JP3883940B2 - Image display system - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an image display system including an image signal generation device and an image display device. More specifically, the present invention relates to an image signal generation device having a predetermined format used in a personal computer (PC), a liquid crystal panel, and a CRT. , An image display system including an image display device including a display device such as a digital micromirror device (DMD), a plasma display (PDP), or a field emission display (FED), and Specifically, the present invention relates to an image display system having a multi-screen display function for displaying a predetermined image as a large screen with high definition by installing a plurality of image display devices.
[0002]
[Prior art]
Conventionally, the control operation until the composite signal added with the index signal is sent from the image signal sending device and displayed on the image display device is performed based on the vertical synchronization signal output from the image signal sending device, In order to update the display image displayed on the image display device, the vertical synchronization period requires at least three frames.
[0003]
FIG. 12 is an explanatory diagram specifically showing the operation of the index in the prior art. That is, this figure shows the update timing of the display image disclosed in Japanese Patent Laid-Open No. 5-249932 in an easy-to-understand manner. The internal operation of the image display device and the internal operation of the image signal transmission device until the display image of one image display device is updated are based on the vertical synchronization signal output from the image signal transmission device. It can be seen that a period of 3 frames is required as the image update period. Furthermore, as the number of image display devices specified by the index signal (ID signal) increases, the display image update period of one image display device becomes longer. When the image update period becomes longer as described above, there is a problem that the motion of the moving image becomes discontinuous when displaying an image that requires smooth movement such as moving image display.
[0004]
Next, the operation of the image display system that handles the index signal and the index signal discriminating means disclosed in Japanese Patent Laid-Open No. 2000-352962 will be described. FIG. 1 is a configuration diagram of a conventional image display system including an image signal generator and an image display device. That is, this figure is a conceptual diagram schematically showing an image display system that handles index signals. A plurality of image display devices 202 are electrically connected to the image signal generating device 201 by communication cables or the like, and each image display device 202 has image display device numbers 1 to n, respectively. The image signal generation device 201 provides a net image signal that is actually displayed to the image display unit of each image display device 202, a synchronization signal corresponding to the net image signal, and a part of the net image signal. The transmission index signal added by replacing is output. In the following description, signals output from the image signal generator 201 are collectively referred to as a composite signal.
[0005]
The composite signal output from the image signal generator 201 is given to each image display device 202 in parallel. Each image display device 202 separates the received composite signal into a net image signal, a synchronization signal, and an index signal. The image display device 202 in which the image display device numbers 1, 2,... N set in each image display device 202 and the index signal are matched is included in the frame having the image display device number from the received image signal. The net image signal to be displayed is displayed on the image display unit of the image display device 202. The above is the operation of the image display system that handles the index signal in Japanese Patent Laid-Open No. 2000-352962.
[0006]
FIG. 2 is a timing chart of each signal when the index signal is added by replacing a part of the image signal in the conventional image display system shown in FIG. That is, this figure shows time on the horizontal axis and signal level on the vertical axis, and the vertical sync signal, horizontal sync signal in one frame period, and the index signal in the image display period in the image signal are part of the image signal. It is explanatory drawing which shows the timing of the image signal replaced and added.
[0007]
FIG. 3 is an explanatory view showing an index signal added by replacing a part of the image signal with 8 pixels in the conventional image display system shown in FIG. 1, and FIG. 4 is a diagram showing the conventional image shown in FIG. In a display system, it is explanatory drawing which showed the index signal added by replacing a part of image signal with 8 pixels and 1 parity. In FIGS. 3 and 4, a circle represents one pixel. That is, the index signal in FIG. 3 is composed of 8 pixels located at a predetermined position in the image period (here, on a certain line on the display screen). Further, the index signal in FIG. 4 is configured by adding parity for one pixel after eight pixels.
[0008]
The operation of extracting the index signal of FIGS. 3 and 4 will be described with reference to the timing chart of FIG. 2. The synchronization signal (vertical synchronization signal, horizontal synchronization signal) is used as a timing reference (position reference on the time axis) in advance. An index signal at a predetermined position is determined from the image signal, and the received index signal is extracted to update the display image.
