JPH10248063A - Portable information terminal equipment - Google Patents

Abstract

PROBLEM TO BE SOLVED: To attain the reduction of power consumption due to moving image data compressing processing when a low frame rate is set by adjusting the value of frame rate in the image pickup of moving image and the value of frame rate in the compressing processing of moving image data corresponding to operation from the outside. SOLUTION: A CCD camera 203 inputs the moving image according to the frame rate set by a frame rate adjusting means 207 through a frame rate adjust knob and A/D converter 213 converts inputted analog moving image signals to digital moving image data and stores them in the frame memory of video compression/extension circuit 206. In this case, the circuit 206 compresses the moving image data inputted from the camera 203 and transfers them to a communication circuit 208. Then, the operating clock frequency of circuit 206 is controlled to an irreducibly minimum operating clock frequency according to the frame rate set by the adjusting means 207. Besides, when the frame rate is lower than a prescribed value, the circuit 206 is controlled so as not to perform motion compensation.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a portable information terminal device, and more particularly to a portable information terminal device which receives or transmits and receives a moving image and realizes a portable videophone or the like, thereby reducing power consumption of the portable information terminal device. Things.

[0002]

2. Description of the Related Art In recent years, there has been an increasing need for portable information terminal devices that can be freely carried. The portable information terminal device includes a wide range of devices from a mobile phone such as a PHS (Personal Handyphone System) to a personal information tool such as a PDA (Personal Data Assistant) and a portable computer such as a sub-notebook personal computer. Shall be referred to.

[0003] In the near future, it is expected that the reception or transmission and reception of moving images will be realized in such a portable information terminal device, and that a portable videophone function will be realized.

FIG. 5 is an external view of a configuration example of a portable information terminal device having a portable videophone function.

[0005] The portable information terminal device shown in FIG.
LCD screen and input pad 503, CC provided for
D camera 504, speaker 505, microphone 50
6, a communication modem terminal 507. The user makes an input to the liquid crystal display screen and the input pad 503 with an input pen or the like.
Image and audio data input from the CD camera 504 and the microphone 506 are transmitted via the communication modem terminal 507, and the received image and audio data are reproduced on the liquid crystal display screen 503 and the speaker 505.

Image transmission / reception processing using this portable information terminal device is performed as follows. The moving image data input from the CCD camera is compressed by a video compression / expansion circuit and wirelessly communicated through a communication circuit. On the other hand, image data received by the communication circuit is decompressed by a video compression / decompression circuit and passed through a video output device to a liquid crystal display screen 50.
3 is output. Thus, the function of the portable videophone is realized. The video compression / decompression circuit is based on H.264. 26
1, H. It is conceivable that the media complies with the international standard for media-integrated moving image compression such as H.263, MPEG1, and MPEG4. To realize these functions, Equation 1
0 to several hundred MOPS (Million Operations Per Secon
d) A video compression / decompression circuit having a high processing capability is required, and power consumption is inevitably increased. An example of the moving image data compression processing procedure on the image data transmitting side is as follows.

(1) The difference between the image data of the current frame and the image data of the previous frame is obtained. The direction and magnitude (motion vector) of the motion are detected (motion detection (ME: Moti
on Estimation)), the difference from the area moved by the motion vector is determined, and motion compensation (MC: Motion Compensation) is performed in units of 16 × 16 pixel macroblocks.

(2) The obtained difference is discrete cosine transformed (D
The amount of information is compressed by performing CT (Discrete Cosine Transform) and then quantizing (Q: Quantize) to obtain compressed difference information.

(3) The motion vector obtained in (1) and the compressed difference information obtained in (2) are output as compressed image data.

On the other hand, the first image or an image for which motion compensation cannot be performed is not subjected to motion compensation, and is transferred after performing discrete cosine transform. An image on which such motion compensation is not performed is called an intra image. On the other hand, an image that has been subjected to motion compensation and has become difference information from the image data of the previous frame is called an inter image. Usually, about 2/3 of all images are inter-images.

The moving image data decompression process on the image data receiving side is performed as follows in a procedure reverse to the image data compression processing procedure on the image data transmitting side.

