JP2919000B2 - Image transmission receiver - Google Patents

Description

Description: BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a receiver for an image transmission apparatus having a function of digitally transmitting a moving image signal and a still image signal.

[Conventional technology]

Conventionally, this type of image transmission / reception apparatus includes a separation circuit 21, three D / A circuits 22, 23, 25, a frame memory 24, and monitors 26 to 28, as shown in FIG. Was. In this image transmission / reception device, the separation circuit 21 includes:
As shown in FIG. 6, transmission data n obtained by digitally multiplexing a moving image signal of two screens A and B and a still image signal is input, a moving image signal p for the A screen, and a moving image signal for the B screen. q and a still image signal o, respectively. The video signal p output from the separation circuit 21 is converted into an analog television signal s by a D / A (digital / analog conversion circuit) 22, and the video signal q is converted into an analog television signal t by a D / A conversion circuit 23. Is converted. The still image signal o is temporarily stored in the frame memory 24, and one frame of the still image signal r is repeatedly output until the next new still image signal o is input. This still image signal r is D / A
The signal is converted into an analog television signal u by the conversion circuit 25 and output. D / A conversion circuit 22, D / A conversion circuit 23, D / A
The analog television signals s, t, and u converted and output from the conversion circuit 25 are respectively displayed on a monitor 26, a monitor 27, and a monitor 28.
Is output to 4 (a) and 4 (b) show the monitors 26-28.
(A) shows the case where there is no still image, and FIG. (B) shows the case where there is a still image.

[Problems to be solved by the invention]

The conventional image transmission / reception apparatus as described above requires three D / A conversion circuits 22 to 24 and three monitors 26 to 28 in accordance with the number of moving image signals and still image signals. There was a problem that it became large.

The present invention has been made in view of such a problem, and an object of the present invention is to provide an image transmission / reception apparatus capable of reducing the number of D / A conversion circuits and monitors and reducing the system scale.

[Means for solving the problem]

According to the first aspect of the present invention, (a) a plurality of moving image signals for displaying a plurality of screens of moving images in parallel in time and the presence or absence of a still image displayed in parallel with the plurality of moving images in time. The transmission data obtained by digital time-division multiplexing of still image presence information indicating the presence of a still image and still image signals for displaying still images of one frame each when the presence of the still image presence information indicates the presence of a moving image signal , A still image signal and a still image signal when the presence or absence of still image information indicates presence of a still image signal, and (b) a moving image signal of a plurality of screens separated by the separating circuit. Each of them receives as input a still image signal for one frame when the presence / absence information of the still image is present, and outputs the same number of frame memories as the number of moving image signals and a frame memory for storing still images in frame units. Has a child, still picture existence information is output to the output terminal as it signals state separated respectively by separating the moving image signal of the plurality of screens in each screen when no,
When there is still image presence / absence information, one frame of still image signal is written into the frame memory for one frame, read out and output as a frame image to one of the output terminals, and a moving image of a plurality of screens is output. (C) an image separation circuit that outputs a signal as it is to another output terminal in the same signal state, and (c) is provided corresponding to each of the output terminals of the image separation circuit, and converts the output signal of each output terminal into an analog signal. And a plurality of D / A conversion circuits for outputting the image data.

According to the second aspect of the present invention, (a) two kinds of moving image signals for displaying a moving picture for two screens in parallel in time and displaying the moving picture signal in two pictures in parallel in time. Inputs transmission data obtained by digital time-division multiplexing of still image presence / absence information indicating the presence / absence of a still image to be displayed and a still image signal for displaying a still image of one frame each when the presence / absence of the still image presence / absence information is present A separating circuit that separates and outputs each of the moving image signals, the still image signal, and the still image signal when the presence / absence information of the still image is present, and (b) two screens separated by the separating circuit. Of the moving image signal and the still image signal for one frame when the presence / absence information of the still image is present, and a frame memory for storing the still image in frame units and the number of moving image signals are the same. When there is no still image presence / absence information, the moving image signal of two screens is separated for each screen, and the first or second corresponding signal state is provided in the separated signal state as it is. 2 and outputs the still image signal for one frame to the frame memory for one frame when there is still image presence / absence information, reads it out, and outputs it to the first output terminal as a frame image. An image separation circuit for outputting a moving image signal of the screen to the second output terminal as it is, and (c) provided corresponding to each of the output terminals of the image separation circuit;
A plurality of D / A conversion circuits for converting an output signal of each output terminal into an analog signal and outputting the analog signal are provided in the race development display device.