[Patent Document 1]
Japanese Patent Laid-Open No. 2000-352962 (FIG. 1, paragraph 0030, first to eleventh lines)
[0009]
[Problems to be solved by the invention]
However, in the display image update control in the prior art, all control operations determine the index signal from the image signal using the vertical synchronization signal as a timing reference (position reference on the time axis). For this reason, the display image of the image display device cannot be updated unless a certain period of time elapses. Therefore, since the display content is frozen until the display image of the image display device is updated, it is not suitable for displaying an image that requires a smooth movement such as a moving image.
[0010]
The present invention has been made in view of the above-described problems. The object of the present invention is to add an index signal without waiting for the next vertical synchronization signal when an index signal added to an image signal is determined. Another object of the present invention is to provide an image display system capable of shortening the update time of a display image by controlling to display an image from the next line without displaying another line.
[0011]
[Means for Solving the Problems]
In order to achieve the above object, an image display system according to a first aspect of the present invention is an image display system having a plurality of image display devices and having a multi-screen display function. Image signal receiving means for receiving a composite signal including a synchronization signal corresponding to the signal, and an index signal added by replacing a part of the image signal to an arbitrary image frame of the image signal; and the image signal receiving means An effective display area reproduction means for reproducing and outputting an effective display area signal from the image signal and the synchronization signal output from the image signal, an index signal is determined from the effective display area signal and the image signal, and the determined index signal Index discriminating means for outputting the image display device number and the image display device number setting for outputting the image display device number set for the own device. Means for selecting an image frame included in the image signal based on the index signal output from the index determination unit and the image display device number of the own device output from the image display device number setting unit. Index determination means for outputting a frame selection signal, frame selection means for selecting an image frame included in the image signal in accordance with the frame selection signal output by the index determination means, and an image output from the frame selection means An image signal storage means for storing an image signal corresponding to a frame, and an image signal write start signal for controlling to start storing the image signal in the image signal storage means based on the determination result of the index determination means The image signal writing control means for outputting, and the image signal writing start signal An image signal read control means for outputting an image signal read signal so as to output the image signal stored in the image signal storage means, and an image signal corresponding to the image frame acquired from the image signal storage means. An image display means for displaying, wherein the image signal write control means and the image signal read control means are configured to display an effective display area signal corresponding to the image signal to which the index signal is added. next Control is performed so that an image signal corresponding to the effective display area signal is output and displayed.
[0012]
Further, in the image display system according to the second invention, in the first invention, when the composite signal received by the image signal receiving means is an analog signal, the image signal writing control means and the image signal reading control means are: An image signal corresponding to the effective display area signal next to the effective display area signal corresponding to the image signal to which the index signal is added is output from the image signal and displayed. Control is performed as described above.
[0013]
According to a third aspect of the present invention, there is provided an image display system comprising: a plurality of image display devices; and an image display system having a multi-screen display function. And an image signal receiving means for receiving a composite signal including an index signal added by replacing a part of the image signal to an arbitrary image frame of the image signal, and an effective display output from the image signal receiving means Index discriminating means for discriminating a transmission index signal from an area signal and a digital image signal and outputting an index signal, image display device number setting means for outputting an image display device number set for the apparatus, and the index discriminating means And the index signal output from the image display device number setting means Index determining means for outputting a frame selection signal for selecting an image frame included in the image signal based on the image display device number, and the image signal according to the frame selection signal output by the index determining means. A frame selection unit that selects an image frame included; an image signal storage unit that stores an image signal corresponding to the image frame output from the frame selection unit; and the image signal based on a determination result of the index determination unit An image signal writing control means for outputting an image signal writing start signal for controlling to start storing an image signal in the storage means; and an image signal stored in the image signal storage means upon receiving the image signal writing start signal. Image signal readout control means for outputting an image signal readout signal so as to output Image display means for displaying an image signal corresponding to an image frame acquired from the image signal image storage means, and the image signal write control means and the image signal read control means correspond to an image signal to which an index signal is added. Effective display area signal next Control is performed so that an image signal corresponding to the effective display area signal is output and displayed.