(1) Dequantize received image data (Q
^-1 ) and inverse discrete cosine transform (IDCT: Indiscrete C
osine transform).

(2) If the image dequantized in (1) is an inter image, the image is shifted by the simultaneously received motion vector and added to the image data of the immediately preceding frame.

When such a moving image data compression / decompression process is performed on a portable information terminal device, since the portable information terminal device is mainly driven by a battery, the battery duration is significantly shortened.

On the other hand, the moving image transmitted and received does not necessarily have to be a smooth moving image.
An image having a frame rate of about frames / second (the number of frames per unit time) may be necessary and sufficient. In this case, if the frame rate is reduced, the amount of calculation required for the moving image data compression / decompression processing is reduced, so that the power consumption is also reduced and the battery drive time is lengthened.

[0016]

However, there is provided a portable information terminal device capable of receiving or transmitting and receiving a moving image as described above, wherein the user adjusts the frame rate of the moving image data. There is no such apparatus which has a problem that the user processes image data at an unnecessarily high frame rate, thereby increasing power consumption and speeding up battery consumption.

SUMMARY OF THE INVENTION The present invention has been made in view of this problem, and has as its object to provide a portable information terminal device capable of receiving or transmitting / receiving a moving image, and a configuration capable of reducing power consumption. To provide a portable information terminal device.

[0018]

As described above, since the moving image data compression / expansion processing requires a large amount of calculation,
The power consumption of the moving image data compression / decompression circuit increases. On the other hand, the portable information terminal device is driven by a battery, and thus it is necessary to reduce power consumption. However, when a moving image processing function is incorporated in the portable information terminal device to realize a portable videophone or the like, the battery duration is reduced. Has to be shorter.

Therefore, in the portable information terminal device according to the present invention, in order to suppress the power consumption due to the moving image data compression / decompression processing, a frame rate adjusting knob or the like which allows the user to change the frame rate of the image data by himself / herself. Adjusting means is provided. H. For example, a video phone of the H.263 standard handles a moving image of about 15 frames per second. However, depending on the user, a frame rate lower than this may be necessary and sufficient. In this case, the frame rate adjusting knob of the frame rate adjusting means is set to a low frame rate. Side, the frame rate is reduced,
It is possible to reduce power consumption and extend the battery duration.

When the frame rate is set low in moving image transmission, first, the operating frequency of the CCD camera decreases, and the moving image sampling rate decreases. Thereby, the power consumption of the CCD camera can be reduced.

Next, also in the image data compression processing, the operating frequency is set low, and the power consumption can be reduced. In addition, a certain value of the frame rate setting (for example, 5 frames / second)
Since it becomes meaningless to perform motion compensation below
The motion compensation circuit is bypassed, and the difference processing between frames is omitted. Thereby, power consumption by the motion compensation circuit can be eliminated.

When transmitting the compressed moving image data, the frame rate information of the moving image is also transmitted at the same time. The receiving side of the moving image first performs the expansion processing of the moving image data at a speed according to the frame rate of the received moving image, but the frame rate adjustment is set lower than the frame rate of the received moving image. Performs decompression processing of moving image data while thinning the moving image data.

The means described above is a means in which the user sets the frame rate by using a frame rate adjusting means having a frame rate adjusting knob or the like. It is also possible to automatically set the frame rate according to. In this case, when the battery capacity decreases, the frame rate is automatically adjusted and set to a low value, thereby reducing power consumption.

[0024]

Embodiments of a portable information terminal according to the present invention will be described below with reference to the drawings.

FIG. 1 is an external view of a portable information terminal device according to an embodiment of the present invention.

The portable information terminal device shown in FIG.
Frame rate adjusting knob 102, liquid crystal display screen and input pad 103, CCD camera 104, speaker 105, microphone 106, communication modem terminal 1
07. The user makes an input to the liquid crystal display screen and the input pad 103 with an input pen or the like, and when using as a portable videophone, image and voice data input from the CCD camera 104 and the microphone 106 via the communication modem terminal 107. And the received image and sound data are displayed on the liquid crystal display screen 103 and the speaker 1.
Play at 05. The frame rate of the data of the image to be transmitted and reproduced can be adjusted by a frame rate adjusting means provided inside via a frame rate adjusting knob 102.

