digital broadcasting using a broadcasting satellite started in 2000.
[0003]
FIG. 12 is a diagram showing program signals included in a broadcast wave 70 that is digitally broadcast. The broadcast wave 70 that is digitally broadcast includes a plurality of program signals representing broadcast programs, and is multiplexed and broadcast. For example, a single broadcast wave 70 includes a plurality of program signals such as a radio program signal 73 for transmitting audio and a data broadcast program signal 72 representing a data broadcast program, in addition to a plurality of television program signals 71 for transmitting moving image video and audio. It is broadcast including. The data broadcast program signal 72 representing a data broadcast program includes, for example, a still image signal 74 representing a still image, and a character signal 75 representing a character made up of a font such as a character or a symbol. Broadcast in association.
[0004]
A display mounted on a vehicle for displaying a digitally broadcast program is configured to be smaller and lighter than a home-use display whose installation position is determined, and has a small displayable image area. In a small display mounted on a vehicle or the like, there is a problem that images and characters to be displayed are small, and it is difficult to recognize the contents of a program and visibility is lowered. Further, there is a problem that the visibility is further lowered due to the vibration of the display during traveling.
[0005]
[Problems to be solved by the invention]
In data broadcasting programs, the size of the image area of an image to be broadcast varies from program to program. For example, image signals representing image data having different numbers of pixels per screen, such as 420 × 240 dots, 960 × 540 dots, 1280 × 720 dots, 1920 × 1080 dots, are broadcast. For example, an image having a large image size is broadcast for the purpose of being displayed on a large display for home use.
[0006]
A digital broadcasting display device receives an image signal representing an image having a large image size to be displayed on a large display and may display the image signal on a small display such as a portable or vehicle-mounted display. For example, when an image broadcast with an image size of 960 × 540 dots is displayed on a display having a displayable pixel area of 420 × 240 dots, the image is converted into a reduced image reduced in the main scanning direction and the sub-scanning direction. To display. For example, the display device for digital broadcasting calculates an average value of color information such as brightness, hue, and saturation for adjacent pixels among a plurality of pixels constituting an image before reduction, and based on the average value To generate a reduced image.
[0007]
When a reduced image is displayed, the image is reduced based on the average value of the color information of the pixels constituting the image before reduction, so that the displayed image becomes unclear. In addition, since the image is reduced and displayed, symbols, figures, characters, and the like shown on the display are reduced. As described above, when the image size of a digitally broadcasted program is larger than the displayable area of the display, the displayed image becomes unclear and characters and the like become small, and the visibility of the displayed image is low. There is a problem of becoming.
[0008]
Conventionally, an apparatus for improving the visibility of a digital broadcast program has been disclosed. For example, in Japanese Patent Laid-Open No. 2001-24961, a digital broadcast program signal is received, electronic program guide information is displayed on a display, and a predetermined operator selected from each program indicated in the electronic program guide information. An apparatus for enlarging and displaying a portion is disclosed. This apparatus needs to display the entire still image as an initial image in order for the operator to select a predetermined portion of the still image. Since the entire still image is displayed in the initial image, each predetermined portion is displayed in a small size, which makes it difficult for the operator to visually recognize the predetermined portion to be enlarged.
[0009]
Japanese Patent Laid-Open No. 2001-295527 discloses a device having a scaling unit that receives a digitally broadcast program signal, extracts a part of the image size of a broadcast image, and enlarges and reduces the extracted part. It is disclosed. If the image size of the received program is larger than the display area that can be displayed on the display, this device displays the image in a reduced size. This results in a problem that the image becomes unclear and the characters are reduced and the visibility is reduced. is there. Further, since only a predetermined part is enlarged or reduced, it is not possible to select a place to be visually recognized and display it clearly.
[0010]
Japanese Patent Application Laid-Open No. 2001-16521 discloses an apparatus that receives a digital broadcast program signal and changes the size of characters based on the image size of an image to be displayed. Japanese Patent Laid-Open No. 11-261509 discloses an apparatus that receives a digitally broadcast program signal and displays an electronic program guide to which the content of the broadcast video program is added. Japanese Laid-Open Patent Publication No. 9-93548 discloses a character broadcasted in response to a broadcasted program on a non-picture part different from a part for receiving a digitally broadcasted program signal and displaying the broadcasted program. An apparatus for displaying an enlarged image is disclosed. Even with these devices, there is a problem that the visibility is low when the image size of the received program is large.
[0011]
Therefore, an object of the present invention is to provide a digital broadcast display device that improves the visibility of a displayed image even when the image display area of the display is smaller than the image size preset for a digital broadcast program. Is to provide.
[0012]
[Means for Solving the Problems]
  The present invention comprises a receiving means for receiving an image signal representing a broadcast image that is digitally broadcast,
  Storage means for storing the image signal received by the receiving means as broadcast image data;
  Display means for displaying an image;
  If the image area of the broadcast image exceeds the displayable area of the display means, the partial image data corresponding to the partial image for the displayable area of the display means is read out from the broadcast image data stored in the storage means and read. Control means for controlling the display means so as to display the partial image represented by the partial image data.,
  The control means reads partial image data from the storage means so that the displayed partial images change in order according to a predetermined display pattern.This is a display device for digital broadcasting.
[0013]
According to the present invention, the receiving means receives an image signal representing a broadcast image that is digitally broadcast, and the storage means stores the image signal as broadcast image data. Further, the control means causes the display means to display the partial image represented by the partial image data read from the storage means. Even when the displayable area of the display means is smaller than the image area of the broadcast image that is digitally broadcast, a part of the broadcast image is extracted and displayed by reading out the partial image data that is a part of the broadcast image data. be able to. As a result, the broadcast image can be displayed on the display means without being reduced. Furthermore, by changing the extracted part extracted from the broadcast image, a partial image of an arbitrary part in the broadcast image can be displayed on the display means.
[0014]
Therefore, even if the image size of the digitally broadcast program exceeds the size of the display area that can be displayed by the display means, the partial image of the portion desired by the operator is not reduced. As a result, the image can be prevented from becoming unclear and the symbols and graphics shown in the image can be displayed large, and the visibility of the display means can be improved.
[0019]
  SystemThe control means controls the display means so as to sequentially shift the partial images displayed on the display means in accordance with a predetermined display pattern. Thereby, the manual operation by the operator is not required, and the partial images can be sequentially changed. Even in a state where the operator cannot perform manual operation, the partial images can be changed in order, and convenience can be improved.
[0020]
  The present invention also providesReceiving means for receiving an image signal representing a broadcast image to be digitally broadcast;
  Storage means for storing the image signal received by the receiving means as broadcast image data;
  Display means for displaying an image;
  If the image area of the broadcast image exceeds the displayable area of the display means, the partial image data corresponding to the partial image for the displayable area of the display means is read out from the broadcast image data stored in the storage means and read. Control means for controlling the display means so as to display the partial image represented by the partial image data,
  The control means reads partial image data from the storage means so that the displayed partial images sequentially change according to a display pattern selected from a plurality of predetermined display patterns.It is a display device for digital broadcasting.