[0014]
In the image display system according to a fourth aspect of the present invention, in the third aspect, when the composite signal received by the image signal receiving means is a digital signal, the image signal writing control means and the image signal reading control means are: An image signal corresponding to the effective display area signal next to the effective display area signal corresponding to the image signal to which the index signal is added is output from the image signal and displayed. Control is performed as described above.
[0015]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, some embodiments of an image display system according to the present invention will be described in detail with reference to the drawings. The image display system according to the present invention is characterized in that an image signal is written (that is, stored) into the image signal storage unit based on the determination result of the index determination unit with respect to the image display system of Japanese Patent Application Laid-Open No. 2000-352962. Image signal writing control means for outputting an image signal writing start signal for controlling to start, and image signal reading so as to receive the image signal writing start signal and output the image signal stored in the image signal storage means Image signal readout control means for outputting a signal is added.
[0016]
First embodiment
FIG. 5 is a block diagram showing a schematic configuration of an image display system including an index signal in the first embodiment of the present invention. The image display system shown in FIG. 5 includes an image signal receiving unit 2 that receives a composite signal to which an index signal is added from a personal computer (hereinafter referred to as a PC) (not shown) and the composite signal from the image signal receiving unit 2. An image frame selection means 15 for selecting image data to be received and separated into signals and output based on the determination result of the index signal; and an image display means 11 for displaying the image data output from the image frame selection means 15; It is constituted by.
[0017]
FIG. 6 is a block diagram of the image display system showing in detail the internal configuration of the image frame selection means 15 of FIG. This image display system includes an image signal input terminal 1, an image signal receiving means 2, an effective display area reproducing means 3, an index determining means 4, an image display device number setting means 5, an index determining means 6, a frame selecting means 7, an image signal. The storage unit 8, the image signal write control unit 9, the image signal read control unit 10, and the image display unit 11 are configured.
[0018]
Di is an image signal output from the image signal receiving means 2, Ds is an image signal output from the frame selecting means 7, Dr is an image signal output from the image signal storage means 8, and Si is output from the image signal receiving means 2. The synchronization signal, DE is an effective display area signal output by the effective display area reproducing means 3, ID is an index signal determined by the index determining means 4, N is an image display apparatus number set by the image display apparatus number setting means 5, and FS Is a frame selection signal output from the index determination means 6, IG is an index match signal output from the index determination means, WS is an image signal write start signal output from the image signal write control means, and RS is output from the image signal read control means This is an image signal read signal.
[0019]
In FIG. 6, the image signal receiving means 2 includes an image signal composed of a plurality of image frames, a synchronization signal corresponding to the image signal, and an index added by replacing a part of the image signal with an arbitrary image frame of the image signal. Receives the composite signal including the signal, and from the received composite signal The image signal Di and the synchronization signal Si are separated and output. Perform the action. Further, the effective display area reproduction unit 3 performs an operation of reproducing and outputting the effective display area signal DE from the image signal Di and the synchronization signal Si output separately from the image signal reception unit 2.
[0020]
The index discriminating unit 4 discriminates an index signal ID from the effective display area signal DE and the image signal Di, and performs an operation of outputting the discriminated index signal ID. The image display device number setting means 5 performs an operation of outputting the image display device number N set for the own device of the image display system. Further, the index determination unit 6 is included in the image signal Di based on the index signal ID output from the index determination unit 4 and the image display device number N of the own device output from the image display device number setting unit 5. An operation of outputting a frame selection signal FS for selecting an image frame is performed. The frame selection unit 7 performs an operation of selecting an image frame included in the image signal Di according to the frame selection signal FS output from the index determination unit 6. Further, the image signal storage unit 8 performs an operation of storing the image signal Ds corresponding to the image frame output from the frame selection unit 7. The image display unit 11 performs an operation of displaying the image signal Dr corresponding to the image frame acquired from the image signal storage unit 8.