FIG. 2 is a block diagram of the portable information terminal device according to the first embodiment of the present invention.

The portable information terminal device according to the first embodiment of the present invention comprises a central processing unit (CP)
U) 201, memory 202, screen display device 205, video compression / expansion circuit 206, communication circuit 208, audio processing device 209, CCD camera 203 connected to video compression / expansion circuit 206 via AD converter 213, video A frame rate adjusting means 207 having a frame rate adjusting knob or the like connected to a compression / expansion circuit 206 and a CCD camera 203; a display screen 204 connected to a screen display device 205 via a frame buffer 214 and a DA converter 215; The portable information terminal device includes a speaker 210 and a microphone 211 connected to the processing device 209, and a battery 212 for supplying power to each unit of the portable information terminal device.

The central processing unit 201 controls the entire portable information terminal device and performs necessary calculations while accessing the memory 202. The screen display device 205 displays information specified by the central processing unit 201 or moving image data from the video compression / expansion circuit 206 on a display screen 2 such as a liquid crystal screen.
04 is displayed. The video compression / expansion circuit 206 is, for example, The compression / decompression processing of the moving image data is performed in accordance with a moving image data compression method standardized by an international standard for media-integrated moving image compression such as H.263 and MPEG4. The CCD camera 203 receives a moving image from the outside and transfers it as moving image data to a video compression / expansion circuit. Microphone 211
Converts audio received from the outside into an electric signal, and transfers it to the audio processing device 209 as audio data. Communication circuit 2
08 denotes moving image data from the video compression / expansion circuit 206, audio data from the audio processing device 209, and CPU
The information from 201 is transmitted to another information terminal device by wire or wirelessly, or the information is received from another information terminal device. The battery 212 supplies power to the entire system of the portable information terminal device. The frame rate adjusting means 207 has a frame rate adjusting knob for the user to set a frame rate, and a mechanism for notifying the CCD camera 203 and the video compression / expansion circuit 206 of the set frame rate value.

When a portable videophone is realized by using the portable information terminal device according to the first embodiment of the present invention,
The processing of data and the like inside the device is performed as follows.

The moving image data input from the CCD camera 203 is input to the video compression / expansion circuit 206 via the AD converter 213, and is compressed by the video compression / expansion circuit 206. Audio data input from the microphone is also compressed by the audio processing device 209. These image data and audio data are transmitted via the communication circuit 208.

In the data compression / expansion processing in the video compression / expansion circuit 206, image data input from the CCD camera 203 is converted into, for example, H.264 data. The compression process is performed according to a moving image compression standard such as H.263. Here, H. The data compression processing will be described by taking the method of the H.263 standard as an example.

The CCD camera 203 inputs a moving image according to the frame rate set by the frame rate adjusting means 207 via a frame rate adjusting knob.
The D converter 213 converts the input analog moving image signal into digital moving image data,
6 is stored in the frame memory. Video compression / decompression circuit 2
Reference numeral 06 compresses the moving image data input from the CCD camera 203 and transfers it to the communication circuit 208. The operation clock frequency of the video compression / expansion circuit 206 is controlled to the minimum necessary operation clock frequency in accordance with the frame rate set by the frame rate adjustment means 207. When the frame rate is equal to or less than a predetermined value, for example, 5 frames / second, the video compression / expansion circuit 206 is controlled so as not to perform motion compensation and to use only image data of an intra image. This is because when the frame rate is low, the number of bits of data to be transferred does not become so large without performing motion compensation, and the motion between frames becomes large, so that motion compensation often cannot be performed. by.

FIG. 3 is a block diagram of a video compression / expansion processing circuit in the portable information terminal device according to the present invention.

This video compression / expansion processing circuit is roughly represented by P
LL circuit 301, encoding control section 302, discrete cosine transform (DCT) section 30
3, a quantization (Q: Quantize) unit 304, and a variable wavelength code multiplexer (VLC MUX: Variable Length Code).
Multiplexer) 305, buffer 306, inverse quantization (Q ^-1 ) unit 307, and inverse discrete cosine transform (IDCT:
The system includes an Indiscrete Cosine Transform (308) unit, a motion compensation (MC: Motion Compensation) unit 309, and a motion detection (ME: Motion Estimation) unit 310.