[0021]
  tableSince the display pattern is selected from a plurality of predetermined display patterns, the display pattern can be selected based on the operator's preference, the image size of the broadcast image, the content of the broadcast image, and the like. As a result, convenience is improved, and by selecting a display pattern with high visibility, the operator can make the image visible more reliably.
[0022]
A display pattern may be selected based on the content of the broadcast image. For example, when symbols and diagrams shown in a broadcast image are arranged in one direction, the operator's understanding of the content of the broadcast image is improved by selecting a display pattern in which the partial images sequentially change along the one direction. Can be displayed.
[0023]
The display pattern may be selected based on the image size of the broadcast image. For example, convenience can be improved by selecting a speed at which the partial image changes according to the image size of the broadcast image.
[0024]
Further, the present invention is characterized in that the control means controls the display means based on a predetermined display pattern so that all pixels constituting the broadcast image are displayed at least once at a predetermined set time. To do.
[0025]
According to the present invention, the partial image is displayed on the display means so that all the pixels of the broadcast image are displayed at least once in a predetermined set time. By setting the set time to the time desired by the operator, the time until all the pixels of the broadcast image are displayed at least once can be set according to the preference of the operator, regardless of the image size of the broadcast image The time can be kept constant until all the pixels of the broadcast image are displayed at least once. This can improve convenience.
[0026]
Further, the present invention is characterized in that the control means controls the display means so that the overlapping width of the transition trajectories of the partial images becomes a predetermined set width.
[0027]
According to the present invention, the control means causes the display means to display the overlapping width of the transition trajectories of the partial images so as to be a predetermined set width. Thus, the convenience can be improved by adjusting the setting width preferred by the operator and the overlapping width according to the content of the broadcast image. For example, by displaying an image with an increased overlap width, the image portion displayed on the edge of the display screen can be reduced.
[0036]
  The present invention also providesReceiving means for receiving an image signal representing a broadcast image to be digitally broadcast;
  Storage means for storing the image signal received by the receiving means as broadcast image data;
  Display means for displaying an image;
  If the image area of the broadcast image exceeds the displayable area of the display means, the partial image data corresponding to the partial image for the displayable area of the display means is read out from the broadcast image data stored in the storage means and read. Control means for controlling the display means so as to display the partial image represented by the partial image data,
  When the control means displays the character in the entire display state and displays the character, the character represented by the character data is converted and displayed so that at least one of the typeface and color set in advance is different. Controlling the display meansIt is a display device for digital broadcasting.
[0037]
  allWhen displaying in the body display state, it is converted and displayed so that at least one of the typeface and color of the character preset at the time of reception is different. This makes it possible to differentiate the character displayed with respect to the character set in advance at the time of reception, thereby improving convenience. For example, by changing to a consciously differentiated character and displaying it on the display means, it is easy for the operator to determine that the change in display size is not a failure, and an operation that visually recognizes the character when displayed in the full display state The person who is confused can be eliminated. In addition, the visibility can be further improved by setting the font and the color so that the visibility is high when the character is confirmed when the entire character is displayed.
[0038]
  The present invention also providesReceiving means for receiving an image signal representing a broadcast image to be digitally broadcast;
  Storage means for storing the image signal received by the receiving means as broadcast image data;
  Display means for displaying an image;
  If the image area of the broadcast image exceeds the displayable area of the display means, the partial image data corresponding to the partial image for the displayable area of the display means is read out from the broadcast image data stored in the storage means and read. Control means for controlling the display means so as to display the partial image represented by the partial image data,
  When the vehicle is running and the vehicle is running, the display means is controlled so as to display the same partial image.It is a display device for digital broadcasting.
[0039]
  carBy being mounted on both, the digital broadcast can be received while moving, and the received digital broadcast can be displayed on the display means at any position where the vehicle can travel. This can improve convenience.
[0040]
Also, since the space of the vehicle is limited, the display means mounted on the vehicle is often smaller than the display means at home. Even when the digital broadcast display device receives a broadcast image having a larger image size than the image size that can be displayed by the vehicle display means for digital broadcasting for home use, the broadcast image is partially Since the extracted partial image is displayed, it can be displayed without lowering the visibility of symbols and figures written in the broadcast image, and can be displayed with improved understanding of the operator.
[0041]
Further, when the vehicle is running, the same partial image is displayed, so that the operator's consciousness is not concentrated on the image shown on the display means, and the driving operation of the driver who drives the vehicle is obstructed. There is nothing.
[0042]
In the present invention, when the vehicle is traveling, the display means is controlled so that the image area of the broadcast image is reduced and the broadcast image is displayed in the displayable area of the display means in the entire display state. It is characterized by.
[0043]
According to the present invention, when the vehicle is traveling, the entire display state is displayed so that the operator's consciousness is not concentrated on the image displayed on the display means, and the driving of the driver who drives the vehicle is performed. Operation is not hindered. In addition, by displaying the entire broadcast image, the operator can roughly understand the entire display image.
[0046]
DETAILED DESCRIPTION OF THE INVENTION
FIG. 1 is a block diagram showing a configuration of a digital broadcast display device 2 including a digital broadcast display control device 1 according to an embodiment of the present invention. FIG. 2 is controlled by the digital broadcast display control device 1. It is a figure which shows the transition of the display state of a display performed, and progresses from FIG. 2 (1) to FIG. 2 (3) as time passes.
[0047]
The digital broadcast display control apparatus 1 (hereinafter simply referred to as the display control apparatus 1) extracts an image signal representing a broadcast image of a data broadcast program from among program signals that are digitally broadcast. The data broadcast program is, for example, a weather forecast program, a map information program, a news program, a program showing an electronic program guide, and the broadcast image is, for example, a still image 20.
[0048]
In digital broadcasting, the number of pixels constituting the still image 20 of the program may differ for each program to be broadcast. Therefore, the image size of the broadcast image that is broadcast may be larger than the image area that the display 3 can display. As shown in FIG. 2, when the number of pixels constituting the still image 20 is n1 × m1, for example, 960 × 540 dots, and the number of pixels that can be displayed on the display 3 is n2 × m2, for example, 420 × 240 dots, display control is performed. The apparatus 1 is a part of the still image 20, extracts an area having the number of pixels of n2 × m2 (area shown by hatching in FIG. 2), and displays the extracted part on the display 3 as a partial image 21. The number of pixels constituting the partial image 21 is the number of pixels that can be displayed on one screen of the display 3. The plurality of pixels 80 form an image arranged in a matrix, and are arranged in the main scanning direction and the sub-scanning direction of the display 3.