[0021]
The image signal writing control means 9 is an image for controlling to start writing (that is, storing) the image signal to the image signal storage means 8 based on the index match signal IG that is the determination result of the index determination means 6. An operation of outputting a signal writing start signal WS is performed. Further, the image signal read control unit 10 receives the image signal write start signal WS and performs an operation of outputting the image signal read signal RS so as to output the image signal Ds stored in the image signal storage unit 8. As a result, the image display means 11 acquires the image signal Dr from the image signal storage means 8 and displays an image corresponding to the image frame.
[0022]
FIG. 7 is a block diagram showing in detail the configuration up to the image signal receiving means 2, the effective display area reproducing means 3, and the index determining means 4 in the image display system of FIG. The image display system shown in FIG. 7 includes a synchronization signal processing unit 12 that separates and extracts the synchronization signal Si corresponding to the image signal Di included in the composite signal, and the synchronization signal Si input from the synchronization signal processing unit 12 as a reference. A clock reproduction means 13 for outputting a clock having a predetermined frequency as a sampling clock, an A / D conversion means 14 for inputting a decoded signal and outputting a digital image signal Di, an effective display area reproduction means 3, and an index It is comprised by the discrimination means 4.
[0023]
Next, the operation of the image display system according to the first embodiment of the present invention will be described with reference to FIGS. As shown in FIG. 2, an image signal to which a transmission index signal is added by replacing a part of the image signal, and a vertical synchronization signal and a horizontal synchronization signal synchronized with the image signal are combined as an image signal input terminal. 1 is input. The composite signal input to the image signal input terminal 1 is further input to the image signal receiving means 2.
[0024]
FIG. 7 shows the internal configuration of the image signal receiving means 2, the effective display area reproducing means 3, and the index determining means 4. With such a configuration, the input composite signal is given to the A / D conversion means 14 and the synchronization signal processing means 12. On the other hand, the A / D conversion means 14 outputs an image signal Di as a digital image signal. On the other hand, when the composite signal is input to the sync signal processing means 12, the sync signal Si corresponding to the image signal Di included in the composite signal is separated and extracted. This synchronization signal Si is output to the outside of the image signal receiving means 2 and also to the clock recovery means 13. In the clock reproduction means 13, the clock signal CK having a predetermined frequency based on the inputted synchronization signal Si is A / D converted from the image signal Di included in the composite signal inputted to the A / D conversion means 14. Output as the sampling clock.
[0025]
Thereafter, the image signal Di output from the A / D conversion unit 14 and the synchronization signal Si output from the synchronization signal processing unit 12 are input to the effective display area reproduction unit 3. The effective display area reproducing means 3 measures and calculates the effective display area of the digitized image signal Di, and reproduces and outputs it as an effective display area signal DE. Subsequently, the effective display area signal DE output from the effective display area reproduction unit 3 and the image signal Di output from the A / D conversion unit 14 are input to the index determination unit 4. The index discriminating means 4 extracts the index information from the digitized image signal Di using the effective display area signal DE as a timing position reference, and outputs the index information as an index ID.
[0026]
FIG. 8 is a time chart of each signal when the transmission index signal is added by replacing a part of the image signal within the image display period in the image signal in the first embodiment of the present invention. The axis represents time, and the vertical axis represents signal level. As can be seen from FIG. 8, the relationship between the timing of the vertical synchronization signal, horizontal synchronization signal, effective display area signal DE and image signal in one frame period, and the effective display area signal DE and the image display period of the image signal are linked. Shows the relationship.
