JP2004349949A - Image processor, image processing method and program - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To display characters smoothly moving together with a still picture in an index indication mode by a simple processing. <P>SOLUTION: A controller 172 controls a memory controller 192 to store appended information read out of an appended information memory 173 on an appended information storing area of a display picture memory 174 and directly overwrites the appended information stored on the appended information storing area to an index screen still picture storing area. After ending the overwriting, the appended information is overwritten on still pictures in the index screen still picture storing area. When a user scrolls, the appended information such as channel numbers, etc. smoothly move and are shown together with still pictures respectively shown by scrolling, since the appended information is overwritten on the still pictures moved by one or several lines and read out of the index screen still picture storing area. This invention is applicable to television receivers. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to an image processing apparatus, an image processing method, and a program, and in particular, displays information added to a displayed image by smoothly moving or enlarging the image together with moving or enlarging or reducing the image. The present invention relates to an image processing apparatus, an image processing method, and a program that can perform the processing.
[0002]
[Prior art]
FIG. 1 is a diagram showing an external configuration of a conventional television receiver 1.
[0003]
The television receiver 1 includes a display unit 12 configured by, for example, a CRT (Cathode Ray Tube) or an LCD (Liquid Crystal Display). The user performs an operation input using the remote commander 2, and the remote commander 2 transmits a signal indicating the user's operation input to the television receiver 1 by infrared rays. The television receiver 1 causes the infrared receiver 11 to display the broadcast of the channel selected by the user on the display 12 according to the display method specified by the user by receiving the signal transmitted by the remote commander 2. Can be.
[0004]
In such a television receiver, there is a technique of displaying images of a plurality of different channels on one display screen (for example, see Patent Document 1).
[0005]
[Patent Document 1]
Japanese Patent No. 3082216
[0006]
According to Patent Literature 1, a selected channel is learned, a learning result is stored as priority data, and when a plurality of video display operations are performed, the stored priority data is read out and stored. Since images of different channels are displayed according to the priority data in a plurality of display areas formed by dividing one display screen, a user can quickly find a channel broadcasting a desired program. It is made to be easy to use.
[0007]
As an example of displaying images of a plurality of different channels on one display screen, a program being viewed is displayed on a main screen, and a so-called back program other than the program is sequentially displayed on a sub-screen, and a desired program is displayed. There is an index display that allows the user to confirm whether or not is broadcast as a counter program. For example, as shown in FIGS. 2 and 3, the display screen of the display unit 12 for executing the index display includes a main image display area 21 for displaying a main image, and a counter program broadcast on a plurality of channels. And a scroll index display area 22 in which a still image of a desired channel can be displayed by scrolling the displayed still image by a user's operation input. be able to.
[0008]
In FIG. 2, in the scroll index display area 22, still images corresponding to channels 4, 6, 8, and 10 are displayed. In this state, when the user uses the remote commander 2 to perform a scroll operation for viewing the screen displayed at the lower part of the scroll index display area 22, the scroll operation is performed at the top of the scroll index display area 22 in FIG. As shown in FIG. 3, a part of the displayed still image corresponding to the channel 4 falls off the scroll index display area 22, and the still image corresponding to the channel 12 is displayed below the scroll index display area 22. Are displayed.
[0009]
As described above, in the scroll index display area 22, the still image is continuously scrolled up and down according to the operation input by the user, and the still image of the channel not currently displayed can be displayed. At this time, each still image displayed in the scroll index display area 22 is associated with each still image in order to notify the user of the still image corresponding to the program being broadcast on which channel. It is necessary to insert characters indicating the channel number of the program to be executed. However, since the still images in the scroll index display area 22 move continuously, if the channel number is inserted after the image processing as in the case of inserting an ordinary OSD (On Screen Display), it is necessary to insert the channel number every frame. In addition, it is necessary to change the insertion position of the channel number, and it is very difficult to smoothly move the display position of the character indicating the channel number in conjunction with the movement of the still image displayed in the crawl index display area 22. Met.
[0010]
FIG. 4 shows a configuration of a conventional television receiver 1 having a scroll index display function and capable of smoothly moving a channel number together with a still image displayed by being scrolled. It is a block diagram shown.
[0011]
For example, the system controller 41 selects a broadcast received by the tuner 43-1 or the tuner 43-2 based on a signal received by the infrared receiver 11 and indicating an operation input performed by the user using the remote commander 2. And the processing executed by the image processing unit 45 is controlled.
[0012]
The tuner 43-1 receives a broadcast wave of a channel specified as a channel to be displayed on the main screen such as the main image display area 21 via the antenna 42-1 under the control of the system controller 41, and It is supplied to the C separation and chroma decoding section 44-1. The tuner 43-2 receives a broadcast wave of a channel specified as a channel to be displayed on a sub screen such as the scroll index display area 22 via the antenna 42-2 under the control of the system controller 41, and It is supplied to the C separation and chroma decoding section 44-2. The tuner 43-2 receives only the broadcast wave of the channel specified as the sub-screen in the display mode having only one sub-screen, such as a two-screen display, for example, when the scroll index display mode is instructed. , Broadcast waves of all the channels that may be displayed in the scroll index display area 22 are sequentially received.
[0013]
The video signal supplied to the Y / C separation / chroma decoding unit 44-1 or the supply to the Y / C separation / chroma decoding unit 44-2 has a hue (phase angle) and saturation (subcarrier for transmitting colors). And a luminance signal (Y). The Y / C separation and chroma decoding unit 44-1 and the Y / C separation and chroma decoding unit 44-2 separate the chroma signal and the luminance signal of the supplied video signal, decode the separated chroma signal, The signal is converted into an analog component signal including a luminance signal (Y), a color signal (U), and a color signal (V), and supplied to the image processing unit 54.
[0014]
The image processing unit 45 executes a process of converting or combining the supplied image data into image data corresponding to an image displayed on the display unit 12 based on the control of the system controller 41. FIG. 5 is a block diagram showing a detailed configuration of the image processing unit 45 in FIG.
[0015]
The AD converter 61-1 receives the supply of the analog component signal from the Y / C separation and chroma decoding unit 44-1, converts the signal into a digital signal, and supplies the digital signal to the main image data enlargement / reduction processing unit 91 of the screen division processing unit 62. Supply. The control unit 63 controls the operations of the screen division processing unit 62, the high-speed switch IC 65, the microcomputer 64 for OSD processing (hereinafter, referred to as OSD microcomputer 64), and the OSD 69 based on the control signal supplied from the controller 41. I do.
[0016]
The OSD microcomputer 64, under the control of the control unit 63, displays the RGB character information and the first blanking signal (RGB) as information corresponding to the channel number displayed on the still image of the scroll index and moved with the still image during scrolling. Ys) is generated and supplied to the high-speed switch IC 65. The high-speed switch IC 65 receives the supply of the analog component signal from the Y / C separation and chroma decoding unit 44-2 and, based on the control of the control unit 63, converts a part of the supplied analog component signal into the OSD microcomputer. A process is performed for combining with the generated RGB character information and the first blanking signal (Ys). That is, the high-speed switch IC 65 executes a process of replacing the pixel corresponding to the character part of the channel number in the supplied analog component signal with the information supplied from the OSD microcomputer 64.