[0049]
The display control device 1 is set so that the portion extracted from the still image 20 can be changed as the partial image 21, and displays the partial image 21 on the display 3 in accordance with an operator's manual operation or a predetermined display pattern. For example, the display control device 1 causes the partial image 21 to be displayed on the display 3 by sequentially changing the partial images 21 extracted from the still image 20 over time. The display control apparatus 1 sequentially shifts the partial image 21 extracted from the still image 20 in one direction H1 of the still image 20, so that the display target 22 shown at a fixed position in the still image 20 becomes one direction H1. Is displayed on the display 3 so as to move in the opposite direction H2.
[0050]
The display control device 1 constitutes a digital broadcast display device 2 as shown in FIG. 1, and the digital broadcast display device 2 constitutes, for example, an in-vehicle television receiver. The in-vehicle digital broadcast display device 2 receives a digitally broadcast program signal and causes the in-vehicle display 3 to display an image represented by the received program signal. Digitally broadcast program signals are less likely to generate noise. Therefore, the display control device 1 can reliably receive the program signal and display an image with less disturbance on the display 3 even when the vehicle is moving and buildings are lined up around it.
[0051]
The digital broadcast reception display system 2 receives an antenna 4 for capturing a digital broadcast wave transmitted from a broadcast satellite and a ground antenna, and a program signal representing a program to be displayed from the captured digital broadcast wave, and receives image data from the program signal. Display control device 1 that generates and displays an image on display 3, display 3 that displays an image based on image data provided from display control device 1, speaker 5 that generates sound, and an operator's command Switches 6a and 6b for transmitting to the control device 1 are provided. For example, the display 3 includes a main display visually recognized by an operator driving the vehicle and a sub-display visually recognized by an operator sitting on the rear seat.
[0052]
The switches 6a and 6b include a switch 6a disposed at a position close to the main display, and a remote controller that sends a command to the display control device 1 by wireless communication, that is, a switch 6b provided in a so-called remote controller. When the switches 6a and 6b are operated by the operator, the operator's command is given to the display control device 1.
[0053]
The display control apparatus 1 includes a receiving unit 16 that receives an image signal representing a still image 20, a control unit 17 that controls the display 3 so that the partial image 21 is displayed on the display 3, and a command from the operator. And an input means 18 for giving to.
[0054]
The receiving means 16 includes a tuner 7 that selects and receives a digital broadcast wave of one channel from a plurality of digital broadcast waves captured by the antenna 4, a demodulator 8 that demodulates the digital broadcast wave of the selected channel, and one A transport stream (TS) decoder 9 for extracting a program signal representing a predetermined program from a plurality of programs included in the channel, a video decoder 10 for generating image data representing an image from the program signal, and a program And an audio decoder 11 for generating audio data representing audio from the signal.
[0055]
When a program display command is given from the operator via the switches 6a and 6b, the tuner 7 receives a digital broadcast wave of a channel including a predetermined program from the antenna 4, and receives the received digital broadcast wave to the demodulator 8. give. The demodulator 8 demodulates the digital broadcast wave given from the tuner 7 and gives the demodulated signal to the TS decoder 9.
[0056]
The TS decode 9 extracts a predetermined program signal from a program that is multiplexed and broadcast on a digital broadcast wave, and supplies the program signal to the audio decode 11 and the video decode 10. The video decode 10 generates image data from the program signal and gives it to the presentation processing unit 12 described later. The audio decoder 11 generates audio data of a predetermined program and gives it to the speaker 5.
[0057]
The control means 17 includes at least a central processing unit 14 (abbreviated as CPU) that performs control related to display on the display 3, and a read only memory 13 (abbreviated as ROM) that stores at least a display program related to display on the display 3. ), An optional read / writeable memory 15 (Random Access Memory, abbreviated as RAM) for writing and reading the calculation results of the CPU 14, and a presentation processing unit 12 that controls the display 3 in response to a display command from the CPU 14. .
[0058]
The presentation processing unit 12 is provided with an image memory (Video Random Access Memory, abbreviated as VRAM), which is a storage means for storing image data to be displayed on the display 3, and stores image data corresponding to the image size of the entire still image. It has a still image storage VRAM 12a for storing, and an entire display VRAM 12b for storing image data reduced to an image size that can be displayed on the display 3.
[0059]
The presentation processing unit 12 receives the image data from the video decode 10 and stores the image data in the still image storage VRAM 12a. Also, the presentation processing unit 12 receives the image data, reduces or enlarges the still image 20, and enlarges or reduces the image data to an image size corresponding to n2 × m2 pixels that can be displayed on one screen of the display. Is stored in the entire display VRAM 12b.
[0060]
When displaying the partial image 21, the presentation processing unit 12 reads a part of the image data stored at a predetermined address of the still image storage VRAM 12 a, gives the partial image data indicating the part to the display 3, and displays 3 displays the partial image 20. When the entire still image 20 is displayed, image data suitable for full screen display is taken out from the entire display VRAM 12 b, the image data is given to the display 3, and the still image 20 is displayed in front on the display 3.
[0061]
By storing the image data of the still image 20 received by the presentation processing unit 12 in the still image storage VRAM 12a, the receiving unit 16 does not need to receive a digital broadcast each time the partial image 21 is displayed. Further, the presentation processing unit 12 designates an address where the image data of the still image storage VRAM 12 a is stored, reads the partial image data, and causes the display 3 to display the partial image 21. Therefore, the partial image 21 can be displayed on the display 3 only by taking out the image data from the still image storage VRAM 12a, and the calculation load on the presentation processing unit 12 and the CPU 14 associated with the image display is small, so that the partial image 21 can be smoothly transferred. You can make changes.
[0062]
In addition, the presentation processing unit 12 takes out the data stored in the entire display VRAM 12b and gives it to the display 3, whereby the display state can be switched from the partial display state to the entire display state in a short time.
[0063]
The input means 18 is an interface connected to command means such as the switches 6a and 6b, and gives an operator command to the control means 17 via the switches 6a and 6b. The display control apparatus 1 further includes a communication modem 19 for connecting to a telephone communication line, and can access a network connected to a telephone communication line such as the Internet.
[0064]
When a command for displaying a digital broadcast program desired by the operator is input to the control means 17 from the input means 18 via the switches 6a and 6b, the control means 17 receives the reception means 16 so as to generate image data. The image data generated from the receiving means 16 is received.
[0065]
After receiving the image data generated by the receiving unit 16, the control unit 17 controls the display 3 so that an image is displayed on the display 3 according to the display pattern selected by the presentation processing unit 12. For example, when the image area of the still image 20 exceeds the displayable area of the display 3, the control means 17 uses a partial image composed of pixels corresponding to the displayable area of the display 3 from the image data stored in the still image storage VRAM 12 a. The partial image data corresponding to 21 is read in a changeable manner, and the display 3 is controlled to display the partial image represented by the read partial image data. Further, the control means 17 sets display patterns based on a display program representing a plurality of display patterns stored in the ROM 13.