[0027]
FIG. 9 is a timing chart showing the relationship between the effective display area signal and the index signal in the first embodiment of the present invention. That is, this figure is an explanatory diagram for explaining the position and extraction of a portion of the image signal to which the transmission index signal in the image display period is added by replacing a part of the image signal. In FIG. 9, DEs is the display data start position of the effective display area signal DE, DEe is the display data end position of the effective display area signal DE, IDs is the start position of the index signal added to the image signal, and IDe is in the image signal. The end position of the index signal added to is shown. The display data start position DEs of the effective display area signal DE is used as a position reference for extracting the index signal, and after the time from the display data start position DEs to the display data start position IDs of the index signal has elapsed, there is a predetermined index signal. Index data for pixels (pixels from the start position IDs of the index signal to the end position IDe of the index signal) is extracted by the index discriminating means 4 and output from the index discriminating means 4 as an ID signal. The pixel as index data handled here is a pixel that is arbitrarily determined in advance, and the length is not particularly limited as long as the pixel is arbitrarily determined.
[0028]
FIG. 10 is a timing chart showing the relationship between the effective display area signal and the index signal in the first embodiment of the present invention. That is, this figure is an explanatory diagram showing the position and extraction of the portion where the index signal is added by replacing the head in the image display period in the image signal. The display data start position DEs becomes the index signal start position IDs.
[0029]
10 will be described with reference to the block diagram of the image display system in FIG. 6. The end position of the index signal where the index signal ends from the start of the effective display area signal DE measured by the effective display area reproducing means 3 to a predetermined pixel. Pixels up to IDe are extracted by the index discriminating means 4, and the index signal is output as ID from the index discriminating means 4. Similarly to the above, the index data handled here is a pixel that is arbitrarily determined in advance, and the length is not particularly limited as long as it is an arbitrarily determined pixel.
[0030]
The index discriminating means 4 uses the index signal ID obtained as described above as the index discriminating means. 6 Output to. On the other hand, the image display device number setting unit 5 outputs the image display device number N set in advance to the own device to the index determination unit 6. The index determination unit 6 outputs a frame selection signal FS and an index match signal IG based on the determined index signal ID and the image display device number N. The frame selection unit 7 selects a predetermined frame from the input image signal Di based on the frame selection signal FS output from the index determination unit 6. Here, since the transmission index signal is added as a replacement to a part of the image period, since there is index data in the order of image data in the case of the transmission index signal described with reference to FIG. This is the frame that was performed.
[0031]
The image signal write control unit 9 receives the index match signal IG output from the index determination unit 6. Further, the image signal writing control means 9 and the frame selection means 7 and the image so that the frame selection means 7 outputs the image signal Ds to the image signal storage means 8 from the line next to the line to which the index signal is added. An image signal write start signal WS is output to the signal read control means 10. As clearly shown in FIG. 8, when an index signal is added to the first line of the display image area, control is performed so that the first line is not stored and the second line is stored in the image signal storage means 8. Yes.
[0032]
The frame selection means 7 receives the image signal write start signal WS output from the image signal write control means 9 and outputs the selected image signal Ds to the image signal storage means 8. The image signal storage unit 8 stores the image signal Ds output from the frame selection unit 7. When receiving the image signal write start signal WS, the image signal read control means 10 outputs the image signal read signal RS to the image signal storage means 8 so as to output the image signal Ds stored in the image signal storage means 8.
[0033]
The image signal storage unit 8 receives the image signal read signal RS output from the image signal read control unit 10, reads the image signal Dr, and outputs it to the image display unit 11. The image display means 11 displays the image signal Dr read from the image signal storage means 8.
[0034]
As described above, according to the image display system of the first embodiment of the present invention, the image signal write control means 9 and the image signal read control means 10 are provided, so that the entire image is stored in the image signal storage means. The display image is updated by storing the image data from the next line to which the index is added and starting the output, instead of outputting the updated image by the next vertical synchronization signal after storing in 8. Time can be shortened. This makes it possible to smoothly switch and update the display image, and the operability and convenience for the user are further improved in the image display system including the index signal.