[0017]
The AD converter 61-2 receives the supply of the analog component signal on which the channel number is superimposed from the high-speed switch IC 65, converts the signal into a digital signal, and supplies the digital signal to the sub-image data enlargement / reduction processing unit 92 of the screen division processing unit 62. .
[0018]
The main image data enlargement / reduction processing unit 91 of the screen division processing unit 62 adjusts the size of the display image based on the supplied digital signal based on the control of the control unit 63, in accordance with the size of the main screen in the display mode instructed by the user. A process for changing the data is executed in accordance with the change, and is output to the screen synthesizing unit 96 or supplied to the memory controller 95 via the memory bus 93 and stored in the memory 66.
[0019]
The sub-image data enlargement / reduction processing unit 92 of the screen division processing unit 62 adjusts the size of the display image based on the supplied digital signal based on the control of the control unit 63 to the size of the sub-screen in the display mode specified by the user. A process for changing the timing is changed and output to the screen synthesizing unit 96, to the still image extracting unit 94 via the memory bus 93, or to the memory controller 95 via the memory bus 93. , Stored in the memory 66. When the scroll index display mode is instructed, the sub-image data enlargement / reduction processing unit 92 is supplied with the image data of all the channels that may be displayed in the scroll index display area 22 sequentially. The size of the display screen is changed in accordance with the size of the sub-screen for the image data, and the output process is sequentially performed.
[0020]
The still image extracting unit 94 acquires the image data that has been subjected to the scaling processing by the sub image data scaling processing unit 92 via the memory bus 93, and outputs one frame every predetermined time, that is, a still image. The extracted data is supplied to the screen synthesizing unit 96 or supplied to the memory controller 95 via the memory bus 93, and is stored in the memory 66.
[0021]
The memory controller 95 executes a process of storing the supplied image data in a predetermined area of the memory 66, reading the image data stored in the memory 66, and outputting the read image data to the screen synthesizing unit 96.
[0022]
FIG. 6 shows a memory map of the memory 66.
[0023]
The memory 66 is provided with a main video signal storage area 101, a sub video signal storage area 102, and a plurality of index screen still image storage areas 103. In the index display mode, an area in which image data is being read from the index screen still image storage area 103 is referred to as a read area 104.
[0024]
For example, as shown in FIG. 6A, when the index screen still image storage area 103-1 to the index screen still image storage area 103-4 of the index screen still image storage area 103 are read out, As described with reference to FIG. 2, it is assumed that still images corresponding to channel 4, channel 6, channel 8, and channel 10 are displayed in the scroll index display area 22. In this state, when the user performs a scroll operation using the remote commander 2 to view the screen displayed at the bottom of the scroll index display area 22, the position of the data to be read is one line or After being moved by several lines, the position of the readout area 104 is shifted as shown in FIG. 6B, and from the middle of the index screen still image storage area 103-1 to the middle of the index screen still image storage area 103-5. Is read. Therefore, a part of the still image corresponding to the channel 4 displayed at the top of the scroll index display area 22 in FIG. 2 deviates from the scroll index display area 22, and as shown in FIG. In the lower part of the display area 22, a part of the still image corresponding to the channel 12 is displayed.
[0025]
At this time, each of the read still images in the index screen still image storage area 103 already includes the information corresponding to the channel number by the processing of the OSD microcomputer 64 and the high-speed switch IC 65, so that the scroll is scrolled. Along with each displayed still image, the channel number is also smoothly moved and displayed.
[0026]
Returning to the description of the image processing unit 45 in FIG.
[0027]
The screen synthesizing unit 96 receives the image data supplied from the memory controller 95 via the memory bus 93, or the main image data enlargement / reduction processing unit 91, the sub image data enlargement / reduction processing unit 92, or the still image extraction unit 94. Under the control of the control unit 63, the supplied image data is synthesized based on the display mode instructed by the user, and is supplied to the image quality adjustment unit 67.
[0028]
The image quality adjusting unit 67 adjusts the image quality of the supplied composite image and supplies the adjusted image to the OSD combining unit 68. The OSD 69 outputs information to be superimposed on the display image to the OSD combining unit 68 based on the control of the control unit 63. The OSD synthesizing unit 68 synthesizes the superimposition information output by the OSD 69 with the supplied image data, and outputs the synthesized image data.
[0029]
Returning to the description of the television receiver 1 in FIG.
[0030]
The image data processed by the image processing unit 45 can display digital data on the display unit 12 using, for example, an LCD (Liquid Crystal Display) or a PDP (plasma display panel). In this case, the data is output directly to the display unit 12. If the display unit 12 can display analog data using, for example, a CRT (Cathode Ray Tube), the DA converter 46 is used. After being converted to an analog signal, it is output to the display unit 12. The display unit 12 displays an image corresponding to the supplied image data.
[0031]
[Problems to be solved by the invention]
As described above, in order to smoothly move the display position of the character indicating the channel number in conjunction with the movement of the scroll index display area 22, the OSD microcomputer 64 and the high-speed switch IC 65 are required. Had become.
[0032]
Further, the television receiver 1 described with reference to FIG. 4 receives only analog broadcast waves. However, with the generalization of digital broadcasting of terrestrial waves and satellite waves, the television receiver 1 will be described. The receiver requires a function of receiving not only analog broadcasting but also digital broadcasting. In the television receiver capable of receiving and displaying a digital broadcast, the display position of the character indicating the channel number is smoothly moved in accordance with the movement of the crawl index display area 22 in the manner described above. To do this, the digital image data is once converted to an analog component signal, the information corresponding to the channel number is added to the analog component signal using the OSD microcomputer 64 and the high-speed switch IC 65, and then the digital signal is converted again. It is necessary to convert and perform image processing. In this case, since the number of conversions of the image signal increases, a problem of image deterioration occurs.
[0033]
The present invention has been made in view of such a situation, and does not perform complicated processing such as that performed by the OSD microcomputer 64 and the high-speed switch IC 65 described above. Without this, the additional information corresponding to the image is smoothly moved and displayed following the movement of the image.
[0034]
[Means for Solving the Problems]
A first image processing apparatus according to the present invention includes first storage means for storing information about an image, and control means for controlling writing and reading of information to and from the first storage means. Has a first image storage area for storing image information corresponding to an image displayed after being moved or enlarged and reduced, and the control means is added to and displayed on the image which is moved or enlarged and displayed. The additional information is overwritten on a part of the image information stored in the first image storage area.
[0035]
The first storage means may further include an additional information storage area for storing additional information, and the control means stores the additional information stored in the additional information storage area in the first image storage area. Part of the stored image information can be overwritten.
[0036]
The information processing apparatus may further include a second storage unit for storing the additional information, wherein the control unit stores the additional information stored by the second storage unit in the first image storage area. Part of the image information can be overwritten.
[0037]
In the first image storage area, a plurality of still images can be stored, and the control means includes, in each of the plurality of still images stored in the first image storage area, The additional information can be overwritten.
[0038]
In the first image storage area, continuous frame image data can be sequentially stored, and the control means can store information on blanking intervals of the frame image data and information on the first storage means. During the writing process, additional information can be overwritten on a part of each frame image data.
[0039]
The first storage means may further include a second image storage area for storing image information displayed in a display method different from the image information stored in the first image storage area. it can.
