JP3484765B2 - Image communication terminal - Google Patents

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention enables image data communication with a partner terminal by processing according to a moving image compression algorithm (for example, a low-speed moving image compression algorithm compliant with CCITT H.261 recommendation) and is stationary. The present invention relates to an image communication terminal such as a video conference / telephone terminal that realizes an answering machine function by communicating and storing image message data.

[0002]

2. Description of the Related Art In recent years, the market expansion of image communication terminals such as video conferences / telephone terminals is expected due to the spread of ISDN and the recommendation of image encoding algorithms in CCITT. Such an image communication terminal is required to have an answering machine function for image message data as well as an answering machine function for voice possessed by a telephone or the like which performs voice communication. It is also required to be small and inexpensive.

A conventional example will be described with reference to FIG. FIG. 4 is a functional block diagram of a conventional image communication terminal. Reference numeral 1 is a camera for inputting an image on its own side, 2 is a pre-processing unit for inputting an analog video signal and outputting a digital video transmission signal in a common intermediate format, and 3 is a difference for compressing the digital video transmission signal. An arithmetic unit 4, a previous frame memory unit for storing the previous frame of the transmission image from which the difference in the difference arithmetic unit 3 is taken, and 5 compresses the data length of the difference data output from the difference arithmetic unit 3. A data length compression unit 6 reads the multiplexed video signal from the data length compression unit 5, multiplexes various signals such as the multiplexed video signal, voice data, data, and system control signal, and multiplexes from a partner terminal. Separate the received signal (eg C
CITTH. 221) The multiplexer / demultiplexer, 7 inputs the multiplexed transmission signal output from the multiplexer / demultiplexer 6, outputs the transmission data to the communication network, and inputs the reception data from the communication network. A network interface unit for outputting a multiplexed reception signal to the multiplexer / demultiplexer 6, a data length decompressor 8 for decompressing the data length of the demultiplexed video signal output from the multiplexer / demultiplexer 6, and a reference numeral 9 for the data A reception frame memory unit 10 for restoring the reception image from the differential data from the length expansion unit 8 and the previous frame reads the digital video reception signal from the reception frame memory unit 9, converts it into a reverse common intermediate format, and outputs an analog video output signal. A post-processing unit, 11 is a monitor for inputting and displaying the analog video output signal, and 12 is an end of the other party when the own terminal is in the answering machine mode. VCR for sending message that records the image message data sent to the terminal and when the local terminal is in the answering machine, reproduces the prerecorded image message data on the other terminal and outputs the analog video signal for sending message. , 13 connect the analog video signal from the camera 1 to the preprocessing unit 2 in the normal communication mode, and connect the analog video signal for the transmission message from the VTR 12 for the transmission message to the preprocessing unit 2 in the answering machine mode. A transmission video signal switching unit controlled by the VTR for reception message VTR for recording the analog video output signal which is a reception message from the other party in the answering machine,
Reference numeral 15 is controlled to connect the analog video output signal from the post-processing unit 10 to the monitor in the normal communication mode and to connect the analog video output signal from the post-processing unit 10 to the reception message VTR 14 in the answering mode. A reception video signal switching unit, 16 is a mode switching unit for switching the own terminal to a normal communication mode or an answering machine mode, and 17 is the transmission message VTR 12 and the transmission video signal switching unit according to a switching signal from the mode switching unit 16. 13 is a control unit for controlling the VTR 14 for receiving message and the receiving video signal switching unit 15.
With these, the image communication terminal is capable of sending the image transmission message to the partner terminal and recording the response message from the partner terminal when the own terminal is in the answering machine mode.

The operation of the conventional image communication terminal configured as described above will be described below. In the normal communication mode, the analog video input signal, which is the image on the local side, input from the camera 1 is connected to the preprocessing unit 2 under the control of the transmission video signal switching unit 13. The preprocessor 2 converts the analog video input signal into a common intermediate format and outputs a digital video transmission signal. The difference calculating unit 3 performs image compression by calculating and outputting the difference from the previous frame in the previous frame memory unit 4 using this digital video transmission signal. On the other hand, in the previous frame memory unit 4, the difference calculation unit 3
The contents of the previous frame memory are updated by inverting and adding the difference output from. The difference data output from the difference calculation unit 3 is compressed in data length by the data length compression unit 5 (this image compression step is CCITT).
H. It may be encoded according to a low-speed moving image compression algorithm compliant with the H.261 recommendation. ). The multiplexed video signal is multiplexed by the multiplexer / demultiplexer 6 with various signals such as other audio signals, data and system control signals, and a multiplexed transmission signal is output.