[0035]
Second embodiment
In the first embodiment, the case where the received image signal is an analog signal has been described. However, the received image signal may be a digital signal. In the second embodiment, a case where the image signal is a digital signal will be described. FIG. 11 is a block diagram showing an internal configuration of an image display system including an index signal when a received image signal is a digital signal in the second embodiment of the present invention. In FIG. 11, the image display system includes an image signal input terminal (that is, a digital image signal input terminal) 1, an image signal receiving means 2, an index determining means 4, an image display device number setting means 5, an index determining means 6, and a frame selection. It comprises means 7, image signal storage means 8, image signal write control means 9, image signal read control means 10, and image display means 11. That is, the image display system in the second embodiment shown in FIG. 11 has a configuration in which the effective display area reproducing means 3 is removed from the image display system in the first embodiment shown in FIG.
[0036]
Di is a digital image signal sent from the image signal receiving means 2, DE is an effective display area synchronization signal sent from the image signal receiving means 2, Ds is an image signal output from the frame selecting means 7, and Dr is an image signal. The image signal output from the storage means 8, ID is the index determined by the index determination means 4, N is the image display device number set by the image display device number setting means 5, and FS is the frame selection signal output by the index determination means 6. , IG is an index coincidence signal output from the index determination means 6, WS is an image signal write start signal output from the image signal write control means 9, and RS is an image signal read signal output from the image signal read control means 10.
[0037]
Next, the operation of the image display system in the second embodiment shown in FIG. 11 will be described. The digital image signal added by replacing the transmission index signal with a part of the image signal is input to the image signal input terminal (digital image signal input terminal) 1 and is effective with the digital image signal Di received by the image signal receiving means 2 The display area synchronization signal DE is input to the index determination unit 4. The index discriminating means 4 extracts the index information from the digitized image signal Di using the effective display area synchronization signal DE as a timing position reference, and outputs the index information as an index ID. Since the index extraction method is the same as that described in the first embodiment, a detailed description of the operation is omitted.
[0038]
The index determination unit 4 outputs the index ID obtained in the same manner as in the first embodiment to the index determination unit 6. On the other hand, the image display device number setting unit 5 outputs the image display device number N set in advance to the own device to the index determination unit 6. The index determination means 6 outputs a frame selection number FS and an index match signal IG based on the determined index ID and the image display device number N. The frame selection unit 7 selects a predetermined frame from the image signal Di input from the image signal reception unit 2 based on the frame selection signal FS output from the index determination unit 6. Here, since the transmission index signal is added as a part of the image period, the index data is included in the item of the image data in the case of the transmission index signal described in FIG. Is the frame in which
[0039]
The image signal write control unit 9 receives the index match signal IG output from the index determination unit 6. Further, the image signal writing control means 9 and the frame selection means 7 and the image so that the frame selection means 7 outputs the image signal Ds to the image signal storage means 8 from the line next to the line to which the index signal is added. An image signal write start signal WS is output to the signal read control means 10. As clearly shown in FIG. 8, when an index signal is added to the first line of the display image area, control is performed so that the first line is not stored and the second line is stored in the image signal storage means 8. Yes.
[0040]
The image signal storage unit 8 receives the image signal read signal RS output from the image signal read control unit 10, generates an image signal Dr from the image signal Ds received from the frame selection unit 7, and outputs the image signal Dr to the image display unit 9. To do. As a result, the image display means 11 displays the image signal Dr read from the image signal storage means 8.
[0041]
As described above, according to the image display system of the second embodiment of the present invention, even when the received image signal is a digital image signal, the image signal write control unit 9 and the image signal read control unit 10 By storing the image data, the image signal storage means 8 stores the image data from the next line to which the index ID is added, instead of storing the updated image by the next vertical synchronizing signal after the image signal storage means 8 stores the entire screen. At the same time, the output time of the display image can be shortened by starting the output. As a result, switching and updating of the display image can be performed smoothly, and the operability for the user is improved in the image display system including the index signal.
[0042]
That is, according to the first embodiment and the image display system of the first embodiment of the present invention, the index determination unit 6 outputs the frame selection number FS to the frame selection unit 7 and the image signal write control unit. The index match signal IG is output to 9. Then, the image signal write control unit 9 outputs the image signal write start signal WS to the frame selection unit 7 and the image signal read control unit 10 based on the index match signal IG that is the determination result of the index determination unit 6.