[0040]
In the first image processing apparatus of the present invention, information about an image is stored, writing and reading of the information are controlled, and additional information that is added and displayed on an image that is moved or enlarged and reduced is displayed. It is overwritten on a part of the image information corresponding to the image which is moved or enlarged and displayed.
[0041]
According to a first image processing method of the present invention, a storage step of storing image information corresponding to an image displayed by being moved or enlarged or reduced in an information storage area, and adding the image information to an image displayed by being moved or enlarged or reduced An overwriting step of overwriting a portion of the image information stored in the information storage area by the processing of the storing step with the additional information displayed.
[0042]
A first program according to the present invention includes a storage step of storing image information corresponding to an image displayed by being moved or enlarged or reduced in an information storage area; An overwriting step of overwriting the displayed additional information with a part of the image information stored in the information storage area by the processing of the storing step.
[0043]
In the first image processing method and the program according to the present invention, image information corresponding to an image displayed after being moved or enlarged / reduced is stored in an information storage area, and added to the image which is moved or enlarged / reduced and displayed. The displayed additional information overwrites part of the image information stored in the information storage area.
[0044]
A second image processing apparatus according to the present invention includes first storage means for storing information about an image, and control means for controlling writing and reading of information to and from the first storage means. Has a first image storage area for sequentially storing continuous frame image data, and the control means stores the additional information added and displayed on the image corresponding to the frame image data in the first image image storage area. It is characterized in that a part of each frame image data stored in the area is overwritten.
[0045]
The control unit causes the additional information to be overwritten on a part of each frame image data during the process of writing the information of the blanking section of the frame image data into the first storage unit. be able to
[0046]
The first storage means may further include an additional information storage area for storing additional information, and the control means stores the additional information stored in the additional information storage area in the first image storage area. A part of each of the stored frame image data can be overwritten.
[0047]
The information processing apparatus may further include a second storage unit that stores the additional information, and the control unit stores the additional information stored in the second storage unit in each of the additional information stored in the first image storage area. Can be overwritten on a part of the frame image data.
[0048]
The first storage means may further include a second image storage area for storing image information displayed in a display method different from the frame image data stored in the first image storage area. Can be.
[0049]
In the second image processing apparatus of the present invention, information relating to an image is stored, writing and reading of the information are controlled, and a first image storage area for sequentially storing continuous frame image data is provided. Is overwritten on a part of each frame image data stored in the first image storage area.
[0050]
According to a second image processing method of the present invention, a storage step of sequentially storing continuous frame image data in an information storage area, and additional information added and displayed on an image corresponding to the frame image are stored in the storage step. Overwriting a part of each of the frame image data stored in the information storage area.
[0051]
According to a second program of the present invention, a storage step of sequentially storing continuous frame image data in an information storage area, and additional information added and displayed on an image corresponding to the frame image, Overwriting a part of each frame image data stored in the storage area.
[0052]
In the second image processing method and the program according to the present invention, continuous frame image data is sequentially stored in the information storage area, and additional information to be added and displayed on an image corresponding to the frame image is stored in the information storage area. A part of each of the stored frame image data is overwritten.
[0053]
BEST MODE FOR CARRYING OUT THE INVENTION
Embodiments of the present invention will be described below. In order to clarify the correspondence between each means and each step of the invention described in the claims and the following embodiments, each means and each step will be described. When the features of the present invention are described by adding corresponding embodiments (however, examples) in parentheses later, the following is achieved. However, of course, this description does not mean that each means and each step are limited to those described.
[0054]
The image processing apparatus according to claim 1 (for example, the television receiver 151 in FIG. 7) includes a first storage unit (for example, a display image memory 174 in FIG. 8) for storing information regarding an image, and a first storage unit. Control means (for example, the control unit 172 in FIG. 8) for controlling writing and reading of information to and from the storage means, wherein the first storage means stores image information corresponding to an image which is moved or scaled and displayed. Are stored (for example, the still image storage area 103 for the index screen in FIG. 9 or the moving image storage area 211 for the index screen in FIG. 13), and the control unit is moved or scaled. The additional information (for example, channel number, logo mark, EPG, etc.) added and displayed on the image to be displayed is displayed in the image information stored in the first image storage area. Wherein the overwriting section.
[0055]
In the image processing apparatus according to the second aspect, the first storage unit further has an additional information storage area for storing additional information (for example, the additional information storage area 201 in FIG. 9 or 13), and the control unit includes The additional information stored in the additional information storage area is overwritten on a part of the image information stored in the first image storage area.
[0056]
The image processing apparatus according to a third aspect further includes a second storage unit (for example, the additional information memory 173 in FIG. 8) for storing the additional information, and the control unit is configured to store the additional information by the second storage unit. The information is overwritten on a part of the image information stored in the first image storage area.
[0057]
The image processing apparatus according to claim 4, wherein the first image storage area (for example, the index screen still image storage area 103 in FIG. 9) stores a plurality of still images, and the control unit controls the first image storage area. The additional information is overwritten on a part of each of the plurality of still images stored in the storage area.
[0058]
The image processing apparatus according to claim 5, wherein the continuous frame image data is sequentially stored in the first image storage area (for example, the index screen moving image storage area 211 in FIG. 13), During the process of writing the information of the blanking section into the first storage means, additional information is overwritten on a part of each frame image data.
[0059]
7. The image processing apparatus according to claim 6, wherein the first storage unit stores image information displayed by a display method different from image information stored in the first image storage area. An area (for example, a main video signal storage area 101 in FIG. 9) is further provided.
[0060]
The image processing method according to claim 7 and the program according to claim 8, wherein a storage step of storing image information corresponding to an image displayed after being moved or scaled in an information storage area (for example, a step in FIG. 10) The processing in S2 or the processing in step S52 in FIG. 14) and the additional information added and displayed on the image displayed after being moved or scaled are stored in the information storage area by the processing in the storage step. It is characterized by including an overwriting step of overwriting a part of the image information (for example, the processing of step S5 in FIG. 10 or the processing of step S55 in FIG. 14).
[0061]
The image processing apparatus according to claim 9 (for example, the television receiver 151 in FIG. 7) includes a first storage unit (for example, a display image memory 174 in FIG. 8) for storing information about an image, and a first storage unit. A control unit (for example, a control unit 172 in FIG. 8) for controlling writing and reading of information to and from the storage unit, wherein the first storage unit includes a first image storage area for sequentially storing continuous frame image data (For example, the main video signal storage area 101 in FIG. 9 or 13, the sub video signal storage area 102 in FIG. 9 or 13, or the index screen moving image storage area 211 in FIG. 13), The control means stores additional information (for example, a channel number, a logo mark, an EPG, etc.) added and displayed on the image corresponding to the frame image data in the first image image storage area. Wherein the overwriting some of the pay each frame image data.
[0062]
In the image processing apparatus according to the eleventh aspect, the first storage unit further has an additional information storage area for storing additional information (for example, the additional information storage area 201 in FIG. 9 or FIG. 13), The additional information stored in the additional information storage area is overwritten on a part of each frame image data stored in the first image storage area.
[0063]
The image processing apparatus according to claim 12, further comprising a second storage unit (for example, an additional information memory 173 in FIG. 8) for storing additional information, wherein the control unit is configured to store the additional information stored in the second storage unit. The information is overwritten on a part of each frame image data stored in the first image storage area.