This multiplexed transmission signal is transmitted to the other terminal via the network interface section 7. Further, the reception data sent from the partner terminal is received by the network interface section 7 and outputs a multiplexed reception signal to the multiplexing / demultiplexing section 6. The multiplexing / separating unit 6 separates only the image component from the data of the multiplexed reception signal, and the separated video signal separated is expanded in the data length expanding unit 8. In the reception frame memory unit 9, the data length expansion unit 8
The contents of the frame memory of the received image are updated by inverting and adding the decompressed differential output from, and the common intermediate formatted digital video reception signal is output (this decompression process is recommended by CCITT H.261). Decompression may be performed according to the low-speed moving image compression algorithm compliant with. The post-processing unit 10 reads the digital video reception signal in the common intermediate format from the reception frame memory 9 and converts the digital video reception signal into an analog video output signal (composite video signal or the like), and the reception video signal switching unit 15 monitors the monitor. 11 and outputs an analog video output signal to the monitor 11 to display the image of the other party.

In the answering machine, the transmission video signal switching section 13 is connected to the transmission message VTR 12 side, and the transmission message VTR 12 is previously set.
The image message to the other party recorded in the above is reproduced and output to the preprocessing unit 2. The subsequent processing is the same as in the normal communication mode. The image message transmitted from the other party is processed in the same manner as in the normal communication mode and is sent to the post-processing unit 10. The received video signal switching unit 1
5 is connected to the received message VTR 14, and the analog video output signal from the post-processing unit 10 is recorded by the received message VTR 14.

Thus, the answering machine function for the image signal in the image communication terminal has been realized.

[0008]

However, in the above-mentioned configuration of the prior art, the transmission message VTR and the reception message VTR are required, so that the terminal becomes large and very expensive. Had.

[0009]

According to the present invention, the transmission message VTR, the reception message VTR, the transmission video signal switching unit, and the reception video signal switching unit in the configuration of the prior art are deleted, and in the answering machine mode. The first control unit for controlling the function of stopping the update of the previous frame memory unit so that the video image with the response message can be communicated to the other party's terminal, the message memory unit for storing the response message data, and the image from the camera. Is provided with a superimpose section for inserting a response message.

Further, the present invention is the transmission message VTR and the reception message VT in the configuration of the prior art.
R, the reception video signal switching unit is deleted, and the function of stopping the updating of the transmission frame memory unit is controlled so that the video image with the response message can be communicated to the other terminal in the answering machine mode, and the multiplexing / demultiplexing is performed. As a function of the unit 6, a second control unit for setting to a loopback mode (which returns a multiplexed video signal as a separated video signal by folding back a multiplexed video signal) which is generally used for testing, a menu screen for operation and a response message data storage A menu screen memory unit for operating, and a second superimposing unit for inserting an operation menu screen and a response message in a received image are provided.

Further, the present invention is the transmission message VTR and the reception message VT in the configuration of the prior art.
R, controlling the function of deleting the received video signal switching unit and stopping the update of the previous frame memory unit so that the video image with the response message can be communicated to the other terminal in the answering machine mode. Third control section for setting switching of input video signal to superimpose section, menu screen memory section for storing operation menu screen and response message data, second section for inserting operation menu screen and response message in received video And a response message video image switching unit for switching between a response message video image and a received image.

[0012]

The present invention has the above-mentioned configuration and is for V
Since the TR and the VTR for received message are not required, the superimposing function and the message answering function with the still image with the message can be realized only by adding the memory for the message data to the image communication terminal which does not have the answering machine function.
Since it is not necessary to specially prepare an image memory which requires a large capacity, it is very inexpensive and can be reduced in size.