As described above, according to the first and second aspects of the invention,
A still image is written to the frame memory in frame units and is displayed on a single screen as it is. On the other hand, a still image and a plurality of moving images are received in a time-division multiplexed manner. Are displayed on the corresponding screen one by one. As a result, it is sufficient to provide a D / A conversion circuit and a monitor for the moving image, and it is possible to reduce the number of the D / A conversion circuits and the monitor for the still image. Can be reduced.

〔Example〕

Hereinafter, embodiments of the present invention will be specifically described with reference to the drawings. FIG. 1 is a block diagram showing a configuration of an image transmission / reception apparatus according to one embodiment of the present invention. This image transmission / reception device includes a separation circuit 1, an image separation circuit 2, and two D / A
It comprises conversion circuits 3 and 4 and two monitors 5 and 6. The separation circuit 1 receives as input the transmission data a in which a moving image signal of two screens A and B, a still image signal, and still image presence / absence information indicating the presence / absence of a still image signal are digitally multiplexed. The transmission data a is separated into a moving image signal b of two screens A and B, a still image signal c, and still image presence / absence information d and output. The image separation circuit 2 receives the moving image signal b, the still image signal c, and the still image presence / absence information d of the two screens output from the separation circuit 1, respectively. The screen A and the screen B of the moving image signal are separated, and the moving image signal of the screen A is output as the image signal e from one output terminal 2a, and the moving image signal of the screen B is output as the image signal f from the other output terminal 2b. Is what you do. When the presence / absence information of the still image is present, the moving image signal b of the two screens is output as the image signal e from the first output terminal 2a without being separated, and the still image signal c is used as the image signal f as the second image signal. This is output from the output terminal 2b.

Further, the D / A conversion circuit 3 receives the image signal e as input and converts it into an analog television signal g, and outputs the same. The D / A conversion circuit 4 receives the image signal f as input and converts it into an analog television signal h. Output. The monitor 5 receives the analog television signal g and the monitor 6 receives the analog television signal h. When the still image presence / absence information d is absent, a moving image signal of the A screen is displayed on the monitor 5 screen. A moving image signal of screen B is projected on the screen, and a moving image signal of two screens is projected on the screen of monitor 5 when still image presence / absence information e is present, and a still image is projected on the screen of monitor 6. Has become.

In such a configuration, in the image transmission / reception apparatus of this embodiment, when digitally multiplexed transmission data a as shown in FIG. 7 is input to the input terminal 7, the separation circuit 1 separates the transmission data a. Then, the moving image signal b, the still image signal c, and the still image presence / absence information d of the A and B2 screens are separated and output. The separated moving image signal b, still image signal c, and still image presence / absence information d of two screens are input to the image separation circuit 2. When the still image presence / absence information d is absent, the image separation circuit 2 separates the A screen and the B screen of the two-screen moving image signal,
A first output terminal which uses a moving image signal of screen A as an image signal e;
2a, and outputs a moving image signal of the B screen as an image signal f from a second output terminal 2b. When the still image presence / absence information d is present, the moving image signal b of the two screens is output from the first output terminal 2a as an image signal e without being separated, while the still image signal c is output as the image signal f. 2 output terminal 2b.

The image signal e is input to the D / A conversion circuit 3, where it is D / A converted and then output as an analog television signal g.
Further, the image signal f is input to the D / A conversion circuit 4, where it is D / A converted and then output as an analog television signal h. The analog television signal g is output to the monitor 5
, And the analog television signal h is input to the monitor 6. Here, when the still image presence / absence information d is absent, the moving image of the A screen is output on the screen of the monitor 5 and the moving image of the B screen is output on the screen of the monitor 6. FIG. 5A shows an output example on the monitors 5 and 6 at this time. When the still image presence / absence information e is present, a moving image of two screens is output on the screen of the monitor 5 and a still image is output on the screen of the monitor 6. FIG. 5B shows an output example on the monitors 5 and 6 at this time.
Shown in