[0064]
14. The image processing apparatus according to claim 13, wherein the first storage unit stores image information displayed by a display method different from the frame image data stored in the first image storage area. A storage area (for example, a still image storage area for index screen 103 in FIG. 9) is further provided.
[0065]
The image processing method according to claim 14 and the program according to claim 15 include a storage step of sequentially storing continuous frame image data in an information storage area (for example, the processing of step S22 in FIG. 12), An overwriting step (for example, step S25 in FIG. 12) in which the additional information added and displayed on the corresponding image overwrites a part of the respective frame image data stored in the information storage area by the processing of the storing step. ).
[0066]
Hereinafter, embodiments of the present invention will be described with reference to the drawings.
[0067]
FIG. 7 is a block diagram illustrating a configuration of a television receiver 151 to which the present invention has been applied.
[0068]
Parts corresponding to those in the conventional case described with reference to FIG. 4 are denoted by the same reference numerals, and description thereof will be omitted as appropriate.
[0069]
That is, the television receiver 151 of FIG. 7 to which the present invention is applied is provided with a system controller 161 instead of the system controller 41, and provided with an image processing unit 163 instead of the image processing unit 45. Antennas 42-3 and 42-4 for receiving digital broadcast waves, tuner 43-3 and tuner 43-4 for selecting digital broadcast waves to be received based on control of system controller 161, and received digital broadcast waves It has basically the same configuration as the television receiver 1 described with reference to FIG. 4 except that a decoding unit 162-1 and a decoding unit 162-2 for decoding a broadcast wave video signal are newly provided. Things.
[0070]
In the television receiver 151, the display screen displayed on the display unit 12 in the scroll index display mode is the same as the conventional screen described with reference to FIGS. 2 and 3, and therefore the description is omitted.
[0071]
2 and 3, a case where a vertically long scroll index display area 22 is provided beside the main image display area 21 and the scroll index displayed in the scroll index display area 22 is vertically scrolled will be described. However, for example, a horizontally long scroll index display area 22 is provided above or below the main image display area 21 to display a plurality of still images corresponding to counter-programs in the horizontal direction and display them in the scroll index display area 22. The scroll index that has been set may be scrolled in the horizontal direction.
[0072]
The system controller 161 determines, for example, a broadcast channel received by the tuners 43-1 to 43-4 based on a signal received by the infrared receiving unit 11 and indicating an operation input performed by the user using the remote commander 2. And the processing executed by the image processing unit 163 is controlled.
[0073]
The tuner 43-3 receives the digital broadcast wave of the channel designated as the channel to be displayed on the main screen such as the main image display area 21 via the antenna 42-3 under the control of the system controller 161, and decodes the digital broadcast wave. To the unit 162-1. The tuner 43-4 receives a digital broadcast wave of a channel designated as a channel to be displayed on a sub screen such as the scroll index display area 22 via the antenna 42-4 under the control of the system controller 161, and decodes it. To the unit 162-2. In a display mode having only one sub-screen, such as a two-screen display, the tuner 43-4 receives only digital broadcast waves of the channel specified as the sub-screen, but the scroll index display mode is instructed. In this case, digital broadcast waves of all the channels that may be displayed in the scroll index display area 22 are sequentially received.
[0074]
The decoding unit 162-1 and the decoding unit 162-2 receive the input of the digital broadcast signal, decode the signal into a predetermined format, and execute a process of descrambling as necessary.
[0075]
The image processing unit 163 performs a process of converting or combining the supplied image data into image data corresponding to an image displayed on the display unit 12 based on the control of the system controller 161. FIG. 8 is a block diagram showing a detailed configuration of the image processing unit 163 of FIG.
[0076]
Parts corresponding to those in the related art described with reference to FIG. 5 are denoted by the same reference numerals, and description thereof will be omitted as appropriate.
[0077]
That is, the image processing unit 163 is provided with a screen division processing unit 171 in place of the screen division processing unit 62, a control unit 172 in place of the control unit 63, and a display image memory 174 in place of the memory 66. 5 except that the additional information memory 173 and the drive 175 are provided if necessary, and the OSD microcomputer 64 and the high-speed switch IC 65 are omitted. It has the same configuration as that of FIG.
[0078]
Further, the screen division processing unit 171 is provided with a memory controller 192 instead of the memory controller 95. The memory controller 191 which newly executes a process of storing information in the additional information memory 173 or reading information is provided. Except for being provided, it has basically the same configuration as the screen division processing unit 62 in FIG.
[0079]
The AD converter 61-1 receives the supply of the analog component signal from the Y / C separation and chroma decoding unit 44-1 and converts the analog component signal into a digital signal, and sends the digital signal to the main image data enlargement / reduction processing unit 91 of the screen division processing unit 171. Supply. Further, the main image data enlargement / reduction processing unit 91 receives supply of the image data decoded by the decoding unit 162-1. The AD converter 61-2 receives the supply of the analog component signal from the Y / C separation and chroma decoding unit 44-2, converts the signal into a digital signal, and supplies the digital signal to the sub-image data enlargement / reduction processing unit 92 of the screen division processing unit 171. Supply. Further, the sub-image data enlargement / reduction processing unit 92 receives supply of the image data decoded by the decoding unit 162-2.
[0080]
The control unit 172 controls the operations of the screen division processing unit 171 and the OSD 69 based on a control signal supplied from the controller 161. The control unit 172 controls, for example, the memory controller 192 of the screen division processing unit 171 to store information stored in a predetermined area of the display image memory 174 (an additional information storage area 201 described later with reference to FIG. 9). Then, a process of writing information stored in another area of the display image memory 174 (an index screen still image storage area 103 described later with reference to FIG. 9) can be executed.
[0081]
A drive 175 is connected to the control unit 172 as needed, and information is exchanged with an optical disk 181, a magnetic disk 182, a magneto-optical disk 183, or a semiconductor memory 184 mounted on the drive 175. It has been made.
[0082]
The main image data enlargement / reduction processing unit 91 of the screen division processing unit 171 changes the size of the display image based on the supplied digital signal based on the control of the control unit 172 to the size of the main screen in the display mode specified by the user. A process for changing the timing is changed and output to the screen synthesizing unit 96 or supplied to the memory controller 192 via the memory bus 93 and stored in the display image memory 174.
[0083]
The sub-image data enlargement / reduction processing unit 92 of the screen division processing unit 171 adjusts the size of the display image based on the supplied digital signal based on the control of the control unit 172 to the size of the sub-screen in the display mode instructed by the user. A process for changing the timing is changed and output to the screen synthesizing unit 96, to the still image extracting unit 94 via the memory bus 93, or to the memory controller 192 via the memory bus 93. Is stored in the display image memory 174. When the scroll index display mode is instructed, the sub-image data enlargement / reduction processing unit 92 receives the supply of the image data of all the channels that may be displayed in the scroll index display area 22. For the image data, a process of sequentially changing the size of the display screen according to the size of the sub-screen and outputting the image data is executed.
[0084]
The still image extracting unit 94 acquires the image data that has been subjected to the scaling processing by the sub image data scaling processing unit 92 via the memory bus 93, and outputs one frame every predetermined time, that is, a still image. The extracted image is supplied to the screen synthesizing unit 96 or supplied to the memory controller 192 via the memory bus 93, and is stored in the display image memory 174.