[0043]
As a result, the frame selection means 7 causes the image signal storage means 8 to store the image signal Ds of the line next to the line to which the index is added. On the other hand, the image signal read control means 10 outputs the image signal read signal RS to the image signal storage means 8 based on the image signal write start signal WS received from the image signal write control means 9, and sends it to the image signal storage means 8. The stored image signal is output. Thereby, the image display means 11 can acquire and display the image signal Dr from the image signal storage means 8 from the line next to the line to which the index is added. That is, according to the image display system of the present invention, when the index signal added to the image signal is determined, the display is updated so that the image is displayed from the line next to the line to which the index is added. Time can be further shortened.
[0044]
FIG. 13 is a diagram specifically showing the index operation in the image display system of the present invention. As can be seen from FIG. 13, after determining the index ID of the B screen, the image display apparatus displays the B screen from the line next to the line to which the index is added. In other words, the internal operation of the image display device and the internal operation of the image signal transmission device until the display image of one image display device is updated have an image update period of 3 frames as in the prior art shown in FIG. Processing is performed so that an image is displayed immediately from the next line without need. Thereby, even if the number of image display devices specified by the index signal ID increases, there is no possibility that the display image update period of one image display device becomes long. Therefore, even if an image that requires smooth movement such as a moving image display is displayed, the moving image can be displayed smoothly and continuously.
[0045]
【The invention's effect】
As described above, according to the image display system of the present invention, since the image signal writing control means and the image signal reading control means are provided, the entire vertical screen is stored in the image signal storage means and then the next vertical synchronization signal is stored. Instead of outputting an updated image, the image data is stored from the line next to the line to which the index is added and the output is started, whereby the time for updating the display image can be shortened. This makes it possible to smoothly switch and update the display image, and the operability and convenience for the user are further improved in the image display system including the index signal. Such an effect can be obtained whether the received image signal is a digital image signal or an analog image signal.
[Brief description of the drawings]
FIG. 1 is a configuration diagram of a conventional image display system including an image signal generator and an image display device.
2 is a timing chart of each signal when an index signal is added by replacing a part of the image signal in the conventional image display system shown in FIG. 1; FIG.
3 is an explanatory diagram showing an index signal added by replacing a part of an image signal with 8 pixels in the conventional image display system shown in FIG. 1; FIG.
4 is an explanatory diagram showing an index signal added by replacing a part of an image signal with 8 pixels and 1 parity in the conventional image display system shown in FIG. 1; FIG.
FIG. 5 is a block diagram showing a schematic configuration of an image display system including an index signal in the first embodiment of the present invention.
6 is a block diagram of an image display system showing in detail the internal configuration of the image frame selection means 15 of FIG. 5. FIG.
7 is a block diagram showing in detail the configuration of image signal receiving means 2, effective display area reproducing means 3 and index determining means 4 in the image display system of FIG.
FIG. 8 is a time chart of each signal when a transmission index signal is added by replacing a part of the image signal within an image display period in the image signal in the first embodiment of the present invention.
FIG. 9 is a timing chart showing a relationship between an effective display area signal and an index signal in the first embodiment of the present invention.
FIG. 10 is a timing chart showing a relationship between an effective display area signal and an index signal in the first embodiment of the present invention.
FIG. 11 is a block diagram showing an internal configuration of an image display system including an index signal when a received image signal is a digital signal in the second embodiment of the present invention.
FIG. 12 is an explanatory diagram specifically showing an index operation in a conventional image display system.
