JPH089347A - Video transmission equipment - Google Patents

Abstract

(57) [Abstract] [Purpose] To provide a moving image transmission apparatus which suppresses power consumption and is capable of longer communication. [Structure] The power remaining amount of the battery 122 is monitored by the power supply monitoring circuit 121.
Is detected, and based on this, the encoding frame rate calculation circuit 1
07 calculates an appropriate frame rate. The moving picture coding circuit 104 codes the moving picture signal at the calculated frame rate.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a moving picture transmission device,
More specifically, the present invention relates to a device that compresses and encodes a moving image signal for transmission.

[0002]

2. Description of the Related Art Recently, CCITT recommended H.264. A videophone device and a videoconference device using the high-efficiency moving image coding method defined in H.261 have been put into practical use. These devices compress moving image data by motion-compensated interframe prediction and DCT (discrete cosine transform) to obtain 64 kb.
Transmission is performed using an ISDN line at a bit rate of ps to 1.5 Mbps.

In addition, mobile phones and portable information devices are being put to practical use, and it is considered that the demand for portable videophone devices will increase in the future. Although the portable videophone device uses data transmission by a wireless line, the transmission speed of the digital portable phone line is about several tens kbps. A moving image is composed of 30 frames per second, but at a low bit rate of 128 kbps or less, it is difficult to transmit all frames, and it is common to drop frames. Note that conventionally, the number of images coded and transmitted in one second is called a frame rate.

[0004]

One of the problems in realizing a portable videophone device is the problem of power consumption.
The moving picture encoding and decoding processing requires more electric power than the audio transmission processing, but the electric power is supplied from a limited battery. Therefore, the communication time is limited by the power consumption for moving image transmission. Originally, when the battery level is low, it is considered appropriate to give priority to voice transmission over moving image transmission. In order to do so, the user may manually operate the operation / non-operation of the moving image transmission while considering the battery remaining amount, but it is very complicated.

Therefore, an object of the present invention is to provide a moving image transmission apparatus which consumes less power and can transmit a moving image for a long time.

[0006]

The invention according to claim 1 is
A moving image transmission apparatus in which power is supplied by an internal battery, and a frame rate is calculated based on a remaining amount detecting unit that detects the remaining amount of electric power of the battery and the remaining amount of electric power detected by the remaining amount detecting unit. Frame rate calculating means, moving picture coding means for coding the moving picture signal at the frame rate calculated by the frame rate calculating means, and transmitting means for transmitting the moving picture signal coded by the moving picture coding means It has and.

According to a second aspect of the present invention, there is provided a device for compressing and coding and transmitting a moving picture signal, the receiving means receiving the moving picture signal from the moving picture transmitting apparatus of the other party, and the receiving means. Moving picture decoding means for decoding the moving picture signal, moving picture coding means for coding the moving picture signal to be transmitted to the other party at the frame rate of the moving picture signal decoded by the moving picture decoding means, and moving picture And a transmission means for transmitting the moving image signal encoded by the image encoding means.

According to a third aspect of the present invention, there is provided a moving image transmission apparatus in which electric power is supplied by an internal battery, the remaining amount detecting means for detecting the remaining amount of electric power of the battery, and the remaining amount detecting means. A frame rate calculating unit that calculates a frame rate based on the remaining power, a receiving unit that receives a moving image signal from a moving image transmitting apparatus of the other party, and a moving image that decodes the moving image signal received by the receiving unit. A decoding unit, a comparison unit that compares the frame rate calculated by the frame rate calculation unit with the frame rate of the moving image signal decoded by the moving image decoding unit, and selects whichever is smaller, and a comparison unit. And a moving picture coded by the moving picture coding means for coding the moving picture signal to be transmitted to the other party at the frame rate selected by And a transmitting means for transmitting a signal.

[0009]

In the compression and decompression of moving images, the larger the frame rate, the larger the processing amount, even if the bit rate is the same.
Power consumption tends to increase when a DSP (digital signal processor) or the like is used. In particular, this tendency is remarkable in the coding process when motion compensation is performed.

Therefore, in the invention according to claim 1,
The power consumption is reduced by reducing the frame rate at the time of encoding the moving image signal according to the decrease in the battery remaining amount. As a result, the operation time can be extended.

In the invention according to claim 2, the frame rate of the moving image signal received from the communication partner is
By matching the moving image coding frame rates in the own device, the moving image decoding frame rate of the communication partner device is reduced.

Further, in the invention according to claim 3, the frame rate required by itself calculated based on the remaining battery level or the frame rate of the moving image signal received from the other party of communication, whichever is smaller, A moving image signal is encoded and decoded at a frame rate. As a result, it is possible to reduce the power consumption of both the own device and the communication partner device.