[0066]
The control means 17 displays the partial image 21 extracted from the still image 20 on the display 3, so that even when the image area of the still image 20 is larger than the image area that can be displayed on the display 3, the still image 20. Can be displayed on the display 3 without being reduced. Thereby, the visibility of the display 3 can be improved.
[0067]
The control means 17 displays the partial images 21 on the display 3 in order according to the display program stored in the ROM 13. This eliminates the need for an operator to manually input a display pattern in which images change in order, thereby improving convenience.
[0068]
FIG. 3 is a front view showing the display device 2 for digital broadcasting. A main display 3 and a switch 6b disposed at a position close to the main display 3 are provided on the front surface of the digital broadcast display device 2. Each switch 6b displays, for example, a manual selection switch 33 for an operator to manually select a portion from which the partial image 21 is extracted, and a partial image 21 of the upstream portion in the transition direction that changes sequentially with respect to the partial image 21. A back switch 34 for instructing a back display, a reverse switch 35 for instructing a scroll reverse display for sequentially shifting the partial image 21 in the reverse direction according to a predetermined display pattern, and a partial image 21 at a predetermined initial position. A reset switch 36 for instructing a scroll reset display to be displayed, a stop switch 37 for stopping the transition of the partial image 21, and selecting one of a plurality of predetermined display patterns and setting a display pattern Menu switch 38 for No.
[0069]
When the operator presses each switch 6b and instructs to change the display pattern, the control means 17 changes the display pattern in accordance with the operator's command. For example, when an operator operates the manual selection switch 33 to give a command to extract a desired partial image 21, the display unit 17 controls the display 3 to display the commanded partial image 21. Thus, the operator can visually recognize the desired partial image 21 on the display 3.
[0070]
In addition, when the operator presses the back switch 34 and gives a command to perform playback display, the control means 17 controls the display 3 to perform playback display. As a result, the display 3 displays the partial image 21 on the upstream side in the transition direction in which the partial image 21 sequentially changes with respect to the displayed partial image 21, so that the partial image 21 missed by the operator can be visually recognized again. Further, after the playback display, the control means 17 controls the display 3 so that the partial images sequentially change again according to a predetermined display pattern from the playback-displayed partial image.
[0071]
Moreover, the control means 17 is comprised so that designation | designated of the partial image 21 to display by playback is possible. For example, the control means 17 controls the display 3 so as to display the partial image 21 displayed for the set time before the displayed partial image 21. The set time is input to the control means 17 via the switches 6a and 6b. Accordingly, the partial image 21 to be displayed for playback can be set according to the operator, and the partial image 21 missed by the operator can be more reliably displayed on the display 3.
[0072]
Further, when the operator presses the reverse switch 35 and gives a command to perform scroll reverse display, the control means 17 controls the display 3 to perform scroll reverse display. Accordingly, the display 3 controls the display 3 so that the partial image 21 is displayed in the reverse direction in the still image.
[0073]
Further, while the operator gives an operating force to the reverse switch 35, a scroll reverse display command is given to the control means 17, and the control means 17 displays the scroll reverse display on the display 3 while receiving the scroll reverse display command. Control to do.
[0074]
Further, when the operator presses the reset switch 36 and gives a scroll reset display command, the control means 17 controls the display 3 so as to display the partial image 21 at a predetermined initial position. When the control means 17 gives a scroll reset display command, the partial image 21 at the initial position is extracted, and the operator understands where the partial image 21 is extracted with respect to the still image 20. Can do.
[0075]
Further, when the operator presses the stop switch 37 to give a command to stop the transition of the partial image 21 and display the same partial image 21, the control means 17 displays the same partial image 21. The display 3 is controlled. Thereby, the operator can visually recognize the same partial image 21 on the display 3 for a long time, and can further ensure the visibility of the image.
[0076]
Further, the display 3 is provided with a position information display portion 39 for displaying the position information of the displayed partial image 21 with respect to the still image 20 as a numerical value, and the control means 17 displays the position information of the partial image 21 on the position display portion 39. Is displayed. The position information is represented by, for example, a main scanning direction position and a sub-scanning direction position in the still image 20 at a reference position that is predetermined for the partial image 21. As a result, the operator can be informed of which part of the partial image 21 currently displayed is extracted from the still image 20. For example, with the centroid of the still image 20 as the origin, the coordinates of the partial image 21 in the main scanning and sub-scanning directions from the origin are displayed ±.
[0077]
FIG. 4 is a diagram showing a state where the still image 20 is partially displayed and a state where the still image 20 is displayed as a whole. FIG. 4 (1) shows the still image 20, and FIG. 4 (2) shows a state where the still image 20 is partially displayed. FIG. 4 (3) shows a state in which the entire still image 20 is displayed.
[0078]
As shown in FIG. 4 (2), the control means 17 does not reduce the image size of the still image 20 set at the time of broadcasting, but extracts the partial image 21 from the still image 20 and displays it in the partial display state. 4 is displayed, and the size of the still image 20 is reduced, and the entire still image 20 is displayed so as to fit within the display area of the display 3 as shown in FIG. Display an image on.
[0079]
The number of pixels arranged in the main scanning direction of the still image 20 is n1, the number of pixels arranged in the sub scanning direction is m1, the number of pixels that can be displayed in the main scanning direction of the display 3 is n2, and the display is performed in the sub scanning direction. Assuming that the number of possible pixels is m2, in the entire display state, for example, the still image 20 is reduced to n1 / n2 or the still image is reduced to m1 / m2 and displayed on the display 3, and the number of pixels of the still image 20 is n3 × The image changed to m3 is displayed on the display 3. Further, the ratio of reducing the still image 20 in the entire display state may be reduced at different ratios in the main scanning direction and the sub-scanning direction, or may be reduced at the same ratio.
[0080]
The control means 17 can set a predetermined display pattern so as to switch between the partial display state and the entire display state, and switches between the partial display state and the entire display state by an operator's manual operation. can do.
[0081]
For example, when a display pattern in which the partial display and the entire display are periodically repeated is selected, the control unit 17 displays the partial image 21 on the display 3 as the partial display state, sequentially changes the partial image 21, and the still image When all 20 pixels are displayed on the display 3 at least once, the entire display state is switched. Next, the control means 17 displays on the display 3 in the whole display state, and after a predetermined time has elapsed, displays again in the partial display state.
[0082]
In this manner, the still image 20 is displayed by periodically repeating the partial display state and the entire display state, thereby allowing the operator to recognize which part of the still image 20 is extracted and the partial image 21 is displayed. Can be displayed so as to improve the operator's understanding of the partial image 21.
