JP3464102B2 - Videophone equipment - Google Patents

Description

Description: BACKGROUND OF THE INVENTION [0001] 1. Field of the Invention [0002] The present invention relates to a video telephone apparatus for transmitting and receiving images and sounds. 2. Description of the Related Art FIG. 2 is a block diagram of a conventional video telephone. [0003] One purpose of a video telephone apparatus for transmitting and receiving images and sounds is to grasp the situation in a remote place. For grasping the situation of a remote place in an image communication system, the overall atmosphere can be obtained by a moving image, but when grasping the detailed situation, it is necessary to rely on a high-resolution and high-quality still image. . When obtaining a high-resolution image, first set the encoding method settings on the encoding side and the decoding side to high resolution,
When a moving image is frozen in order to encode and transmit a high-resolution input image from the input unit and obtain a high-resolution still image, the freeze is performed after setting the resolution to a high resolution. Taking the image coding method H.261 as an example, a frame memory for one frame is usually provided at the beginning of the coding unit in order to separate the data into blocks and perform coding. Is subjected to down-sampling and the like to obtain an image having the resolution required in the encoding process, put the image data in the frame memory, and perform the encoding process. For this reason, when the image is frozen, it is realized by stopping the update of the frame memory, and when obtaining a high-resolution image, the image is changed to a high-resolution image in a process before storing the image in the frame memory. Processing. [0004] Since the frame rate of a moving image depends on the transmission rate of the transmission path itself and the bit amount of the encoded moving image, the frame rate must be set to a high resolution. When the moving image is frozen, the bit amount of the encoded moving image increases, and the frame rate of the moving image decreases. In addition, a high-resolution image has a larger number of pixels and requires more processing time for encoding. For this reason, when a still image is selected based on a decoded moving image, a large difference occurs between the decoded image selected at the decoding side and the image encoded at the encoding side at that time. As a result, there arises a problem that the requested still image cannot be obtained. As a method for avoiding this problem, by holding the original image of the image previously encoded on the encoding side, a still image of the selected image itself can be obtained. However, in this method, at least the number of original images corresponding to the time from when encoding is performed on the encoding side to when decoding is performed on the decoding side and the still image request signal returns to the encoding side is held. This requires a large amount of memory. SUMMARY OF THE INVENTION The present invention has been made to solve these problems. In a videophone apparatus for transmitting and receiving images and voice information, an image pickup section for obtaining an image, and the image pickup section A first memory unit for storing the image data obtained in step 1, a downsampling unit for reducing the sampling number of the image data stored in the first memory unit, and the first memory unit or the downsampling unit A coding unit for coding image data from
The image data from the memory unit of the
Alternatively, a first selection unit that switches a path so as to send the data to the encoding unit via the downsampling unit, a transmission / reception unit that transmits / receives encoded data, and a decoding unit that decodes the received encoded data. An upsampling unit for increasing the number of samplings of image data stored in the decoding unit, a second memory unit for storing image data from the decoding unit or the upsampling unit, and a second memory unit. A display unit for displaying the image data from the memory unit and a path for directly sending the image data from the decoding unit to the second memory unit or sending the image data to the second memory unit via the upsampling unit. When the resolution of the encoded data is set to a high resolution with the second selecting unit, the image data from the first memory unit is directly sent to the encoding unit, The image data from the recording / decoding unit is directly sent to the second memory unit, and when the resolution of the encoded data is set to a low resolution, the image data from the first memory unit is transmitted to the second memory unit via the downsampling unit. A control unit for controlling the first and second selection units to send to the encoding unit and to send the image data from the decoding unit to the second memory unit via the upsampling unit, When a still image is obtained by freezing a moving image, the control unit sets the resolution of the coded data of the moving image to a low resolution, and when a freeze request of the coded data is issued, the control unit sets the image data in the first memory unit. Is stopped, and the resolution of the encoded data is changed to a higher resolution. This makes it possible to select an image to be frozen based on a low-resolution decoded moving image with a high frame rate, and to increase the resolution of the image after the freeze, and to provide a decoded image at the time of selection on the decoding side, The difference from the image encoded on the encoding side at the time is reduced, and it is possible to obtain a high-resolution still image with high resolution close to the requirement. An embodiment of the present invention will be described below with reference to the drawings. FIG. 1 is a basic configuration diagram of the videophone device of the present invention. In FIG. 1, image data obtained by the imaging unit 1 is stored in the memory unit 2.
The images in the memory unit 2 are converted into high resolution or low resolution in the selection units 3 and 5, sent to the encoding unit 6, encoded, and transmitted to the other party via the transmission path 8 by the transmission unit 7. You. The selection units 3 and 5 are selected by the resolution signal 10 from the control unit 11 to determine the resolution of the image to be encoded.
In the case of high resolution, the image data in the memory unit 2 is encoded by the encoding unit 6 as it is, while in the case of low resolution, the image data in the memory unit 2 is downsampled by the downsampling unit 4 and then encoded. It is encoded by the unit 6.
Further, the encoding unit 6 changes the encoding process depending on the resolution based on the resolution signal 10 from the control unit 11. The freeze of the image data is performed by stopping the update of the image data in the memory unit 2 by the freeze signal 9 from the control unit 11. In the encoding process of the image data, the memory unit 2 for performing the freeze process is located before the selecting units 5 and 6 and the downsampling unit 11 for performing the resolution conversion process. It is possible to change the resolution of the image to be encoded regardless of the freeze of the image to be encoded. Thereby, it is possible to select an image to be frozen based on a low-resolution decoded moving image with a large frame rate, and to set the resolution of the image to a high resolution after the freeze, and a decoded image at a time point selected on the decoding side,
The difference from the image that is being encoded on the encoding side at that time is reduced, and it is possible to obtain a high-resolution still image with high resolution close to the requirement. On the decoding side, the receiving unit 2
The coded data received at 1 is decoded by the decoding unit 20 into image data. The upsampling unit 18 upsamples the image data from the decoding unit 20. The memory unit 16 stores the image data from the decoding unit 13 or the upsampling unit by the selection units 17 and 19. The display unit 15 displays the image data of the memory unit 16. When the resolution of the encoded data to be received is changed, the decoding unit 20 changes the decoding process based on the resolution according to the resolution signal 14 from the control unit 11. The processing of the image data is selected by the selection units 17 and 19 based on the resolution signal 14 based on the resolution of the image data to be decoded and the enlarged signal 13 based on the image size displayed on the display unit 15. If the resolution is low when the enlarged signal 13 does not require upsampling,
The image data of the decoding unit 20 is upsampled by the upsampling unit 18 and stored in the memory unit 16. On the other hand, when the resolution is high, the image data of the decoding unit 20 is stored in the memory unit 16 as it is. That is, low-resolution image data is up-sampled to the number of pixels at the time of high resolution. The memory unit 16 includes the control unit 11
The update of the image data is stopped by the freeze signal 12 from. The control unit 11 controls the transmission unit 7 and the transmission path 8 when there is a freeze request for the decoded image or a request for changing the resolution, or when there is a freeze request for the coded image or the resolution is changed.
And sends a control signal to the other party. Also, when the other party requests a freeze or a change in resolution, a freeze signal 9 or a resolution signal 10 is issued, and when there is a control signal accompanying a change in the resolution of an encoded image to be received,
A resolution signal 14 is emitted. In the decoding process of image data, upsampling process is performed according to the resolution of the received encoded data, so that the displayed image size can be kept constant regardless of the change in the resolution of the encoded data Becomes As described above, according to the present invention, an image to be frozen is selected based on a low-resolution decoded moving image having a large frame rate, and the image resolution is increased after the freeze. , The decoded image at the time selected on the decoding side,
The difference from the image coded on the coding side at that time is reduced, and it becomes possible to obtain a high-resolution still image with high resolution close to the demand.