[0013]

1 is a block diagram showing the configuration of a portable videophone device according to a first embodiment of the present invention. In FIG. 1, the videophone device of this embodiment includes an antenna 1 and
The wireless modem 102, the multiplexing circuit 103, the moving image coding circuit 104, the video A / D converter 105, and the camera 1
06, the voice encoding circuit 107, and the voice A / D converter 1
08, a microphone 109, an encoding frame rate calculation circuit 120, a power supply monitoring circuit 121, and a battery 122.

Next, the operation of the first embodiment will be described. The image captured by the camera 106 is converted into digital data by the image A / D converter 105, and then compressed by the moving image encoding circuit 104. Meanwhile, the microphone 109
The audio signal captured by the audio A / D converter 1
After being converted into digital data at 08, the voice coding circuit 107 performs compression processing. The compressed data of video and audio is combined into one by the multiplexing circuit 103, converted into a radio signal by the radio modem 102, and the antenna 10
Sent from 1.

The frame rate of the compression processing in the moving picture coding circuit 104 is determined as follows. That is, the remaining power level of the battery 122 is determined by the power monitoring circuit 1
21 and the encoded frame rate calculation circuit 107 calculates an appropriate frame rate based on the detection. Figure 2
It is a figure which shows an example of calculation of an encoding frame rate. Figure 2
In, the line 201 shows the remaining battery level which decreases with time, and the line 202 shows that the coding frame rate decreases accordingly.

The moving picture coding circuit 104 performs frame dropping of the input frame according to the frame rate calculated by the coding frame rate calculation circuit 107. Therefore, the moving picture coding circuit 104 intermittently compresses and codes the video signal of the frame. Therefore, in the moving image coding circuit 104, a gate circuit for thinning out input frames according to the frame rate supplied from the coding frame rate calculation circuit 107 is provided.

By configuring the videophone device as described above, the frame rate for moving image coding is reduced as the battery level decreases, power consumption is suppressed, and longer communication is possible. In the first embodiment, the case where only the battery is used as the power source is shown, but a configuration that enables connection to an external power source device is also conceivable. In such a configuration, when the remaining battery power becomes low, the frame rate is increased again by connecting to the external power source.

FIG. 3 is a block diagram showing the configuration of a videophone device according to the second embodiment of the present invention. The videophone device according to the second embodiment is constructed as a videophone device as a communication partner of the videophone device according to the first embodiment. Although the videophone device of the first embodiment can reduce the power consumption by reducing the frame rate of moving image coding as the battery level decreases,
The frame rate and power during video decoding do not change. When the inter-frame prediction method is used, it is difficult to reduce the frame rate by processing only on the receiving side, that is, the decoding side, because the image cannot be reproduced unless all transmitted images are decoded. . Therefore, in the second embodiment, according to the coding frame rate of the video signal transmitted from the video telephone device of the first embodiment (which decreases as the remaining battery power decreases), the coding frame in the own device. By reducing the rate, the decoding frame rate of the videophone device of the first embodiment is reduced.

In FIG. 3, the configuration and operation for encoding moving images and audio and transmitting them to a wireless line are the same as those of the first embodiment except for the method of determining the encoding frame rate described later. Since it is the same as the device, the same reference numerals are given to the corresponding parts and the description thereof will be omitted. In the second embodiment, a demultiplexing circuit 310, a moving picture decoding circuit 311 and a video D are used as a moving picture and audio decoding system.
/ A converter 312, display device 313, audio decoding circuit 314, audio D / A converter 315, and speaker 31.
6 is provided.

Next, the decoding operation of the second embodiment will be described. The signal received by the antenna 101 is converted into digital data by the wireless modem 302, and separated into moving image data and audio data by the demultiplexing circuit 310. The voice data is expanded by the voice decoding circuit 314, passes through the voice D / A converter 315, and then the speaker 31.
Played by 6. The moving picture data is decompressed by the moving picture decoding circuit 311 and is displayed on the display device 313 via the video D / A converter 312. Moving picture coding circuit 10
The coding frame rate in No. 4 is determined based on the coding frame rate information 317 on the communication partner side obtained at the time of the expansion processing by the moving picture decoding circuit 311.

By configuring the videophone device as described above, in the portable videophone device of the first embodiment, which is a communication partner, not only the moving image coding but also the moving image is accompanied by the decrease of the battery level. The frame rate for image decoding is also reduced, power consumption is suppressed, and longer communication is possible.