[0083]
The control means 17 is configured so that the operator can set how to display the partial display state and the entire display state. The control means 17 is given an operator's command via the switches 6a and 6b, and can set a display pattern according to the command. For example, in a partial display state, a display pattern that makes a round of the still image 20 so that all pixels of the still image 20 are displayed on the display 3 at least once is repeated twice, and then a display pattern that is maintained for 10 seconds in the entire display state. Can be set to repeat.
[0084]
By configuring the display pattern to be settable by the operator in this way, the display pattern of the partial display state and the entire display state can be set according to the preference of the operator, and convenience can be improved. At the same time, it is possible to display the operator so as to improve the visibility of the still image 20.
[0085]
FIG. 5 is a diagram illustrating the transition of the partial image 21 with respect to the still image 20. The display control device 1 includes a plurality of displays including a display pattern for first scroll display in which the partial image 21 moves in a predetermined first direction in the still image, and a display pattern for second scroll display different from the first direction. The partial image 21 is extracted according to the display pattern selected from the patterns. For example, the first direction is the main scanning direction H of the still image 20, and the second direction is the sub-scanning direction V of the still image 20. When symbols and figures shown in the still image are arranged in the sub-scanning direction V, the partial image 21 is displayed so as to change in the sub-scanning direction V, thereby allowing the operator to improve the understanding of the still image 20. Can do. Further, the partial image 21 may be shifted so as to rotate in the oblique direction with respect to the still image 20 and around the centroid of the still image 20.
[0086]
Such a display pattern setting may be input by the operator from the switches 6a and 6b, or the control means 17 may determine according to the program content of the digital broadcast and the image size of the still image.
[0087]
FIG. 6 is a diagram showing the transition of the partial image 21 displayed on the page scroll with respect to the still image 20. The time transitions from FIG. 6 (1) to FIG. 6 (3) as time elapses. The control unit 17 includes a display pattern including a boundary scroll display in which the partial image 20 continuously changes in the still image, and a display pattern in which a page scroll display in which the partial image 21 changes discretely in the still image is displayed. The partial image 21 is extracted in accordance with the display pattern selected from among them.
[0088]
In the page scroll display, as shown in FIG. 6, the control means 17 is configured so that the predetermined set points 23 of the partial images 21 are spaced apart from each other at predetermined intervals L1 and L2 in the partial images 21 before and after the sequential change. The images 21 are changed in order and displayed on the display 3.
[0089]
FIG. 7 is a diagram showing the overlap width of the transition locus of the partial image 21. As shown in FIG. The control means 17 can set a width L3 where the trajectory overlaps with respect to the transition trajectory of the partial image 21 that transitions the still image 20, and the partial image 24 on the upstream side in the transition direction F of the partial image 21 and the downstream side in the transition direction. In the partial image 25, the overlapping width can be set according to the input value commanded by the operator.
[0090]
FIG. 8 is a diagram illustrating the overlapping width of the front and rear partial images in the page scroll display. In the page scroll display, the control means 17 can set the width L4 of the overlapping portion of the partial images 21 before and after the transition, and the width of the overlapping portion is set to an input value commanded by the operator of the partial image 25. It is configured to be set accordingly.
[0091]
Further, the control means 17 controls the display 3 so that the partial image 21 is displayed in the entire display area of the display 3 where the partial image 21 for displaying the partial image 21 is displayed. Therefore, even if the partial images 21 are changed in order or the image sizes of the still images 20 are different, the partial images 21 are always displayed over the entire display area where the partial images 21 are displayed, and the partial images 21 are displayed. The useless area where the partial image 21 is not displayed does not occur in the displayed area.
[0092]
Further, the control means 17 determines the time until the partial image 21 makes a round of the still image 20 so as to display all the pixels constituting the still image 20 at least once based on the predetermined display pattern as described above. The time can be set as desired by the operator. Since the partial images 21 are sequentially changed so as to make a round of the still image 20 in the set time, the speed at which the partial images 21 change can be adjusted to the preference of the operator. The speed at which the partial image 21 changes may be set by the operator.
[0093]
Further, the control means 17 controls the display 3 according to a display pattern selected from a plurality of predetermined display patterns based on the content of the still image 20. For example, when the symbol portion and the graphic portion indicated by the still image 20 are concentrated near the center of the still image 20, a display pattern is set so as to extract the partial image 21 near the center of the still image 20 with priority.
[0094]
Further, when the control means 17 can know the program contents from the program signal, a display pattern corresponding to the program contents may be set. For example, when the control means 17 can know that the program to be displayed from the received digital broadcast is a weather forecast program, a predetermined display pattern corresponding to the weather forecast program may be selected. The control means 17 may know the image size of the still image 20 from the image signal extracted by the video decoding 10 and select a display pattern based on the image size 20. For example, when the control unit 17 determines that the image size of the still image 20 is large, the control unit 17 sets a high transfer speed for changing the partial image 21.
[0095]
The control means 17 displays the partial image 21 on the display 3 in such a manner that the partial image 21 is sequentially shifted in a display pattern obtained by combining any one of the display patterns described above and the display pattern described above. Moreover, the control means 17 can adjust the partial image 21 displayed according to a display pattern via switch 6a, 6b etc. according to an operator's instruction | command.
[0096]
FIG. 9 is a flowchart showing an operation of displaying an image of the control means 17. When a command to display a digitally broadcast program on the display 3 is given by the operator at step a0, the control means 17 proceeds to step a1 and starts a display operation.
[0097]
In step a1, when receiving a command to display the designated data broadcast program, the control unit 17 commands the receiving unit 16 to extract an image signal representing the still image 20 of the designated program. When an image signal representing the still image 20 is received from the receiving means 16, the process proceeds to step a2.
[0098]
In step a2, a display pattern for displaying the still image 20 is selected. The control means 17 selects a display pattern based on the still image 20 or sets a display pattern based on a display pattern designated by the operator.
[0099]
When setting a display pattern based on the still image 20, the display pattern is set from a plurality of predetermined display patterns based on the image size of the still image 20 or the content of the data broadcast program indicated by the still image 20. .
[0100]
When setting a display pattern based on a display pattern specified by the operator, the control means 17 sets a display pattern that causes the display pattern specified by the operator to be executed. When the display pattern for displaying the still image 20 is set in this way, the process proceeds to step a3.
[0101]
In step a3, the control means 17 controls the display 3 so that the image changes according to the set display pattern, and causes the display 3 to display the image. When the number of pixels n1 × m1 serving as the image area of the still image 20 exceeds the number of pixels n2 × m2 of the displayable area of the display 3, the control unit 17 calculates the display 3 from the image data stored in the still image storage VRAM 12a. The display 3 is controlled so that the partial image data corresponding to the partial image 21 of the displayable area n2 × m2 is read in a changeable manner and the partial image 21 represented by the read partial image data is displayed.