[0013]

【Example】

(Embodiment 1) Hereinafter, a first embodiment of the present invention will be described with reference to FIG.
Will be explained. Here, the moving image compression algorithm is CCITT H.264. In the low-speed moving image compression algorithm recommended by H.261, multiplex / separation of the multiplex / separation unit 6 is CCIT.
TH. 221, which will be described below.

1 is a camera, 2 is a preprocessing unit, 3 is a difference calculation unit, 4 is a previous frame memory unit, 5 is a data length compression unit, 6
Is a multiplexing / demultiplexing unit, 7 is a network interface unit, 8 is a data length expanding unit, 9 is a received frame memory unit, 10 is a post-processing unit, 11 is a monitor, and 16 is a mode switching unit. These are the same as in the conventional example. Since they are the same, the same numbers are assigned and the description is omitted.

Reference numeral 18 is a first control unit for controlling the function of stopping the updating of the previous frame memory unit 4 so that the video image with a response message can be communicated to the other terminal in the answering machine mode, and 19 is a response message. A message memory unit 20 for storing data, and a superimposing unit 20 for inserting a response message in the image from the camera.

The operation of the image communication terminal configured as described above will be described below. The mode switching unit 1
When 6 is in the normal communication mode, the same operation as in the prior art is performed, and the description thereof is omitted.

Next, when the mode switching unit 16 switches the mode from the normal communication mode to the answering machine response mode, the first control unit 18 inputs the switching signal from the mode switching unit 16 to switch the mode. Detect that The video signal with the response message in which the response message from the message memory section 19 is inserted by the superimposing section 20 into the analog video input signal from the camera 1 at that timing is converted into the analog video input signal by the preprocessing section 2. Is converted into a common intermediate format to obtain a digital video transmission signal, and the difference calculation unit 3 calculates and outputs the difference between the digital video transmission signal and the previous frame of the previous frame memory unit 4, Image compression is performed. On the other hand, in the previous frame memory unit 4, the contents of the previous frame memory are updated by inverting and adding the difference output from the difference calculating unit 3. By stopping the update of the contents of the above by the first control unit 18, Storing a response message with the video image by using a frame memory.

By the above-described processing, the storage of the video image for the response message to the partner terminal in the answering machine can be completed. In this state, when the other terminal makes a call to the own terminal, the own terminal automatically responds and transmits the video signal held in the previous frame memory as a video image with a response message. In this way, the answering machine function can be realized.

(Second Embodiment) A second embodiment of the present invention will be described below with reference to FIG. Here, the moving image compression algorithm is CCITT H.264. In the low-speed moving image compression algorithm recommended by H.261, the multiplexing and demultiplexing of the multiplexing / separating unit 6 is CCITT H.264. 221, which will be described below.

1 is a camera, 2 is a preprocessing unit, 3 is a difference calculation unit, 4 is a previous frame memory unit, 5 is a data length compression unit, and 6
Is a multiplexing / demultiplexing unit, 7 is a network interface unit, 8 is a data length expanding unit, 9 is a reception frame memory unit, 10 is a post-processing unit, 11 is a monitor, 13 is a transmission video signal switching unit, 16
Is a mode switching unit. Since these are similar to the conventional example, the same reference numerals are given and description thereof is omitted.

Reference numeral 21 controls the function of stopping the update of the received frame memory unit 9 so that the video image with the response message can be communicated to the other terminal in the answering machine mode, and is tested as the function of the multiplexing / demultiplexing unit 6. A second control unit 22 is set to a loopback mode (which returns a multiplexed video signal as a separated video signal by folding back the multiplexed video signal), which is generally used for use, and stores a menu screen for operation and character message data for still images. Menu screen memory section,
A second superimposing section 23 is provided for inserting an operation menu screen and a response message into the received video.

The operation of the image communication terminal configured as described above will be described below. The mode switching unit 1
When 6 is in the normal communication mode, the same operation as in the prior art is performed, and the description thereof is omitted.