[Brief description of the drawings] FIG. 1 is a basic configuration diagram of a videophone device of the present invention. FIG. 2 is a configuration example of a conventional videophone device; [Explanation of symbols] 1 Imaging unit 2 Memory section 3 Selection section 4 Down sampling unit 5 Selection section 6 Encoding unit 7 Transmission section 8 Transmission line 9 Freeze signal 10 Resolution signal 11 Control part 12 Freeze signal 13 Magnification signal 14 Resolution signal 15 Display 16 Memory section 17 Selection section 18 Upsampling unit 19 Selection section 20 Decoding unit 21 Receiver

──────────────────────────────────────────────────続 き Continued on the front page (58) Field surveyed (Int.Cl. ⁷ , DB name) H04N ^7/ 14-7/15 H04N ^7/ 24-7/68 H04M 11/06

Claims (1)

(57) [Claim 1] In a videophone apparatus for transmitting and receiving image and audio information, an image pickup unit for obtaining an image and a first memory unit for storing image data obtained by the image pickup unit. A downsampling unit that coarsens the sampling number of image data stored in the first memory unit; an encoding unit that encodes image data from the first memory unit or the downsampling unit; A first selection unit for switching a path to directly transmit image data from the first memory unit to an encoding unit or to transmit the image data to the encoding unit via the downsampling unit; A transmission / reception unit for transmitting / receiving data, a decoding unit for decoding received encoded data, and an upsampler for increasing a sampling number of image data stored in the decoding unit A second memory unit for storing image data from the decoding unit or the upsampling unit; a display unit for displaying image data from the second memory unit; and image data from the decoding unit. A second selector for switching the path so as to send the data directly to the second memory unit, or to send the data to the second memory unit via the upsampling unit;
When the resolution of the encoded data is set to a high resolution , the image data from the first memory unit is directly sent to an encoding unit, and the image data from the decoding unit is sent directly to a second memory unit. the resolution of the encoded data low resolution
In this case, the image data from the first memory unit is sent to the encoding unit via the downsampling unit,
A control unit for controlling the first and second selection units so that the image data from the decoding unit is sent to the second memory unit via the up-sampling unit; when obtaining a still image, before
Serial control unit the resolution of the encoded data of a moving image and a low resolution, when the freeze request of the coded data is, stopping the updating of the image data of the first memory unit co
A videophone device wherein the resolution of encoded data is changed to a high resolution .