[0102]
When the partial image 21 is displayed on the display 3, the position of the partial image 21 with respect to the still image 20 is calculated, the calculation result is displayed on the position information display portion 39 of the display 3, and the process proceeds to step a4.
[0103]
In step a4, the control means 17 determines whether or not there is a command from the operator while the partial image 21 is being displayed. If there is a command related to display from the operator via the switches 6a, 6b, etc., the process proceeds to step a5, and if there is no command related to display from the operator, the process proceeds to step a6.
[0104]
In step a5, the control means 17 executes a display pattern according to the operator's command. The control means 17 changes the display of the display 3 according to the command input via the switches 6a and 6b, and returns to step a4 again.
[0105]
In step a6, when an instruction to end image display is received, the process proceeds to step a7. Otherwise, the process returns to step a4, and the display 3 is controlled so that the images sequentially change in accordance with a predetermined display pattern. In step a7, the control means 17 ends the display operation for displaying an image.
[0106]
The control unit 17 receives a signal for determining whether or not the vehicle is traveling, changes the display pattern, and displays the same image when the vehicle is traveling. For example, when the vehicle is traveling, the display 3 is controlled to display the same partial image 21. Further, for example, the control means 17 controls the display 3 so that the entire display state is displayed when the vehicle is traveling. As a result, the operator who drives the vehicle is not conscious of the image displayed on the display 3 while traveling and the driving operation is not hindered.
[0107]
When displaying a data broadcast program represented by an image signal and a character signal, the receiving means 16 extracts a character signal representing character data broadcast in association with the image signal together with the image signal. The control means 17 receives the character signal together with the image signal from the receiving means 16, and displays the still image 20 with the character in which the character 26 represented by the character signal is added to the still image 20 on the display 3 in the partial display state and the entire display state. . The character 26 is a character, a symbol, or the like, and data such as a typeface, a color, and a display size is set in advance at the time of reception.
[0108]
FIG. 10 is a flowchart showing a display operation for displaying a still image with a character to which a character signal is added in association with the image signal of the control means 17. When the control means 17 receives the character signal together with the image signal from the receiving means 16 at step b0, the control means 17 determines that the character 26 is displayed in association with the image signal representing the still image 20, and proceeds to step b1 to add the character. The display operation for displaying the character-added image on the display 3 is started.
[0109]
In step b1, the display size of the character 26 represented by the character signal preset at the time of reception and the image size of the received still image 20 are determined, and the process proceeds to step b2. In step b2, the control means 17 determines whether or not a command for changing the display size of the character 26 displayed on the display 3 is given by the operator. If a command to change the display size of the character 26 is given, the process proceeds to step b4, and if not, the process proceeds to step b3. In step b3, the character 26 is set to be displayed on the display 3 with a display size preset at the time of reception, and the process proceeds to step b6.
[0110]
In step b4, the display size of the character 26 is changed based on the display size preset for the character 26 at the time of reception, the size of the image area of the still image 20, and the typeface data stored in advance in the ROM 13.
[0111]
For example, in the case of the character 26 set to the display size of 16 × 16 dots at the time of reception, when the still image 20 is halved and displayed on the display 3, the display size of 8 × 8 dots is set and the process proceeds to step b5. .
[0112]
However, when the data of the display size of the character 26 set in step b3 and step b4 is not stored in the ROM 13, the closest display size is selected from the data of the character 26 stored in the ROM 13. For example, when the display size is set to 8 × 8 dots, the data of the character 26 having the display size of 8 × 8 dots is not stored in the ROM 13, and the font data of the display size character 26 having 4 × 4 dots is displayed. When font data of a character 26 having a display size of 10 × 10 dots is stored, the character 26 is displayed with a display size of 10 × 10 dots. That is, the control means 17 selects a suitable display size from the display sizes of the character 26 stored in advance, and displays the character 26 with the display size.
[0113]
In step b5, the control means 17 displays the character 26 in a display size different from the display size of the character 26 preset at the time of reception, and the typeface and display color of the character 26 set in advance at the time of reception are displayed. At least one of them is differentiated and set so as to proceed to step b6.
[0114]
In step b6, it is determined to display the character 26 based on the set display size, typeface, and display color, and the process proceeds to step b7. In step b7, the character 26 displayed under the conditions set in step b6 is added to the still image 20, the still image 20 to which the character 26 is added is created, and the process proceeds to step b8.
[0115]
In step b8, as shown in FIG. 10, the display pattern for displaying the still image 20 is set. Based on the set display pattern, an image for the still image 20 to which the character 26 is added is displayed. Proceeding to b9, the control means 17 ends the operation in step b9.
[0116]
As described above, according to the display control device 1, the still image 20 is partially extracted and the partial image 21 is displayed on the display 3, so that the symbols and diagrams shown in the still image 20 can be displayed without being reduced. it can. This prevents the image and characters from becoming unclear and improves the visibility of the display 3.
[0117]
In particular, in the display 3 mounted on the vehicle, by improving the visibility of the display 3, the operator can instantly view the content of the image displayed on the display 3. Thereby, the operator can confirm the contents shown in the partial image 21 without obstructing the driving operation.
[0118]
When the vehicle is running, the display 3 and the operator vibrate according to the vehicle, and the visibility of the operator who visually recognizes the image shown on the display 3 is reduced. The display control device 1 prevents the symbols and figures shown in the still image 20 as the partial image 21 from becoming unclear, thereby compensating for a decrease in the visibility of the operator due to vibration, and reliably operating the content of the still image. Can be visually recognized.
[0119]
In addition, since the display control apparatus 1 displays the partial images 21 on the display 3 in order according to a predetermined display pattern, it is not necessary for the operator to perform a manual operation for sequentially changing the partial images 21. Can be improved.
[0120]
For example, in many cases, an operator who drives a vehicle grips a steering wheel and a clutch to operate the vehicle and operates the vehicle with both arms. As described above, the partial images 21 displayed on the display 3 are sequentially changed without requiring a manual operation, so that the driver can change the partial images 21 without performing a special operation. Can be improved.
[0121]
Further, it has various switches 6b as input means for transmitting an operator's command such as a manual selection switch 33, a back switch 34, a reverse switch 35, a stop switch 36, etc. 3 is controlled.
[0122]
For example, the partial image 21 that the operator could not visually recognize while traveling, during preparation for traveling, and when the vehicle was stopped can be visually recognized again by the operator giving commands using the various switches 6b, thereby improving convenience. Can be made. In addition, the missed partial image 21 can be displayed again on the display 3 by a simple operation of pressing the switch 6b. Therefore, the partial image 21 desired by the driver is displayed on the display 3 without obstructing the driving operation. Can be made.