Next, when the mode switching unit 16 switches the mode from the normal communication mode to the answering machine response mode, the second control unit 21 inputs the switching signal from the mode switching unit 16 to switch the mode. Detect that The analog video input signal from the camera 1 at that timing is connected to the preprocessing unit 2 under the control of the transmission video signal switching unit 13. The preprocessor 2 converts the analog video input signal into a common intermediate format and outputs a digital video transmission signal. The difference calculating unit 3 performs image compression by calculating and outputting the difference from the previous frame in the previous frame memory unit 4 using this digital video transmission signal. On the other hand, the previous frame memory unit 4 updates the contents of the previous frame memory by inverting and adding the difference output from the difference calculating unit 3. The difference data output from the difference calculation unit 3 is compressed in data length by the data length compression unit 5 (this image compression process is encoded according to a low-speed moving image compression algorithm compliant with CCITT H.261 recommendation. Is also good). This multiplexed video signal is transferred to the multiplexer / demultiplexer 6
Then, the second control unit 21 sets the loopback mode to extract the separated video signal. The data length expansion unit 8 expands the data length of the separated video signal. The received frame memory unit 9 updates the contents of the frame memory of the received image by inverting and adding the expanded difference output from the data length expanding unit 8. By stopping the update by the second control unit 21,
The receiving frame memory is used to store the video image for the response message.

By the above-mentioned processing, the storage of the video image for the response message to the partner terminal in the answering machine can be completed. In this state, when the other party's terminal makes a call to this own terminal, the own terminal automatically answers,
The common intermediate formatted response message video image from the reception frame memory unit 9 is converted into an analog video output signal (composite video signal or the like) in the post-processing unit 10, and the second superimposing unit 2
3, the response message from the menu screen memory unit 22 is inserted, and the transmission video signal switching unit 13 connects to the preprocessing unit 2. The preprocessor 2 converts the analog video input signal into a common intermediate format and outputs a digital video transmission signal. The difference calculating unit 3 performs image compression by calculating and outputting the difference from the previous frame in the previous frame memory unit 4 using this digital video transmission signal. On the other hand, the previous frame memory unit 4 updates the contents of the previous frame memory by inverting and adding the difference output from the difference calculating unit 3. The difference data output from the difference calculation unit 3 is compressed in data length by the data length compression unit 5 (this image compression process is encoded according to a low-speed moving image compression algorithm compliant with CCITT H.261 recommendation. Is also good). The multiplexed video signal is multiplexed by the multiplexer / demultiplexer 6 with various signals such as other audio signals, data and system control signals, and a multiplexed transmission signal is output. In this way, the answering machine function can be realized.

(Embodiment 3) A third embodiment of the present invention will be described below with reference to FIG. Here, the moving image compression algorithm is CCITT H.264. In the low-speed moving image compression algorithm recommended by H.261, the multiplexing and demultiplexing of the multiplexing / demultiplexing unit 6 is CCITT H.264. 221, which will be described below.

1 is a camera, 2 is a preprocessing unit, 3 is a difference calculation unit, 4 is a previous frame memory unit, 5 is a data length compression unit, and 6
Is a multiplexing / demultiplexing unit, 7 is a network interface unit, 8 is a data length expanding unit, 9 is a reception frame memory unit, 10 is a post-processing unit, 11 is a monitor, 13 is a transmission video signal switching unit, 16
Is a mode switching unit. Since these are similar to the conventional example, the same reference numerals are given and description thereof is omitted.

Reference numeral 22 is a menu screen memory unit for storing the operation menu screen and response message data, 23 is a second superimposing unit for inserting the operation menu screen and response message in the received video, and 24 is a video image for the response message. And a received message video image switching unit for switching a received image, and 25 controls a function of stopping the update of the received frame memory unit 9 so that the video image with the response message can be communicated to the other terminal in the answering machine. However, a third control unit for setting the switching of the input video signal to the second superimposing unit 23 is provided.

The operation of the image communication terminal configured as described above will be described below. The mode switching unit 1
When 6 is in the normal communication mode, the same operation as in the prior art is performed, and the description thereof is omitted.