[0085]
The memory controller 192 stores the supplied image data in a predetermined area of the display image memory 174 or supplies the memory controller 191 via the memory bus 93 with the additional information read from the additional information memory 173 by processing. Upon receiving the image data, a process of storing the image data in a predetermined area of the display image memory 174 or reading image data stored in the display image memory 174 and outputting the image data to the screen synthesizing unit 96 is performed.
[0086]
The additional information memory 173 stores information to be added to the displayed screen and displayed, such as a channel number, a logo mark indicating a broadcast station, and an EPG (Electrical Program Guide) indicating the content of the program. .
[0087]
The memory controller 191 stores information in the additional information memory 173 or reads information stored in the additional information memory 173 based on the control of the control unit 172, and reads the information stored in the additional information memory 173 via the memory bus 93. 192 is executed.
[0088]
FIG. 9 shows a memory map of the display image memory 174.
[0089]
The display image memory 174 has been read from the additional information memory 173 in addition to the main video signal storage area 101, the sub video signal storage area 102, and the plurality of index screen still image storage areas 103. An additional information storage area 201 for storing additional information is prepared. The main video signal storage area 101 stores, for example, image data displayed on a main screen such as the main image display area 21. The sub video signal storage area 102 stores, for example, image data displayed on a single sub screen in a two-screen display mode or the like. The index screen still image storage area 103 stores image data to be displayed on a sub-screen composed of a plurality of images such as the scroll index display area 22. In the index screen still image storage area 103, an area from which image data is being read is referred to as a read area 104.
[0090]
The control unit 172 controls the memory controller 192 to read the additional information storage area 201 from the additional information memory 173 such as a channel number, a logo mark indicating a broadcast station, and an EPG indicating the contents of a program. The additional information is stored, and among the information stored in the additional information storage area, additional information corresponding to each of the image data stored in the index screen still image storage area 103 is stored in the index screen still image storage area. A predetermined position corresponding to a position to be displayed on the sub screen in the area 103 is directly overwritten. Therefore, after the overwriting process is completed, the index screen still image in which the additional information such as the channel number has already been overwritten is stored in the index screen still image storage area 103.
[0091]
For example, as shown in FIG. 9A, among the index screen still image storage areas 103 included in the read area 104, the index screen still image storage areas 103-1 to 103-1 included in the read area 104. When the still image storage area 103-4 has been read, it is assumed that still images corresponding to channel 1, channel 3, channel 4, and channel 6 are displayed in the scroll index display area 22. .
[0092]
In this state, when the user uses the remote commander 2 to perform a scroll operation for viewing the screen displayed at the lower part of the scroll index display area 22, the read data included in the read area 104 is read. The position is shifted by one line or several lines, and as shown in FIG. 9B, the position of the readout area 104 shifts, and the index screen still image storage area 103-1 is shifted from the middle of the index screen still image storage area 103-1. Part of the storage area 103-5 is read. Therefore, a part of the still image corresponding to channel 1 displayed at the top of the scroll index display area 22 deviates from the scroll index display area 22, and the lower part of the scroll index display area 22 corresponds to channel 8. Part of the still image to be displayed.
[0093]
At this time, since the additional information stored in the additional information storage area 201 is overwritten on each of the read still images in the index screen still image storage area 103, the respective still images displayed by scrolling are displayed. At the same time, additional information such as a channel number is smoothly moved and displayed.
[0094]
By doing so, the additional information corresponding to the still image for the index screen is made to follow the movement of the index screen in the display image memory 174 without performing complicated processing and without deteriorating the image. Image data that can be moved smoothly.
[0095]
Returning to the description of FIG. The screen synthesizing unit 96 receives the image data supplied from the memory controller 192 via the memory bus 93 or the main image data enlarging / reducing processing unit 91, the sub image data enlarging / reducing processing unit 92, or the still image extracting unit 94. The supplied image data is synthesized based on the display mode instructed by the user, and is supplied to the image quality adjusting unit 67.
[0096]
The image quality adjusting unit 67 adjusts the image quality of the supplied composite image and supplies the adjusted image to the OSD combining unit 68. The OSD 69 outputs information to be superimposed on the display image to the OSD combining unit 68 based on the control of the control unit 172. The OSD synthesizing unit 68 synthesizes the superimposition information output by the OSD 69 with the supplied image data, and outputs the synthesized image data.
[0097]
The display unit 12 shown in FIG. 7 displays digital data such as an LCD (Liquid Crystal Display) or a PDP (Plasma Display Panel) on the image data output from the OSD synthesizing unit 68 in the same manner as in the related art. Is output directly to the display unit 12 when the display unit 12 is capable of displaying analog data such as a CRT (Cathode Ray Tube). The display unit 12 outputs the image corresponding to the supplied image data after being output to the DA converter 46 and converted to an analog signal, and then output to the display unit 12.
[0098]
In FIG. 8, it goes without saying that part or all of the image quality adjustment unit 67, the OSD 69, or the OSD synthesis unit 68 may be configured inside the screen division processing unit 172. For example, when the image quality adjusting unit 67, the OSD 69, or the OSD synthesizing unit 68 is configured inside the screen division processing unit 172, the processing from the screen division to the superimposition of the OSD is performed by one-chip IC or LSI. It can be realized by.
[0099]
Next, a scroll index display process 1 executed by the television receiver 151 to which the present invention is applied will be described with reference to flowcharts of FIGS.
[0100]
In step S1, the system controller 161 receives a scroll index display command from the remote commander 2 via the infrared receiving unit 11.
[0101]
In step S2, the control unit 172 of the image processing unit 163 extracts, in the index screen still image storage area 103 of the display image memory 174, the processing by the screen division processing unit 171 under the control of the system controller 161. The process of writing a still image for the index screen is started. This processing is continued until it is determined in the processing of step S10 to be described later that the operation of ending the scroll index display has been received.
[0102]
In step S3, the control unit 172 controls the memory controller 191 to display, from the additional information memory 173, a scroll index display area 22 such as a channel number, a logo mark indicating a broadcast station, and an EPG indicating the contents of a program. The additional information to be displayed together with the still image is read.
[0103]
In step S4, the control unit 172 controls the memory controller 192 to write the additional information read in step S3 in the additional information storage area 201 of the display image memory 174.
[0104]
In step S5, the control unit 172 controls the memory controller 192 to correspond to a still image to be displayed in the scroll index display area 22 among the additional information stored in the additional information storage area 201 of the display image memory 174. The information is written (overwritten) in a predetermined portion of the index screen still image storage area 103 stored in the display image memory 174. This processing is continued until it is determined in the processing of step S10 to be described later that the operation of ending the scroll index display has been received. That is, a new still image is written into the index screen still image storage area 103 at regular time intervals by the process of step S2, so that the additional information is overwritten each time with a new still image.
[0105]
In step S6, the control unit 172 controls the memory controller 192 to store the additional information in the scroll index display area 22 in the index screen still image storage area 103 in which the additional information is stored. Read the information to be displayed.
[0106]
In step S7, the control unit 172 supplies the information of the index screen still image storage area 103 in which the additional information is written, read in step S6, to the screen combining unit 96 via the memory bus 93. The screen combining unit 96 combines the supplied information of the index screen still image storage area 103 with the image data to be displayed on the main image data enlargement / reduction processing unit 91 or the main image display area supplied from the display image memory 174. Then, the image is output to the image quality adjustment section 67.