[0123]
When the operator loses sight of which part of the still image 20 is extracted during preparation for traveling and when the vehicle is stopped, the partial image 21 is displayed to the operator by giving a scroll reset display command. The extracted part can be confirmed. In addition, by stopping the partial images 21 that are sequentially changed by the stop switch 37, the traveling state is shifted to the stopped state, and the stopped partial images 21 can be surely visually recognized without missing.
[0124]
In addition, the display patterns described above, such as switching display between the partial display state and the entire display state, boundary scroll display, page scroll display, scroll display for designating the transition direction of the partial image 21, and scroll display for designating the overlap width of the transition locus, etc. Since the operator is configured to be settable, it is possible to set the display pattern so that the operator's preference and the operator can easily view the image, and the visibility can be further improved. Even in the state where the partial image 21 is displayed with the set display pattern, the display state can be changed by the operator operating the various switches 6b, and convenience can be improved.
[0125]
In addition, since the character 26 can be displayed on the display 3 with the display size of the character 26 set in advance at the time of reception, even when the still image 20 is reduced and displayed as a whole display state, The character 26 can be displayed without being reduced. As a result, the character 26 can be prevented from becoming unclear and the visibility of the character 26 can be improved.
[0126]
Further, when the character data is displayed on the display 3 by changing the display size of the character 26 set in advance at the time of reception, the display size of the character 26 may be set based on the data of the character 26 stored in the ROM 13. The visibility of the character 26 can be improved by using the character 26 having a display size based on the image size from the data of the character 26 stored in advance.
[0127]
Further, by differentiating at least one of the typeface and display color of the character 26 whose display size has been changed, the character 26 can be changed to a consciously differentiated character 26 and displayed on the display 3. As a result, the operator can determine that the change in the display size is not a failure, and the operator who visually recognizes the character 26 can be prevented from being confused when displayed in the entire display state. Further, the visibility can be further improved by setting the font and the color so that the visibility is high when the character 26 is confirmed when the entire character is displayed.
[0128]
FIG. 11 is a front view showing a digital broadcast reception display system 50 according to another embodiment of the present invention. The digital broadcast reception display system 50 has substantially the same configuration as the digital broadcast reception display system 2 described above. The digital broadcast reception display system 50 does not numerically display the position of the partial image 21 with respect to the still image 20 on the display 3 but displays it in a simplified diagram. About another structure, it is the same as that of the digital broadcast reception display system 2 mentioned above, description is abbreviate | omitted, and the same referential mark is attached | subjected about the same structure.
[0129]
In the partial display state in which the partial image 21 is displayed, the control unit 17 reduces the still image 20 to a part of the display area of the display 3, and simply displays the simplified still image 51 and the simplified still image 51. A simplified partial image 52 indicating the position of the displayed partial image 52 is added and displayed on the display 3. Specifically, the number of pixels of the still image 20 is reduced, the simplified still image 51 having the number of pixels of n4 × m4 is displayed in the display area, the number of pixels of the partial image 21 is reduced in the simplified still image, A simplified partial image 52 having the number of pixels of n5 × m5 is displayed. The simple still image 51 and the simple partial image 52 are displayed in a substantially rectangular shape.
[0130]
The position of the simplified partial image 52 with respect to the simplified still image 51 is displayed corresponding to the still image 20 with respect to the displayed partial image 21. That is, the control means 17 controls the display 3 to display so-called picture on picture (abbreviated as PonP). As a result, the position of the displayed partial image 21 with respect to the still image 20 can be viewed in a shorter time.
[0131]
The display control apparatus 1 of the present invention as described above is merely an example of the invention, and the configuration may be changed within the scope of the invention. For example, when the received still image 20 is smaller than the image size of the display 3, the still image 20 may be enlarged to set the partial display state and the entire display state. The size of the character 26 added to the still image 20 may be set with a display size designated by the operator.
[0132]
In order to further improve the visibility while the vehicle is running, the still image 20 with simplified images or the character data with the reduced number of characters is displayed, and the detailed still image 20 and the character data are displayed while the vehicle is stopped. The display pattern may be switched to
[0133]
Further, the display control device 1 displays the character 26 in a font type and a color when displaying the character 26 in a display size preset at the time of reception, when displaying the still image 20 in the entire display state, and when displaying the still image 20 in the partial display state. Character data may be displayed so that at least one of them is different. In either the partial display state or the entire display state, the typeface and color may be displayed differently with respect to the data of the character 26 determined in advance at the time of reception.
[0134]
In addition to controlling the display 3 mounted on the vehicle, the display control device 1 may control a portable display such as a portable information terminal, and can suitably display digital broadcasting on the display 3 having a small image size. it can. The image to be displayed may be a moving image instead of a still image.
[0135]
【The invention's effect】
According to the first aspect of the present invention, the partial image that the operator wants to visually recognize can be displayed on the display means without reducing the image size of the broadcast image, so that the symbols and graphics shown in the broadcast image are reduced. Therefore, it is possible to prevent smearing and improve visibility. As a result, the operator who visually recognizes the display means can easily understand the contents of the digital broadcast.
[0137]
  ForecastThe partial images can be displayed in order according to the determined display pattern, so that the partial images can be displayed in order without requiring an operator to manually change the partial images, and the manual operation is omitted. Thus, convenience can be improved.
[0138]
  Claim2According to the described invention,Since the partial image that the operator wants to view can be displayed on the display means without reducing the image size of the broadcast image, it is possible to prevent the symbols and figures shown in the broadcast image from becoming unclear due to the reduction. And visibility can be improved. As a result, the operator who visually recognizes the display means can easily understand the contents of the digital broadcast.
  Since the display pattern is selected from a plurality of predetermined display patterns, the display pattern can be selected according to the preference of the operator and the characteristics of the broadcast image, and the convenience can be improved.
[0139]
For example, it is possible to improve convenience by selecting a display pattern based on the content of the broadcast image, and by selecting a display pattern that makes it easy to understand the content of the broadcast image, The level of understanding can be improved and displayed. Also, for example, convenience can be improved by selecting a display pattern based on the image size of the broadcast image, and by selecting a display pattern that makes it easy to understand the entire broadcast image, the operator can Can be roughly grasped, and the level of understanding of the operator can be improved and displayed.
[0140]
  Claim3According to the described invention, by setting the set time at the time desired by the operator, the time until all the pixels constituting the broadcast image are displayed at least once can be set according to the preference of the operator. , Can improve convenience.
[0141]
  Claim4According to the described invention, by setting the overlap width to the setting width desired by the operator, the overlap width of the transition trajectory of the partial image can be set according to the preference of the operator, and convenience is improved. Can do.
[0146]
  Claim5According to the described invention,Since the partial image that the operator wants to view can be displayed on the display means without reducing the image size of the broadcast image, it is possible to prevent the symbols and figures shown in the broadcast image from becoming unclear due to the reduction. And visibility can be improved. As a result, the operator who visually recognizes the display means can easily understand the contents of the digital broadcast.