FIG. 13 is a diagram specifically illustrating an index operation in the image display system of the present invention.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 ... Image signal input terminal, 2 ... Image signal receiving means, 3 ... Effective display area reproduction | regeneration means, 4 ... Index discrimination means, 5 ... Image display apparatus number setting means, 6 ... Index determination means, 7 ... Frame selection means, 8 Image signal storage unit 9 Image signal write control unit 10 Image signal read control unit 11 Image display unit 12 Synchronization signal processing unit 13 Clock reproduction unit 14 A / D conversion unit 15 DESCRIPTION OF SYMBOLS ... Image frame selection means, 201 ... Image signal generator, 202 ... Image display device, Di, Ds, Dr ... Image signal, Si ... Synchronization signal, DE ... Effective display area signal, ID ... Index, N ... Image display device number FS ... frame selection signal, IG ... index match signal, WS ... image signal write start signal, RS ... image signal read signal, DEs ... display data start Location, DEe ... display data end position, IDs ... index signal start position, IDe ... the index signal end position

Claims (4)

In an image display system having a plurality of image display devices and a multi-screen display function,
A composite signal including an image signal composed of a plurality of image frames, a synchronization signal corresponding to the image signal, and an index signal added by replacing a part of the image signal with an arbitrary image frame of the image signal is received. Image signal receiving means;
Effective display area reproducing means for reproducing and outputting an effective display area signal from the image signal and the synchronization signal output from the image signal receiving means;
Index determining means for determining an index signal from the effective display area signal and the image signal, and outputting the determined index signal;
Image display device number setting means for outputting an image display device number set for the device itself;
A frame selection signal for selecting an image frame included in the image signal based on the index signal output from the index determination unit and the image display device number of the own device output from the image display device number setting unit. Index judging means for outputting
Frame selection means for selecting an image frame included in the image signal in response to the frame selection signal output by the index determination means;
Image signal storage means for storing an image signal corresponding to the image frame output from the frame selection means;
An image signal write control means for outputting an image signal write start signal for controlling to start storing an image signal in the image signal storage means based on a determination result of the index determination means;
Image signal read control means for receiving the image signal write start signal and outputting an image signal read signal so as to output the image signal stored in the image signal storage means;
Image display means for displaying an image signal corresponding to the image frame acquired from the image signal storage means,
The image signal write control means and the image signal read control means output and display from an image signal corresponding to an effective display area signal next to an effective display area signal corresponding to an image signal to which an index signal is added. An image display system characterized by performing control.   When the composite signal received by the image signal receiving means is an analog signal, the image signal writing control means and the image signal reading control means are the next to the effective display area signal corresponding to the image signal to which the index signal is added. 2. The image display system according to claim 1, wherein control is performed so that an image signal corresponding to the effective display area signal is output and displayed. In an image display system having a plurality of image display devices and a multi-screen display function,
A composite signal including an image signal composed of a plurality of image frames, a synchronization signal corresponding to the image signal, and an index signal added by replacing a part of the image signal with an arbitrary image frame of the image signal is received. Image signal receiving means;
Index determining means for determining an output index signal from an effective display area signal and a digital image signal output from the image signal receiving means and outputting an index signal;
Image display device number setting means for outputting an image display device number set for the device itself;
A frame selection signal for selecting an image frame included in the image signal based on the index signal output from the index determination unit and the image display device number of the own device output from the image display device number setting unit. Index judging means for outputting
Frame selection means for selecting an image frame included in the image signal in accordance with a frame selection signal output by the index determination means;
Image signal storage means for storing an image signal corresponding to the image frame output from the frame selection means;
An image signal write control means for outputting an image signal write start signal for controlling to start storing an image signal in the image signal storage means based on a determination result of the index determination means;
Image signal read control means for receiving the image signal write start signal and outputting an image signal read signal so as to output the image signal stored in the image signal storage means;
Image display means for displaying an image signal corresponding to the image frame acquired from the image signal image storage means,
The image signal write control means and the image signal read control means output and display from an image signal corresponding to an effective display area signal next to an effective display area signal corresponding to an image signal to which an index signal is added. An image display system characterized by performing control.   When the composite signal received by the image signal receiving means is a digital signal, the image signal writing control means and the image signal reading control means are the next to the effective display area signal corresponding to the image signal to which the index signal is added. 4. The image display system according to claim 3, wherein control is performed so that an image signal corresponding to the effective display area signal is output and displayed.

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