Image data compression processing in this video compression / expansion circuit is performed as follows. The reference numerals in parentheses correspond to the means in FIG. 3 for performing the processing.

(1) The difference between the image data of the current frame and the image data of the previous frame is obtained. The direction and magnitude (motion vector) of the motion are detected (motion detection (ME: Moti
on Estimation)) (reference numeral 310), a difference from a region moved by the amount of the motion vector is obtained, and motion compensation (MC: Motion Compensat) is performed in units of 16 × 16 pixel macroblocks.
ion) (reference numeral 309).

(2) The obtained difference is discrete cosine transformed (D
CT: Discrete Cosine Transform (code 30)
3) The amount of information is further compressed by quantizing (Q: 304) to obtain compressed difference information.

(3) The motion vector obtained in (1) and the compressed difference information obtained in (2) are output as compressed image data (reference numerals 305 and 306).

On the other hand, the first image or an image for which motion compensation cannot be performed is not subjected to motion compensation, and is transferred after performing discrete cosine transform. As described above, an image on which such motion compensation is not performed is called an intra image. On the other hand, an image that has been subjected to motion compensation and has become difference information from the image data of the previous frame is called an inter image. Usually about 2/3 of the total image
Is an inter image.

The moving image data decompression process on the image data receiving side is performed as follows in a procedure reverse to the image data compression processing procedure on the image data transmitting side.

(1) Dequantize received image data (Q
^-1 ) (symbol 307) and inverse discrete cosine transform (IDC
T: Indiscrete Cosine Transform
8).

(2) If the image dequantized in (1) is an inter image, the image is shifted by the simultaneously received motion vector and added to the image data of the immediately preceding frame.

The image data received by the communication circuit is subjected to a decompression process by a video compression / decompression circuit, and is output to a display screen by a screen display device.

FIG. 4 is a block diagram of a portable information terminal device according to a second embodiment of the present invention.

The portable information terminal device according to the second embodiment of the present invention comprises a central processing unit (CP)
U) 201, memory 202, screen display device 205, video compression / expansion circuit 206, communication circuit 208, audio processing device 209, CCD camera 203 connected to video compression / expansion circuit 206 via AD converter 213, video A frame rate adjusting means 207 'connected to the compression / expansion circuit 206 and the CCD camera 203 and having a function of detecting the remaining capacity of the battery 212;
Screen display device 205 via the D / A converter 215
, A speaker 210 and a microphone 211 connected to the audio processing device 209,
A battery 212 is connected to the frame rate adjusting means 207 'for detecting the remaining capacity and supplies power to each section of the portable information terminal device.

The central processing unit 201 controls the entire portable information terminal device and performs necessary calculations while accessing the memory 202. The screen display device 205 displays information specified by the central processing unit 201 or moving image data from the video compression / expansion circuit 206 on a display screen 2 such as a liquid crystal screen.
04 is displayed. The video compression / expansion circuit 206 is, for example, The compression / decompression processing of the moving image data is performed in accordance with a moving image data compression method standardized by an international standard for media-integrated moving image compression such as H.263 and MPEG4. The CCD camera 203 receives a moving image from the outside and transfers it as moving image data to a video compression / expansion circuit. Microphone 211
Converts audio received from the outside into an electric signal, and transfers it to the audio processing device 209 as audio data. Communication circuit 2
08 denotes moving image data from the video compression / expansion circuit 206, audio data from the audio processing device 209, and CPU
The information from 201 is transmitted to another information terminal device by wire or wirelessly, or the information is received from another information terminal device. The battery 212 supplies power to the entire system of the portable information terminal device. The frame rate adjusting means 207 'detects the remaining capacity of the battery 212, sets a low frame rate when the remaining capacity is low, and notifies the CCD camera 203 and the video compression / expansion circuit 206 of the set frame rate value. Having.