  When displaying in the whole display state and displaying the character, the character set in advance at the time of reception is converted into character data having at least one of a typeface and a color and displayed. As a result, it is possible to differentiate the character displayed with respect to the character set in advance at the time of reception, and the convenience can be improved. For example, by changing the typeface or color of a consciously differentiated character and displaying it on the display means, the operator can easily determine that the change in display size is not a failure, and the character is displayed when displayed in the full display state. It is possible to eliminate the possibility that the operator who has visually recognized the user is confused. In addition, the visibility can be further improved by setting the font and the color so that the visibility of the character is enhanced when the entire image is displayed.
[0147]
  Claim6According to the described invention,Since the partial image that the operator wants to view can be displayed on the display means without reducing the image size of the broadcast image, it is possible to prevent the symbols and figures shown in the broadcast image from becoming unclear due to the reduction. And visibility can be improved. As a result, the operator who visually recognizes the display means can easily understand the contents of the digital broadcast.
  By being mounted on the vehicle, the digital broadcast can be received while moving, the digital broadcast can be received at any position where the vehicle can travel, and the received digital broadcast can be displayed on the display means. This can improve convenience.
[0148]
Also, since the space of the vehicle is limited, the display means mounted on the vehicle is often smaller than the display means at home. A portion of a digital broadcast corresponding to home use in which the broadcast image is partially extracted when the digital broadcast display device receives a broadcast image having an image size larger than the image size that can be displayed by the vehicle display means. Since the image is displayed, it can be displayed without reducing the visibility of symbols and figures written in the broadcast image, and can be displayed with an improved understanding of the operator.
[0149]
In addition, when the vehicle is running, by displaying the same partial image, the driver who drives the vehicle prevents long-time driving by looking at the display means without checking the display means for a long time, Accidents can be prevented.
[0150]
  Claim7According to the described invention, when the vehicle is running, the whole display state is displayed, so that the driver who drives the vehicle does not check the display means for a long time, and is looking away from the display means. Driving can be prevented and accidents can be prevented. Also, the entire display image can be roughly grasped by displaying the entire broadcast image.
[Brief description of the drawings]
FIG. 1 is a block diagram showing a configuration of a digital broadcast display device 2 including a digital broadcast display control device 1 according to an embodiment of the present invention.
FIG. 2 is a diagram showing transition of a display state of a display controlled by the digital broadcast display control apparatus 1;
FIG. 3 is a front view showing a display device 2 for digital broadcasting.
FIG. 4 is a diagram showing a state in which a broadcast image 20 is partially displayed and a state in which the broadcast image 20 is entirely displayed.
FIG. 5 is a diagram illustrating a transition of the partial image 21 with respect to the broadcast image 20;
FIG. 6 is a diagram illustrating a transition of the partial image 21 displayed in a page scroll display with respect to the broadcast image 20;
7 is a diagram illustrating an overlap width of a transition locus of a partial image 21. FIG.
FIG. 8 is a diagram showing the overlapping width of the front and rear partial images in page scroll display.
FIG. 9 is a flowchart showing an operation of displaying an image of the control means 17;
FIG. 10 is a flowchart showing a display operation for displaying a still image with character 20 to which a character signal is added in association with the image signal of the control means 17;
FIG. 11 is a front view showing a digital broadcast reception display system 50 according to another embodiment of the present invention.
FIG. 12 is a diagram showing signals included in a broadcast wave that is digitally broadcast.
[Explanation of symbols]
1 Display controller
2,50 Digital broadcast display device
3 Display
4 Antenna
5 Speaker
6 switch
7 Tuner
8 Demodulator
9 TS decoding
10 Video decoding
11 Audio decoding
12 Presentation processing unit
12a VRAM for storing still images
12b VRAM for whole display
13 ROM
14 CPU
15 RAM
16 Receiving means
17 Control means
18 Input means
20 Still image
21 Partial images
26 characters
39 Position information display part

Claims (7)

Receiving means for receiving an image signal representing a broadcast image to be digitally broadcast;
Storage means for storing the image signal received by the receiving means as broadcast image data;
Display means for displaying an image;
If the image area of the broadcast image exceeds the displayable area of the display means, the partial image data corresponding to the partial image for the displayable area of the display means is read out from the broadcast image data stored in the storage means and read. Control means for controlling the display means so as to display the partial image represented by the partial image data ,
The display device for digital broadcasting , wherein the control means reads partial image data from the storage means so that the displayed partial images sequentially change according to a predetermined display pattern . Receiving means for receiving an image signal representing a broadcast image to be digitally broadcast;
Storage means for storing the image signal received by the receiving means as broadcast image data;
Display means for displaying an image;
If the image area of the broadcast image exceeds the displayable area of the display means, the partial image data corresponding to the partial image for the displayable area of the display means is read out from the broadcast image data stored in the storage means and read. Control means for controlling the display means so as to display the partial image represented by the partial image data,
The control means, according to the display pattern selected from a plurality of predetermined be display pattern, as the partial image to be displayed transitory sequentially features and to Lud digital broadcast reading the partial image data from the storing means Display device. The control means controls the display means based on a predetermined display pattern so that all pixels constituting the broadcast image are displayed at least once in a predetermined set time. 3. A display device for digital broadcasting according to 2. Wherein, the overlap width of the transition trajectory of partial images, such that the set width is predetermined, digital broadcasting according to any one of claims 1 to 3, characterized in that for controlling the display means Display device. Receiving means for receiving an image signal representing a broadcast image to be digitally broadcast;
Storage means for storing the image signal received by the receiving means as broadcast image data;
Display means for displaying an image;
If the image area of the broadcast image exceeds the displayable area of the display means, the partial image data corresponding to the partial image for the displayable area of the display means is read out from the broadcast image data stored in the storage means and read. Control means for controlling the display means so as to display the partial image represented by the partial image data,
The control means, when displaying in the entire display state and displaying the character, so as to convert and display the character represented by the character data so that at least one of the typeface and color preset at the time of reception is different , features and to Lud digital broadcasting display device to control the display means. Receiving means for receiving an image signal representing a broadcast image to be digitally broadcast;
Storage means for storing the image signal received by the receiving means as broadcast image data;
Display means for displaying an image;
If the image area of the broadcast image exceeds the displayable area of the display means, the partial image data corresponding to the partial image for the displayable area of the display means is read out from the broadcast image data stored in the storage means and read. Control means for controlling the display means so as to display the partial image represented by the partial image data,
It is mounted on a vehicle, when the vehicle is traveling, as to display the same partial image, features and to Lud digital broadcasting display device to control the display means. When the vehicle is running , the display means is controlled to reduce the image area of the broadcast image and display the broadcast image in the displayable area of the display means in the entire display state. Item 7. The digital broadcast display device according to Item 5 or 6 .

Images