Next, when the mode switching unit 16 switches the mode from the normal communication mode to the answering machine response mode, the third control unit 25 inputs the switching signal from the mode switching unit 16 to switch the mode. Detect that The analog video input signal from the camera 1 at that timing is input to the second superimposing unit 23 as a response message video image by the response message video image switching unit 24 and is input to the second superimposing unit 2.
3, the response message from the menu screen memory unit 22 is inserted, and the transmission video signal switching unit 13 connects to the preprocessing unit 2. The video signal with the response message becomes a digital video transmission signal by converting the analog video input signal into a common intermediate format by the preprocessing unit 2, and the difference calculation unit 3 uses the digital video transmission signal to perform the previous frame. Image compression is performed by calculating and outputting the difference from the previous frame of the memory unit 4, while the previous frame memory unit 4 reverses and adds the difference output from the difference calculating unit 3. , The content of the previous frame memory is updated, but by stopping the update of the content of the previous frame memory by the third control unit 25, the video image with the response message is stored using the previous frame memory. .

By the above processing, the storage of the response message video image in the partner terminal in the answering machine can be completed. In this state, when the other terminal makes a call to the own terminal, the own terminal automatically responds and transmits the video signal held in the previous frame memory as a video image with a response message. In this way, the answering machine function can be realized.

[0031]

As described above, according to the present invention, as in the conventional example, the VTR for the transmission message and the VTR for the reception message are provided.
It is very inexpensive and small in size because it can be configured by simply adding an image storage memory for storing response message data and a simple control circuit to an image communication terminal that does not have an answering response function without using TR. Can be made smaller.

[Brief description of drawings]

FIG. 1 is a functional block diagram of a first embodiment of the present invention.

FIG. 2 is a functional block diagram of a second embodiment of the present invention.

FIG. 3 is a functional block diagram of a third embodiment of the present invention.

FIG. 4 is a functional block diagram of a conventional image communication terminal.

[Explanation of symbols]

1 camera 2 Pretreatment section 3 Difference calculator 4 Front frame memory section 5 Data length compression unit 6 Multiplexing / separating unit 7 Network interface section 8 Data length expansion section 9 Received frame memory section 10 Post-processing section 11 monitors 18 First control unit 19 Message memory section 20 Superimpose department 21 Second control unit 22 Menu screen memory 23 Second Superimposing Section 24 Video image switching unit for response message

─────────────────────────────────────────────────── ─── Continuation of the front page (58) Fields surveyed (Int.Cl. ⁷ , DB name) H04N ^7/ 14-7/15

Claims (3)