The portable information terminal according to the second embodiment of the present invention is different from the portable information terminal according to the first embodiment in that the frame rate adjusting means 207 'is manually operated. Rather, the point is that the remaining capacity of the battery 212 is detected and the frame rate is automatically set.

When realizing a portable videophone using the portable information terminal device according to the second embodiment of the present invention,
Processing of data and the like inside the device is the same as that of the portable information terminal device according to the first embodiment except for the operation of the frame rate adjusting means 207 ', and is performed as follows.

The moving image data input from the CCD camera 203 is input to the video compression / expansion circuit 206 via the AD converter 213, and is compressed by the video compression / expansion circuit 206. Audio data input from the microphone is also compressed by the audio processing device 209. These image data and audio data are transmitted via the communication circuit 208.

In the data compression / expansion processing in the video compression / expansion circuit 206, image data input from the CCD camera 203 is converted into, for example, H.264 data. The compression process is performed according to a moving image compression standard such as H.263. Here, H. The data compression processing will be described by taking the method of the H.263 standard as an example.

The CCD camera 203 inputs a moving image according to the frame rate automatically set by the frame rate adjusting means 207 'according to the remaining battery capacity.
The AD converter 213 converts the input analog moving image signal into digital moving image data, and
06 in the frame memory. The video compression / expansion circuit 206 compresses the moving image data input from the CCD camera 203 and transfers it to the communication circuit 208. The operating clock frequency of the video compression / expansion circuit 206 is controlled to the minimum necessary operating clock frequency in accordance with the frame rate automatically set by the frame rate adjusting means 207 'according to the remaining battery capacity. When the frame rate is equal to or less than a predetermined value, for example, 5 frames / sec, the video compression / expansion circuit 206 is controlled so as not to perform motion compensation and to use only the image data of the intra image. It is as described above in the description of the embodiment.

The image data compression processing in the video compression / expansion circuit is performed in the same manner as in the first embodiment.

[0054]

The first aspect of the portable information terminal device according to the present invention.
According to the configuration of the above, the value of the frame rate in the imaging of the moving image by the moving image imaging means such as a CCD camera and the value of the frame rate in the compression processing of the moving image data by the moving image data compression processing means can be controlled by external operations Frame rate adjusting means for adjusting the frame rate of the moving image data to be transmitted and played back can be arbitrarily set by the user as necessary. Power consumption by the compression processing can be reduced. Further, when the frame rate is set lower than the predetermined value, the power consumption can be further reduced by omitting the motion compensation processing in the moving image data compression processing.

According to the second configuration of the portable information terminal device according to the present invention, the frame rate value and the moving image data by the moving image data compression processing unit when the moving image is picked up by the moving image pickup unit such as a CCD camera. Frame rate adjusting means for adjusting the value of the frame rate in the compression processing according to the remaining capacity of the battery that supplies power to the portable information terminal device, so that the frame rate of the moving image data to be transmitted and reproduced can be adjusted. It can be set according to the remaining capacity of the battery, and when the remaining capacity of the battery is low, the frame rate is set low, so that the battery driving time of the portable information terminal device can be extended. .

[Brief description of the drawings]

FIG. 1 is an external view of a portable information terminal device according to an embodiment of the present invention.

FIG. 2 is a block diagram of the portable information terminal device according to the first embodiment of the present invention.

FIG. 3 is a block diagram of a video compression / expansion processing circuit in the portable information terminal device according to the present invention.

FIG. 4 is a block diagram of a portable information terminal device according to a second embodiment of the present invention.

FIG. 5 is an external view of a configuration example of a portable information terminal device having a portable videophone function.

[Explanation of symbols]

101, 501 Portable information terminal device main body 102 Frame rate adjusting knob 103, 503 Liquid crystal display screen and input pad 104, 504 CCD camera 105, 505 Speaker 106, 506 Microphone 107, 507 Communication modem terminal 201 Central processing unit (CPU) 202 Memory 203 CCD camera 204 Display screen 205 Screen display device 206 Video compression / expansion circuit 207, 207 'Frame rate adjusting means (frame rate adjusting circuit) 208 Communication circuit 209 Audio processing circuit 210 Speaker 211 Microphone 212 Battery 213 AD converter 214 Frame buffer 215 DA converter 301 PLL circuit 302 Coding control unit 303 Discrete cosine transform (DCT) unit 304 Quantization (Q) unit 305 Variable wavelength code multiplexing Apparatus (VLC MUX) 306 buffer 307 inverse quantization (Q ^-1) unit 308 inverse discrete cosine transform (IDCT) unit 309 a motion compensation (MC) unit 310 motion estimation (ME) unit