[0107]
In step S <b> 8, the image quality adjustment unit 67 performs image quality adjustment on the supplied combined image and outputs the resultant image to the OSD combination unit 68. The OSD synthesis unit 68 superimposes the information supplied from the OSD 69 on the supplied image as necessary.
[0108]
In step S9, the display unit 12 receives the supply of the digital image data output from the image processing unit 163 or the analog image data output from the image processing unit 163 and converted to analog data by the DA converter 46, and Displays a display screen consisting of a screen and a scroll index.
[0109]
In step S10, the system controller 161 determines whether or not the user has received an operation to end the scroll index display based on a signal supplied from the remote commander 2 via the infrared receiver 11.
[0110]
When it is determined in step S10 that the operation of ending the scroll index display has not been received, in step S11, the system controller 161 determines, based on the signal supplied from the remote commander 2 via the infrared receiving unit 11, It is determined whether or not a scroll index scroll operation has been received from the user. If it is determined in step S11 that the scroll operation of the scroll index has not been received, the process returns to step S10, and the subsequent processes are repeated.
[0111]
If it is determined in step S11 that the scroll operation of the scroll index has been received, the control unit 172 determines in step S12 from the index screen still image storage area 103 of the display image memory 174 based on the control of the system controller 161. The data to be read is read by shifting one line or several lines in accordance with the user's operation input. After the processing in step S12 ends, the processing returns to step S7, and the subsequent processing is repeated.
[0112]
If it is determined in step S10 that the operation of ending the scroll index display has been received, the processing is ended.
[0113]
By such processing, simple processing can be performed without performing processing for superimposing character information or the like on an analog image signal before image processing using a dedicated microcomputer or a high-speed switch IC as in the related art. Thus, additional information to be displayed together with the still image in the scroll index display area 22, such as a channel number, a logo mark indicating a broadcast station, and an EPG indicating the content of a program, can be written into the digital image signal.
[0114]
Therefore, by applying the present invention, even when a broadcast wave of not only an analog signal but also a digital signal can be received, deterioration of an image due to conversion from a digital signal to an analog signal or from an analog signal to a digital signal. The information added to the moving image can be smoothly moved and displayed by following the movement of the image without causing the image. In addition, by using the configuration of the present invention, it is possible to omit a dedicated microcomputer, a high-speed switch IC, and the like used in the conventional device, so that the device can be reduced in size and cost can be reduced.
[0115]
In the above, in the scroll index display mode, the case has been described where the additional information accompanying the display of the scroll index with respect to the main screen is smoothly moved and displayed. The present invention can be applied to various cases in which additional information is smoothly moved and displayed. Furthermore, the present invention changes the size of the additional information according to the size of the screen when the size of one or both screens can be freely changed, for example, in a two-screen mode. It is also applicable when it is possible to do so.
[0116]
For example, one or both of the image data stored in the main video signal storage area 101 and the sub video signal storage area 102 of the display image memory 174 shown in FIG. For example, by writing information such as a channel number, a logo mark indicating a broadcasting station, an EPG indicating the content of a program, and displaying the image data on which the information is written in an enlarged or reduced manner, In the two-screen mode based on the image data stored in the video signal storage area 101 and the sub video signal storage area 102, if one or both screens can be freely changed in size, the screen , The size of the additional information can be smoothly changed.
[0117]
The present invention is also applicable to a case where additional information is displayed on a moving image displayed by image data stored in the main video signal storage area 101 or the sub video signal storage area 102. Overwriting the additional information stored in the additional information storage area 201 with the frame image data for moving image display stored in the main video signal storage area 101 or the sub video signal storage area 102, respectively. Accordingly, the moving image can be displayed with additional information added thereto. In this case, not only the moving image whose size and display position are fixed, but also when the moving image is moved or displayed with its size changed, the moving image is adjusted according to the position and size of the screen. It is possible to add additional information to the image and display it.
[0118]
That is, the control unit 172 controls the memory controller 192 to read the additional information storage area 201 from the additional information memory 173 such as a channel number, a logo mark indicating a broadcast station, and an EPG indicating the contents of a program. The stored additional information is stored, and the frame image data corresponding to the moving image data to be displayed is sequentially (one frame or several frames) stored in the main video signal storage area 101 or the sub video signal storage area 102. A process of sequentially reading the stored and written frame image data one frame at a time is executed.
[0119]
Since the frame image data includes information on a blanking section that is not actually displayed, the control unit 172 stores the information in the additional information storage area 201 during the blanking section storing process. In the information, additional information corresponding to each of the frame image data stored in the main video signal storage area 101 or the sub video signal storage area 102 is provided in a predetermined format corresponding to the position to be displayed on the display screen. Overwrite the position directly.
[0120]
After the overwriting process for each frame is completed, the main video signal storage area 101 or the sub-video signal storage area 102 stores, for example, a frame image that constitutes a moving image in which additional information such as a channel number has already been overwritten. Data is stored. Therefore, the displayed moving image includes the additional information.
[0121]
Next, the additional information display processing for a moving image will be described with reference to the flowchart in FIG. Here, a case will be described where the additional information is displayed on the moving image displayed in the main image display area 21 by overwriting the frame image data written in the main video signal storage area 101 with the additional information. Note that, for example, when the additional information is displayed on the sub-image in the two-screen display by overwriting the frame image data written in the sub-video signal storage area 102 with the additional information, basically the same processing is performed. Is executed, and a description thereof will be omitted.
[0122]
In step S21, the system controller 161 receives a command to display, for example, additional information for a moving image displayed in the main image display area 21 from the remote commander 2 via the infrared receiving unit 11.
[0123]
In step S22, the control unit 172 of the image processing unit 163 generates the image data in the main video signal storage area 101 of the display image memory 174 by the processing of the screen division processing unit 171 under the control of the system controller 161. A process for writing frame image data constituting a moving image is started.
[0124]
In step S23, the control unit 172 controls the memory controller 191 to store, from the additional information memory 173, a main image display area 21 such as a channel number, a logo mark indicating a broadcast station, and an EPG indicating the contents of a program. The additional information to be added to and displayed on the displayed moving image is read.
[0125]
In step S24, the control unit 172 controls the memory controller 192 to write the additional information read in step S23 into the additional information storage area 201 of the display image memory 174.
[0126]
In step S25, the control unit 172 controls the memory controller 192 to add the display image memory 174 during the processing of the vertical blanking interval data of the frame image data stored in the main video signal storage area 101. The corresponding information among the additional information in the information storage area 201 is written (overwritten) in a predetermined portion of the frame image data in the main video signal storage area 101. This processing is continued for each frame until it is determined in the processing of step S30 to be described later that the operation of ending the display of the additional information on the moving image has been received. That is, since the continuous frame image data is sequentially written in the main video signal storage area 101, the additional information is also overwritten on all the frame image data each time.
[0127]
In step S26, the control unit 172 controls the memory controller 192 to read information stored in the display image memory 174 in the main video signal storage area 101 in which the additional information is written.
[0128]
In step S27, the control unit 172 supplies the information of the video signal storage area 101 in which the additional information is written, read in step S26, to the screen combining unit 96 via the memory bus 93. The screen combining unit 96 combines the supplied information of the main video signal storage area 101 with other image data as necessary, and outputs the combined information to the image quality adjusting unit 67.