(57) [Claims] 1. A camera for inputting an image on its own side, a pre-processing unit for converting an analog video input signal into a digital video signal, a difference calculation unit for compressing the digital video signal, and before storing a previous frame of a transmission image. A frame memory unit, a data length compression unit for compressing the data length of the difference data output from the difference calculation unit, and various signals from the data length compression unit are multiplexed, and a multiplexed reception signal from a partner terminal is separated. A multiplexing / demultiplexing unit, a network interface unit that outputs a multiplexed transmission signal from the multiplexing / demultiplexing unit to a communication network, and outputs a multiplexed reception signal input from the communication network to the multiplexing / demultiplexing unit; / A data length decompression unit that decompresses the data length of the separated signal from the demultiplexing unit, a reception frame memory unit that reconstructs a reception image from the difference data and the previous frame,
An image communication terminal having a post-processing unit for converting a digital video signal into an analog video output signal, a monitor for displaying the analog video output signal, and a mode switching unit for switching the own terminal to a normal communication mode or an answering machine mode, A first control unit for controlling to stop the updating of the previous frame memory unit in the answering mode, a message memory unit for storing response message data, and a superimpose for inserting a response message in an image from the camera. When the mode switching unit switches from the normal communication mode to the answering machine response mode, the first control unit detects that the mode has been switched by the switching signal, and the superimposing unit is provided. Inserting the response message data of the message memory unit into the analog video input signal at At the same time, updating the contents of the frame memory is stopped, the analog video input signal in which the response message data is inserted is stored using the previous frame memory, and an automatic response is sent to the other terminal in the absence answer mode. An image communication terminal having an image with a response message for performing. 2. A camera for inputting an image on its own side and an analog
Pre-processing unit that converts video input signal to digital video signal
And a difference calculator for compressing the digital video signal, and transmitting
A previous frame memory section that stores the previous frame of the image, and
The data length of the difference data output from the difference calculation unit
A data length compression unit for reducing, and each of the data length compression units
Seed signal is multiplexed and the multiplexed received signal from the partner terminal is
A multiplex / separation unit for separating, multiplexing from the multiplexing / separation unit
Output the transmitted signal to the communication network and input from the communication network to multiplex.
A network interface for outputting an encoded received signal to the multiplexer / demultiplexer
Source part and data of the demultiplexed signal from the multiplexer / demultiplexer
The data length decompression part for decompressing the length, the difference data and the previous frame.
A received frame memory unit that restores the received image from the
After converting digital video signal to analog video output signal
Processing unit and monitor that displays analog video output signal
And switch your terminal to normal communication mode or answering machine mode
Mode switching section and the analog communication mode in the normal communication mode.
The video signal input signal is connected to the pre-processing unit and the answering machine is
Mode, the analog video output signal is sent to the pre-processing unit.
Image communication terminal having transmission video signal switching unit to be connected
However , if the multiplexer / demultiplexer is set to loopback mode,
Control to stop the update of the received frame memory section
2nd control unit, operating menu screen and response message
Menu screen memory section for storing data
The operation video and the response message are displayed on the video output signal.
A second superimposing section for inserting a message, and the mode switching section switches from the normal communication mode to the absence answering mode.
When the switch signal is switched to the
If the transmission mode is detected,
The analog video input signal is controlled by controlling the signal switching unit.
It is connected to a processing unit and the multiplexer / demultiplexer is connected to a loopback mode.
Mode and update the received frame memory section.
Stop and loop back the analog video input signal
Video reception image using the reception frame memory unit
If there is a call from the other terminal to the own terminal,
The received video image stored in the frame memory is
The post-processing unit converts the analog video output signal to the second video signal.
In the superimpose section of
Operation menu screen of the part and the response message data
Is inserted into the analog video input signal and the
Controls the video signal switching section to output analog video output signals
Connect to the pre-processing unit to enable the phase in the answering mode.
Image with response message for automatic response to hand side terminal
An image communication terminal characterized by: 3. A camera for inputting an image on its own side, a preprocessing unit for converting an analog video input signal into a digital video signal, a difference calculation unit for compressing the digital video signal, and before storing a previous frame of a transmission image. A frame memory unit, a data length compression unit for compressing the data length of the difference data output from the difference calculation unit, and various signals from the data length compression unit are multiplexed, and a multiplexed reception signal from a partner terminal is separated. A multiplexing / demultiplexing unit, a network interface unit that outputs a multiplexed transmission signal from the multiplexing / demultiplexing unit to a communication network, and outputs a multiplexed reception signal input from the communication network to the multiplexing / demultiplexing unit; / A data length decompression unit that decompresses the data length of the separated signal from the demultiplexing unit, a reception frame memory unit that reconstructs a reception image from the difference data and the previous frame,
A post-processing unit for converting a digital video signal into an analog video output signal, a monitor for displaying the analog video output signal, a mode switching unit for switching the own terminal to a normal communication mode or an answering mode, and an analog video in the normal communication mode. An image communication terminal having a transmission video signal switching unit for connecting an input signal to the pre-processing unit and connecting an analog video output signal to the pre-processing unit when in the answering machine mode, which comprises an operation menu screen and response message data. a menu screen memory unit for storing a second superimposing unit and, wherein the analog video signal source for supplying a second superimposing unit for inserting the operation menu and the response message to the analog video output signal Video image for response message switching between input signal and analog video output signal The mode switching unit includes a switching unit and a third control unit that performs switching setting of the input video signal of the second superimposing unit and controls to stop the update of the reception frame memory unit. When the normal communication mode is switched to the absence answering mode, the third control unit controls the transmission video signal switching unit to detect the analog video output signal by detecting the switching of the mode by the switching signal. An analog video input signal is connected to the second superimposing unit by controlling the response message video image switching unit by connecting to an analog video input signal from the camera. In the impose section, the menu screen for operating the menu screen memory section and the response message data are inserted into the analog video input signal, A digital video transmission signal in the preprocessing unit via the transmission video signal switching unit,
The control unit of the above further stops updating the content of the previous frame memory unit and stores it as a video image using the previous frame memory unit, and when a call is made from the other terminal to the own terminal, An image communication terminal, wherein the video image stored in the previous frame memory unit is an image with a response message for automatically responding to the partner terminal in the absence message mode.