FIG. 2 is a block diagram showing details of the image separation circuit 2 of FIG. This image separation circuit 2 includes a frame memory
The control circuit includes: 11, a selection circuit 12, 13, a control signal generation circuit 14, a set circuit 15, and selection circuits 16, 17.
When the still image presence / absence information d is present, the frame memory 11 writes the still image signal c. When the still image presence / absence information d is absent, the frame memory 11 repeatedly reads out the still image data written in the memory and outputs the still image signal i. Is output. Further, the control signal generating circuit 14 outputs A from the moving image signal b of two screens.
It outputs a control signal j for separating the screen and the B screen. The selection circuit 12 receives a two-screen moving image signal b and a fixed pattern signal w as input, receives a control signal j, and receives a signal A.
The moving image signal k of the screen is output separately.
On the other hand, the selection circuit 13 receives the video signal b of the two screens and the fixed pattern signal w as input, receives the control signal j, and separates and outputs the video signal 1 of the B screen. The set circuit 15 turns off the switching signal m when the still image presence / absence information d is absent,
When the still image presence / absence information d becomes available, the switching signal m is fixed to ON and output. The selection circuit 16
Inputs a moving image signal k of the A screen and a moving image signal b of the two screens, outputs the image signal b of the two screens as the image signal e when the switching signal m is on, and outputs the image signal e when the switching signal m is off. Sometimes, the moving image signal k of the A screen is output as the image signal e. The selection circuit 17 outputs the moving image signal 1 of the B screen.
And the still image signal i are input. When the switching signal m is on, the still image signal i is output as the image signal f. When the switching signal m is off, the moving image signal 1 of the B screen is used as the image signal f. Output.

That is, in the image separation circuit 2, when the still image presence / absence information d is present, the frame memory 11 writes the still image signal c, while when the still image presence / absence information d is absent, the frame memory 11 is stored in the memory. The written still image information is repeatedly read and a still image signal i is output.
On the other hand, the control signal generation circuit 14
A control signal j for separating the A screen and the B screen from the moving image signal b of the screen is output. Upon receiving this control signal j,
The selection circuit 12 separates and outputs the moving picture signal k of the A screen from the inputted moving picture signal b of the two screens and the fixed pattern signal w. On the other hand, the selection circuit 13 receives the input two-screen moving image signal b.
And the moving image signal 1 of the B screen out of the fixed pattern signal w. When there is still image presence / absence information d, the set circuit 15 outputs the switching signal m fixed at ON. When the switching signal m is turned on, the selection circuit 16 outputs the image signal b of the moving image signal k of the A screen and the moving image signal b of the two screens as the image signal e. On the other hand, the selection circuit 17 outputs the still image signal i of the moving image signal 1 and the still image signal i of the B screen as the image signal f. When the still image presence / absence information d is lost, the set circuit 15 turns off the switching signal m. At this time, the selection circuit 16 outputs the moving image signal k of the A screen out of the moving image signal k of the A screen and the moving image signal b of the two screens as the image signal e from the first output terminal 2a. On the other hand, the selection circuit 17 outputs the moving image signal 1 of the B screen among the moving image signal 1 of the B screen and the still image signal i as an image signal f from the second output terminal 2b.

Thus, in the image transmission / reception apparatus of the present embodiment,
When the still image presence / absence information d is absent, the moving image signals of the A and B screens are separately output from the first output terminal 2a and the second output terminal 2b, while when the still image presence / absence information d is present, Since the still image signal is output from the second output terminal 2b and the moving image signal is output from the first output terminal 2a without separation, the D / A conversion circuits 3, 4 and the monitors 5, 6 Is sufficient only for the number of moving image signals.
Therefore, as compared with the conventional image transmission / reception apparatus, one D / A conversion circuit and one monitor for moving image signals are not required.
The system scale can be reduced.

Although the present invention has been described with reference to the embodiment, the present invention is not limited to this, and can be variously changed without changing the gist thereof. For example, in the above-described embodiment, two types of moving image signals for two screens A and B are input as transmission data and are displayed on these two monitors 5 and 6. A configuration in which three or more types of multiplexed video signals are input, D / A conversion is performed by D / A conversion circuits according to the number of video signals, and video and still images are projected by the same number of monitors Is also good.