[0129]
In step S28, the image quality adjustment unit 67 performs image quality adjustment on the supplied combined image, and outputs the resultant image to the OSD combination unit 68. The OSD synthesis unit 68 superimposes the information supplied from the OSD 69 on the supplied image as necessary.
[0130]
In step S29, the display unit 12 receives the supply of the digital image data output from the image processing unit 163 or the analog image data output from the image processing unit 163 and converted to analog data by the DA converter 46, and A display screen to which the additional information is added is displayed in the image display area 21.
[0131]
In step S30, the system controller 161 determines whether or not the user has received an operation to end the display of the additional information on the moving image based on the signal supplied from the remote commander 2 via the infrared receiving unit 11. I do.
[0132]
If it is determined in step S30 that the operation of ending the display of the additional information on the moving image has not been received from the user, the process returns to step S25, and the subsequent processes are repeated. That is, the corresponding additional information is overwritten on the sequentially stored frame image data for displaying the moving image, and the frame image data overwritten with the additional information is read and displayed.
[0133]
When the channel of the displayed program is changed, information such as a channel number corresponding to the displayed program, a logo mark indicating a broadcasting station, and an EPG indicating the content of the program are stored in the additional information by the processing in step S25. The data is read from the area 201 and is overwritten on a predetermined portion of each frame image data in the main video signal storage area 101.
[0134]
By such processing, the additional information stored in the additional information storage area 201 is converted into frame image data for displaying a moving image stored in the main video signal storage area 101 or the sub video signal storage area 102. Since each is overwritten, additional information can be added to a moving image and displayed. In this case, not only the moving image whose size and display position are fixed, but also when the moving image is moved or displayed with its size changed, the moving image is adjusted according to the position and size of the screen. It is possible to add additional information to the image and display it.
[0135]
Further, when the tuner 43-2 and the tuner 43-4 of FIG. 7 can receive a plurality of broadcast signals or have a plurality of tuners for receiving sub-images, the display image memory 174 In place of the index screen still image storage area 103 in FIG. 9, an index screen moving image storage area 211 is provided as shown in FIG. 13, and successive frame image data is sequentially stored in each area. By reading the frame image data in the read area 104 based on the instruction, the moving image may be displayed in the scroll index display area 22.
[0136]
Then, additional information corresponding to each frame image data stored in the index screen moving image storage area 211 may be overwritten for each frame. Since the frame image data includes information on a blanking section that is not actually displayed, the control unit 172 stores the information in the additional information storage area 201 during the blanking section storing process. Of the information, additional information corresponding to each of the frame image data stored in the index screen moving image storage area 211 is directly overwritten on a predetermined position corresponding to a position to be displayed on the display screen.
[0137]
For example, by sequentially reading out the image data included in the readout area 104 from the frame image data constituting the moving image on which the additional information such as the channel number has already been overwritten, the display is performed in the scroll index display area 22. Since the additional information can be displayed on the moving image to be displayed, even if the display of the scroll index display area 22 is instructed to scroll and the display position of the moving image is changed, the additional information is displayed together with the moving image. Information can be smoothly moved and displayed.
[0138]
Next, the scroll index display processing 2 when displaying a moving image in the scroll index display area 22 will be described with reference to the flowcharts of FIGS. 14 and 15.
[0139]
In step S51, the system controller 161 receives a scroll index display command from the remote commander 2 via the infrared receiver 11.
[0140]
In step S52, the control unit 172 of the image processing unit 163 stores the index extracted by the process of the screen division processing unit 171 in the index screen moving image storage area 211 of the display image memory 174 under the control of the system controller 161. A process of writing frame image data constituting a moving image for a screen is started. This process is continued until it is determined in the process of step S60 described later that the operation of ending the scroll index display has been received.
[0141]
In step S53, the control unit 172 controls the memory controller 191 to display, from the additional information memory 173, for example, a scroll index display area 22 such as a channel number, a logo mark indicating a broadcast station, and an EPG indicating the contents of a program. The additional information to be displayed together with the moving image is read.
[0142]
In step S54, the control unit 172 controls the memory controller 192 to write the additional information read in step S53 in the additional information storage area 201 of the display image memory 174.
[0143]
In step S55, the control unit 172 controls the memory controller 192 to correspond to the moving image to be displayed in the scroll index display area 22 among the additional information stored in the additional information storage area 201 of the display image memory 174. The information is written into a predetermined portion of each frame image data during the blanking interval storage processing of the frame image data recorded in the index screen moving image storage area 211 stored in the display image memory 174 (overwriting is performed). Do). This process is continued until it is determined in the process of step S60 described later that the operation of ending the scroll index display has been received. That is, new frame image data is written into the index screen moving image storage area 211 at regular intervals by the process of step S52, and the additional information is overwritten with new frame image data each time.
[0144]
In step S56, the control unit 172 controls the memory controller 192 to display in the scroll index display area 22 of the index screen moving image storage area 211 in which the additional information is stored, which is stored in the display image memory 174. Read the information to be made.
[0145]
In step S57, the control unit 172 supplies the information of the index screen moving image storage area 211 in which the additional information is written, read in step S56, to the screen combining unit 96 via the memory bus 93. The screen combining unit 96 combines the supplied information of the index screen moving image storage area 211 with the image data to be displayed on the main image display area supplied from the main image data enlargement / reduction processing unit 91 or the display image memory 174. And outputs it to the image quality adjustment section 67.
[0146]
In step S58, the image quality adjustment unit 67 performs image quality adjustment on the supplied composite image, and outputs the resultant image to the OSD synthesis unit 68. The OSD synthesis unit 68 superimposes the information supplied from the OSD 69 on the supplied image as necessary.
[0147]
In step S59, the display unit 12 receives the supply of the digital image data output from the image processing unit 163 or the analog image data output from the image processing unit 163 and converted into analog data by the DA converter 46, and Displays a display screen consisting of a screen and a scroll index.
[0148]
In step S60, the system controller 161 determines whether or not the user has received an operation to end the scroll index display based on the signal supplied from the remote commander 2 via the infrared receiver 11.
[0149]
If it is determined in step S60 that the operation for ending the scroll index display has not been received, the system controller 161 determines in step S61 based on the signal supplied from the remote commander 2 via the infrared receiving unit 11. It is determined whether or not a scroll index scroll operation has been received from the user. If it is determined in step S61 that the operation of scrolling the scroll index has not been received, the process returns to step S60, and the subsequent processes are repeated.
[0150]
When it is determined in step S61 that the scroll operation of the scroll index has been received, the control unit 172 reads out from the index screen moving image storage area 211 of the display image memory 174 under the control of the system controller 161 in step S62. The data is read by shifting one line or several lines according to the user's operation input. After the process in step S62 ends, the process returns to step S57, and the subsequent processes are repeated.
[0151]
If it is determined in step S60 that the operation for ending the scroll index display has been received, the process ends.
[0152]
By such processing, even in the case where a moving image is displayed on the scroll index, a moving image that moves without causing deterioration of the image due to conversion from a digital signal to an analog signal or from an analog signal to a digital signal. The information to be added can be smoothly moved and displayed by following the movement of the image.
[0153]
According to the above-described processing, a simple microcomputer or a high-speed switch IC is not used to superimpose character information or the like on an analog image signal before image processing as in the related art. In the processing, additional information to be displayed together with a display image, such as a channel number, a logo mark indicating a broadcast station, and an EPG indicating the content of a program, is written into a digital image signal for displaying a moving image or a still image. be able to.