Claims (13)

[Claims] 1. A moving image capturing means for capturing a moving image; a moving image data compression processing means for compressing moving image data captured by capturing a moving image by the moving image capturing means; A portable information terminal device having communication means for transmitting moving image data compressed by a processing means to the outside, wherein a value of a frame rate in capturing a moving image by the moving image capturing means and the moving image data compression processing means A portable information terminal device comprising a frame rate adjusting means for adjusting a value of a frame rate in a moving image data compression process according to (1). 2. The portable information terminal device according to claim 1, further comprising a moving image display means for displaying a moving image. 3. The portable information terminal device according to claim 1, wherein an operating frequency of said moving image data compression processing means is in accordance with a value of a frame rate adjusted by said frame rate adjusting means. A portable information terminal device characterized by being variably controlled. 4. The portable information terminal device according to claim 3, wherein said moving image data compression processing means has a minimum necessary computing capacity corresponding to a value of a frame rate adjusted by said frame rate adjustment means. A portable information terminal device wherein the operating frequency is variably controlled so as to be obtained. 5. The portable information terminal device according to claim 1, wherein said moving image data compression processing means has a motion compensation means for performing motion compensation between frames. Portable information terminal device. 6. The portable information terminal device according to claim 5, wherein when the value of the frame rate is adjusted to a predetermined value or less by the frame rate adjusting means, the moving image data compression processing means performs the moving image data processing. A portable information terminal device wherein the operation of the compensation means is stopped so that the motion compensation is not performed. 7. The portable information terminal device according to claim 1, wherein the adjustment of the frame rate value by said frame rate adjusting means is performed according to an external operation. Portable information terminal device. 8. The portable information terminal device according to claim 1, wherein the adjustment of the frame rate value by said frame rate adjusting means is performed by using a battery for supplying power to said portable information terminal device. A portable information terminal device which is performed according to a remaining capacity. 9. A camera for capturing a moving image at a frame rate of the adjusted value, a moving image data compression processing unit for compressing moving image data converted from a moving image captured by the camera, and the moving image A communication unit that transmits the moving image data compressed by the image data compression processing unit to the outside; a value of the frame rate in capturing a moving image by the camera; and a value of a frame rate of the moving image data to be compressed. Frame rate adjusting means for adjusting the moving image data compression processing means according to an operation from the outside, the operating frequency of the moving image data compression processing means is variably controlled according to the value of the frame rate adjusted by the frame rate adjusting means A portable information terminal device characterized in that: 10. A battery for supplying power, a camera for capturing a moving image at a frame rate of an adjusted value, and moving image data for compressing moving image data converted from a moving image captured by the camera. Compression processing means; communication means for transmitting the moving image data compressed by the moving image data compression processing means to the outside; a value of the frame rate in capturing a moving image by the camera; And a frame rate adjusting means for adjusting the value of the frame rate of the data according to the remaining capacity of the battery. The operating frequency of the moving image data compression processing means is a frame rate adjusted by the frame rate adjusting means. The portable information terminal device is variably controlled according to the value of. 11. The portable information terminal device according to claim 9, wherein an operating frequency of said moving image data compression processing means is in accordance with a value of a frame rate adjusted by said frame rate adjusting means. A portable information terminal device which is variably controlled so as to obtain a necessary minimum computing capacity in the moving image data compression processing means. 12. The portable information terminal device according to claim 9, wherein said moving image data compression processing means has a motion compensation means for performing motion compensation between frames. Portable information terminal device. 13. The portable information terminal device according to claim 12, wherein when the frame rate value is adjusted to a predetermined value or less by the frame rate adjusting means, the moving image data compression processing means performs the moving image data compression. A portable information terminal device wherein the operation of the compensation means is stopped so that the motion compensation is not performed.