〔The invention's effect〕

As described above, according to the first and second aspects of the present invention, a still image is written in a frame memory in frame units and is displayed as it is on a single screen. The resolution of the frame can be ensured, and the image quality does not deteriorate. Moreover, since the frame memory is dedicated to the still image and the moving image is not passed through the frame memory by the image separation circuit, there is an advantage that the image is not delayed. In addition, paying attention to the difference in required resolution between a still image and a moving image, when a still image exists, a monitor for display is exclusively assigned to the still image, and the moving image is multiplexed on the screen and displayed on the remaining monitors. Therefore, it suffices if there is a monitor only for the type of moving image as a whole, the system scale can be reduced, and the cost for system construction can be reduced.

[Brief description of the drawings]

FIG. 1 is a block diagram showing a circuit configuration of an image transmission / reception apparatus according to an embodiment of the present invention, FIG. 2 is a block diagram specifically showing an image separation circuit of FIG. 1, and FIG. FIG. 4 is a block diagram illustrating a circuit configuration of the transmission receiving apparatus, FIG. 4 is a diagram illustrating an output example of a monitor in the conventional image transmission receiving apparatus, FIG. 5 is a diagram illustrating an output example of a monitor in the image transmitting and receiving apparatus of the present invention, FIG. 6 is an operation timing chart of the conventional image transmission / reception apparatus, and FIG. 7 is an operation timing chart of the image transmission / reception apparatus of the present invention. 1 ... separation circuit, 2 ... image separation circuit, 3, 4 ... D / A
Conversion circuit, 5, 6, monitor, 7 input terminal, 11
Frame memory, 12, 13, 16, 17 ... Selection circuit, 14 ...
Control signal generation circuit, 15 ... Set circuit.

──────────────────────────────────────────────────続 き Continuation of the front page (56) References JP-A-52-47316 (JP, A) JP-A-50-15417 (JP, A) Jika-sho 62-167470 (JP, U) (58) Field (Int.Cl. ⁶ , DB name) H04N 7/025-7/088 H04N 7/14

Claims (2)

(57) [Claims] 1. A plurality of moving image signals for displaying moving images of a plurality of screens in parallel in time, and still image presence / absence information indicating presence / absence of a still image to be displayed in time parallel with the plurality of moving images. And transmission data obtained by digitally time-division multiplexing a still image signal for displaying a still image of one frame each when the still image presence / absence information indicates the presence of the moving image signal. A separation circuit that separates and outputs the still image signal and the still image signal when the still image presence / absence information indicates that there is, and a moving image signal for a plurality of screens separated by the separation circuit. A still image signal for one frame when the still image presence / absence information indicates presence is input and
It has a frame memory for storing still images in frame units and as many output terminals as the number of the moving image signals, and separates the moving image signals of the plurality of screens for each screen when the still image presence / absence information is absent. Each of them is output to the output terminal in a separated signal state, and when there is still image presence / absence information, the one-frame still image signal is written into the frame memory for one frame and read out, and then read out. An image separating circuit that outputs a frame image to one of the output terminals as a frame image and outputs the moving image signals of the plurality of screens to other output terminals in the same signal state, and corresponds to each of the output terminals of the image separating circuit. And a plurality of D / A conversion circuits for converting an output signal of each output terminal into an analog signal and outputting the analog signal. 2. A still image indicating two kinds of moving image signals for displaying two screens of moving images in parallel in time and presence / absence of a still image displayed in time parallel with these two screens of moving images. The transmission data obtained by digital time-division multiplexing of the image presence / absence information and a still image signal for displaying a still image of one frame each when the presence / absence information of the still image is present is input, and the moving image for the two screens is input. A separation circuit that separates and outputs each of the image signals, the still image signal, and the still image signal when the still image presence / absence information indicates presence, and a moving image for the two screens separated by the separation circuit Each of the signals and a still image signal for one frame when the still image presence / absence information indicates presence are input, and a frame memory for storing still images in frame units and the number of the moving image signals And the same number of first and second output terminals as described above, and when the still image presence / absence information is absent, the moving image signals of the two screens are separated for each screen and correspond to the separated signal states as they are. Output to the first or second output terminal, and when there is still image presence / absence information, write the still image signal for one frame into the frame memory for one frame, read it out, and send it to the first output terminal. An image separation circuit for outputting as a frame image and outputting the moving image signals for the two screens to a second output terminal in the same signal state, and provided corresponding to each of the output terminals of the image separation circuit; An image transmission / reception device comprising: a plurality of D / A conversion circuits that convert an output signal of each output terminal into an analog signal and output the analog signal.