[0154]
Therefore, by applying the present invention, even when a broadcast wave of not only an analog signal but also a digital signal can be received, deterioration of an image due to conversion from a digital signal to an analog signal or from an analog signal to a digital signal. Without causing the problem, it is possible to add predetermined information to the moving image and display it, or to smoothly display the information added to the moving image by following the movement of the image. In addition, by using the configuration of the present invention, it is possible to omit a dedicated microcomputer, a high-speed switch IC, and the like used in the conventional device, so that the device can be reduced in size and cost can be reduced.
[0155]
The series of processes described above can also be executed by software. The software is a computer in which a program constituting the software is built in dedicated hardware, or a general-purpose personal computer capable of executing various functions by installing various programs. For example, it is installed from a recording medium.
[0156]
As shown in FIG. 8, the recording medium is a magnetic disk 181 (including a flexible disk) on which the program is recorded, and an optical disk 182 (CD-ROM), which are distributed to provide the program to the user separately from the computer. ROM (compact disk-only only memory), DVD (including digital versatile disk), magneto-optical disk 183 (including MD (mini-disk) (trademark)), or package media including semiconductor memory 184 Is done.
[0157]
In this specification, the step of describing a program to be recorded on a recording medium may be performed in a chronological order in the order described, but is not necessarily performed in a chronological order. This also includes processes executed individually.
[0158]
【The invention's effect】
As described above, according to the present invention, it is possible to display the additional information together with the image. In particular, additional information that is added and displayed on an image that is moved or enlarged and displayed can be smoothly moved or enlarged and displayed together with the image.
[0159]
According to another aspect of the present invention, it is possible to display additional information together with an image. In particular, information can be added to a moving image and displayed.
[Brief description of the drawings]
FIG. 1 is a diagram illustrating an external configuration of a television receiver and a remote commander.
FIG. 2 is a diagram for describing an index display mode.
FIG. 3 is a diagram for explaining an index display mode.
FIG. 4 is a block diagram showing a configuration of a conventional television receiver capable of executing an index display mode.
FIG. 5 is a block diagram illustrating a configuration of an image processing unit in FIG. 4;
FIG. 6 is a diagram for explaining a memory map of the memory in FIG. 5;
FIG. 7 is a block diagram illustrating a configuration of a television receiver to which the present invention has been applied.
FIG. 8 is a block diagram illustrating a configuration of an image processing unit in FIG. 7;
FIG. 9 is a diagram for explaining a memory map of a display image memory of FIG. 8;
FIG. 10 is a flowchart for explaining scroll index display processing 1;
FIG. 11 is a flowchart for explaining scroll index display processing 1;
FIG. 12 is a flowchart for describing additional information display processing for a moving image.
FIG. 13 is a diagram for explaining a different form of the memory map of the display image memory of FIG. 8;
FIG. 14 is a flowchart illustrating a scroll index display process 2;
FIG. 15 is a flowchart illustrating scroll index display processing 2;
[Explanation of symbols]
12 display section, 21 main image display area, 22 scroll index display area, 91 main image data enlargement / reduction processing section, 92 sub image data enlargement / reduction processing section, 96 screen synthesis section, 101 main video signal storage area, 102 sub Storage area for video signal 103, still image storage area for index screen, 104 readout area, 161 system controller, 163 image processing section, 171 screen division processing section, 172 control section, 173 additional information memory, 174 display image memory, 191 , 192 memory controller, 201 additional information storage area, 211 index screen moving image storage area

Claims (15)

In an image processing device that processes information corresponding to an image to be displayed,
First storage means for storing information about the image;
Control means for controlling writing and reading of information to and from the first storage means,
The first storage unit has a first image storage area for storing image information corresponding to an image displayed while being moved or scaled,
The control means overwrites additional information which is added and displayed on the image which is moved or scaled and displayed on a part of the image information stored in the first image storage area. An image processing apparatus, comprising: The first storage unit further includes an additional information storage area for storing the additional information,
2. The apparatus according to claim 1, wherein the control unit overwrites the additional information stored in the additional information storage area on a part of the image information stored in the first image storage area. An image processing apparatus according to claim 1. A second storage unit for storing the additional information;
The control means overwrites the additional information stored by the second storage means on a part of the image information stored in the first image storage area. 2. The image processing device according to 1. The first image storage area stores a plurality of still images,
2. The image processing apparatus according to claim 1, wherein the control unit overwrites a part of each of the plurality of still images stored in the first image storage area with the additional information. In the first image storage area, continuous frame image data is sequentially stored,
The control unit overwrites the additional information on a part of each of the frame image data during a process of writing information of the blanking section of the frame image data into the first storage unit. The image processing apparatus according to claim 1, wherein: The first storage unit further includes a second image storage area for storing image information displayed in a display method different from the image information stored in the first image storage area. The image processing device according to claim 1. In an image processing method for performing a process of displaying information stored in an information storage area,
A storage step of storing image information corresponding to an image displayed as being moved or scaled in the information storage area,
An overwriting step of overwriting additional information that is added and displayed on the image that is moved or scaled up and displayed, on a part of the image information stored in the information storage area by the processing of the storing step An image processing method comprising: A program that causes a computer to execute a process of displaying information stored in an information storage area,
A storage step of storing image information corresponding to an image displayed as being moved or scaled in the information storage area,
An overwriting step of overwriting additional information that is added and displayed on the image that is moved or scaled up and displayed, on a part of the image information stored in the information storage area by the processing of the storing step And a program comprising: In an image processing device that processes information corresponding to an image to be displayed,
First storage means for storing information about the image;
Control means for controlling writing and reading of information to and from the first storage means,
The first storage unit has a first image storage area for sequentially storing continuous frame image data,
The control means overwrites additional information added and displayed on an image corresponding to the frame image data with a part of each of the frame image data stored in the first image image storage area. An image processing apparatus, comprising: The control unit overwrites the additional information on a part of each of the frame image data during a process of writing information of the blanking section of the frame image data into the first storage unit. The image processing apparatus according to claim 9, wherein: The first storage unit further includes an additional information storage area for storing the additional information,
The control means overwrites the additional information stored in the additional information storage area on a part of each of the frame image data stored in the first image storage area. Item 10. The image processing device according to item 9. A second storage unit for storing the additional information;
The control unit overwrites the additional information stored by the second storage unit on a part of each of the frame image data stored in the first image storage area. The image processing device according to claim 9. The first storage unit further includes a second image storage area for storing image information displayed in a display method different from the frame image data stored in the first image storage area. The image processing device according to claim 9. In an image processing method for performing a process of displaying information stored in an information storage area,
A storage step of sequentially storing continuous frame image data in the information storage area,
An overwriting step of overwriting additional information added and displayed on an image corresponding to the frame image to a part of each of the frame image data stored in the information storage area by the processing of the storing step; An image processing method comprising: A program that causes a computer to execute a process of displaying information stored in an information storage area,
A storage step of sequentially storing continuous frame image data in the information storage area,
An overwriting step of overwriting additional information added and displayed on an image corresponding to the frame image to a part of each of the frame image data stored in the information storage area by the processing of the storing step; A program characterized by including:

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