FIG. 4 is a block diagram showing the configuration of a videophone device according to the third embodiment of the present invention. In FIG. 4, the videophone device of the third embodiment is a combination of the portable videophone device of the first embodiment and the videophone device of the second embodiment, that is, the portable videophone. The configuration is designed in consideration of the case of communication between devices. Therefore, the videophone device of the third embodiment has all the configurations of the first and third embodiments, and the comparison circuit 418 is newly added. In the third embodiment, the same parts as those in the first and second embodiments are designated by the same reference numerals, and the description thereof will be omitted.

Next, the operation for determining the coding frame rate in the third embodiment will be described. Comparison circuit 418
Is the self frame rate information 419 calculated by the encoding frame rate calculation circuit 120 according to the remaining capacity of the battery 122.
And the counterpart frame rate information 317 obtained by the moving picture decoding circuit 311 are compared, and the smaller one is used as the encoding frame rate. Video coding device 104
Performs frame dropping of the input frame according to the frame rate supplied from the comparison circuit 418, and intermittently compresses and encodes the video signal of the frame.

With the above structure, the third
In this embodiment, moving images can be communicated with each other at a frame rate suitable for the battery level of one's own and the battery level of the other party with a smaller battery level.

[0025]

According to the first aspect of the present invention, the frame rate at the time of encoding a moving image signal is reduced in accordance with the reduction of the battery level, so that the power consumption can be reduced. Video signals can be transmitted for a long time.

According to the second aspect of the present invention, the frame rate of the moving image signal received from the communication partner is matched with the moving image coding frame rate in the own device. Therefore, the moving image decoding in the communication partner device is performed. It is possible to reduce power consumption at the time of conversion.

According to the third aspect of the present invention, the smaller one of the frame rate required by itself calculated based on the remaining battery level and the frame rate of the moving image signal received from the communication partner, whichever is smaller. Since the moving image signal is encoded and decoded by, the power consumption can be reduced in both the own device and the communication partner device.

[Brief description of drawings]

FIG. 1 is a block diagram showing a configuration of a portable videophone device according to a first embodiment of the present invention.

FIG. 2 is a diagram showing an example of a coding frame rate calculation method in the first embodiment.

FIG. 3 is a block diagram showing a configuration of a videophone device according to a second embodiment of the present invention.

FIG. 4 is a block diagram showing a configuration of a portable videophone device according to a third embodiment of the present invention.

[Explanation of symbols]

 101 ... Antenna 102 ... Wireless modem 103 ... Multiplexing circuit 104 ... Moving picture coding circuit 105 ... Video A / D converter 106 ... Camera 107 ... Audio coding circuit 108 ... Audio A / D converter 109 ... Microphone 120 ... Code Frame rate calculation circuit 121 ... power supply monitoring circuit 122 ... battery 310 ... demultiplexing circuit 311 ... moving picture decoding circuit 312 ... video D / A converter 313 ... display device 314 ... audio decoding circuit 315 ... audio D / A Converter 316 ... Speaker 317 ... Partner frame rate information 418 ... Comparison circuit 419 ... Self frame rate information

Claims (3)

[Claims] 1. A moving image transmission apparatus in which electric power is supplied by an internal battery, wherein a residual amount detecting means for detecting a residual electric power amount of the battery, and a residual electric power amount detected by the residual amount detecting means are included. Frame rate calculating means for calculating a frame rate based on the frame rate; moving image encoding means for encoding a moving image signal at the frame rate calculated by the frame rate calculating means; and encoding by the moving image encoding means. And a transmitting means for transmitting the moving image signal. 2. A device for compressing and coding and transmitting a moving image signal, comprising: receiving means for receiving the moving image signal from a moving image transmitting device of a communication partner; and moving image signals received by the receiving means. A moving picture decoding means for decoding, a moving picture coding means for coding a moving picture signal to be transmitted to a communication partner at a frame rate of the moving picture signal decoded by the moving picture decoding means, and the moving picture A moving image transmission apparatus, comprising: a transmitting unit that transmits the moving image signal encoded by the encoding unit. 3. A moving image transmission apparatus in which electric power is supplied by an internal battery, wherein a residual amount detecting means for detecting a residual electric power amount of the battery, and a residual electric power amount detected by the residual amount detecting means are included. Frame rate calculating means for calculating a frame rate based on the moving image receiving means, receiving means for receiving a moving image signal from a moving image transmitting apparatus of a communication partner, and moving image decoding for decoding the moving image signal received by the receiving means. Comparing means for comparing the frame rate calculated by the frame rate calculating means with a frame rate of the moving image signal decoded by the moving image decoding means, and selecting whichever is smaller; A moving picture coding means for coding a moving picture signal to be transmitted to a communication partner at a frame rate selected by the means; and the moving picture coding means. And transmitting means for transmitting a moving picture signal encoded Te, moving picture transmission device.