JPH11252041A - Code division multiplex moving image information distribution device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a device for deciding the resolution of video information to be transmitted based on a distance between a user and a video display device while it is necessary to statistically reduce interference signals as much as possible in order to reduce moving image information from a base station in a digital communication system where the base station and a mobile station perform moving image communication by a code division multiplex system. SOLUTION: In the digital communication system where the base station and the mobile station perform the moving image communication by the code division multiplex system, the mobile station detects the distance between the video display device 1 and the user by a distance sensor 3, decides a required transmission data rate and informs the base station of the information of the decided transmission data rate. Thus, the video images of a high resolution are provided when the user is present near a video display terminal and the images whose resolution is lowered stepwise are displayed as the user moves away from the video display terminal.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a digital communication system using a code division multiplexing (CDM) system.
More specifically, the present invention relates to a digital communication system in which a base station and a mobile station perform video communication based on a code division multiplex system.

[0002]

2. Description of the Related Art Conventionally, as a commercial communication system using a code division multiplex communication system (CDM system), a CDMA cellular system represented by the IS-95 system has been known. In this CDMA cellular system, the same wireless channel is shared by a plurality of users. In order for a plurality of users to share the same wireless channel, the transmitting side spreads the user's data with different spreading codes, spreads the data, and transmits the spread data. On the receiving side, by despreading the transmitted radio signal, a desired signal (desired signal), which is the same spreading code for both transmission and reception, and another user's signal (interference signal) spread with a different code. To distinguish between

In this case, the speed (chip rate) of the spread code is set sufficiently higher than the data speed (data rate), and is usually several tens of times. With the chip rate ratio, only the desired signal obtains the processing gain, and it is possible to discriminate and demodulate only the desired signal from the interference signals generated by many other users. However, in this CDM transmission,
If there are many other users on the same frequency channel exceeding the spreading gain, or if an interference signal exceeding the spreading gain is generated in an unexpected situation, a communication impossible state may occur. Therefore, in a CDMA system, reducing the interference signals that are constantly present on the same channel is important in securing the communication capacity of the system.

[0004] Currently, voice communication and low-rate data communication are the main services of the IS-95 system. In the case of voice communication, taking into account the situation described above,
The base station, according to the ratio of the silent section and the sound section of the voice,
The transmission data rate is sequentially changed in units of 20 msec per frame. At this time, if the transmission power is controlled according to the transmission data rate, it is possible to statistically reduce the amount of interference of other users on the same channel, which can be used to improve communication capacity.

[0005] Furthermore, IMT-20, which is a third generation system,
Also in 00, a wideband CDMA system is being studied. In the future, multimedia communication based on this IMT-2000 technology will spread, and mobile terminals such as movies, animations, commercial films, etc.
It is assumed that a broadcasting service using moving image information may be generalized.

[0006]

SUMMARY OF THE INVENTION The above-mentioned IMT-2
If multimedia communication based on 000 technologies spreads, not only voice communication and low-rate data communication,
Multimedia such as moving image information, high-speed data communication, and hi-fi sound is multiplexed and transmitted by the CDM method. However, when attempting to transmit a large amount of video information such as a moving image by CDM, an increase in data amount requires an increase in transmission energy required for one line, and as a result, an increase in interference signal amount is required. This causes a problem that the number of lines is greatly reduced. At the same time, from symmetrical reception and transmission such as voice communication, mobile stations are expected to increase the number of services with asymmetric traffic, such as broadcast-type services that mainly receive only video information. You.

An object of the present invention is to reduce the moving image information from a base station in consideration of such a situation. In order to solve such a problem, it is necessary to reduce interference signals as statistically as possible in a video distribution system using CDM from the viewpoint of securing communication capacity. Therefore, an object of the present invention is to provide an apparatus for determining the resolution of video information to be transmitted based on the distance between a user and a video display device.

[0008]

According to the present invention, in a digital communication system in which a base station and a mobile station perform moving image communication by a code division multiplex system, the mobile station uses a distance sensor to connect a video display device and a user. The required transmission data rate is determined by detecting the distance therebetween, and information on the determined transmission data rate is reported to the base station.

[0009]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS According to the present invention, in a digital communication system in which a base station and a mobile station perform video communication based on a code division multiplexing method, other mobile stations can become strong interference signals as interference signals on the same channel. Highly, in order to avoid that the video signal of a specific mobile station is constantly transmitted, when the user of the mobile station does not need the video information, the base station transmits the video signal. It is characterized in that moving image information is appropriately reduced and transmitted. In this case, the distance between the user and the video display device of the mobile station is used to determine how much the user of the mobile station needs the moving image information. The station always notifies the base station of the required data rate at regular intervals.

FIG. 1 is a perspective view showing an example of the general configuration of a mobile station in a code division multiplexed moving picture information distribution apparatus of the present invention. In the reference numerals in the drawing, 1 is a video display device, 2
Denotes an infrared light source, 3 denotes a distance sensor, and 4 denotes a wireless device.

For recognition of the distance between the user and the image display device 1, a distance sensor 3 using infrared rays is used. The distance sensor 3 itself has conventionally been equipped with a distance sensor using infrared rays in order to realize an autofocus function in a compact camera or the like. Here, the principle of the autofocus function will be briefly described.

FIG. 2 is a diagram for explaining the principle of the autofocus function. The reference numerals in the figure are the same as those in FIG.
Reference numeral 5 denotes a camera body, 6 denotes a subject, and 7 denotes infrared light.

FIG. 3 is a schematic side view for explaining the principle of the distance sensor. In the reference numerals in the figure, 8 is reflected infrared light, 9
Indicates a pinhole.

The mechanism shown in FIG. 2 is a conventionally known technique as an autofocus function of a compact camera. As shown in FIGS. 2 and 3, the distance sensor 3 using infrared rays emits infrared rays from the front of the camera body 5,
An infrared ray is reflected by the subject 6 (user), and an incident angle θ of the reflected infrared light 8 is obtained through a pinhole 9 provided in the front part of the camera body 5. Here, since the value of x is known, θ can be obtained by measuring the value of y. At this time,
When the subject 6 is close, the incident angle θ is large, and conversely, when the subject 6 is far, the incident angle θ is small.
And the distance can be measured.

When the user (subject 6) is close to the video display device 1, a video of a desired resolution is transmitted, and when the user is away from the mobile station, the resolution of the moving image to be transmitted is stepwise. To transmit relatively coarse video. Conversion of the resolution of a moving image is realized, for example, by subsampling the moving image two-dimensionally in frame units, passing the image signal through a low-pass filter, and sampling and quantizing again at a desired data rate. it can. That is, the transmission quality of the video is kept constant at the quality normalized by the distance between the video display device 1 and the user (subject 6). Next, the configuration of the base station will be described.

FIG. 4 is a functional block diagram showing an example of a processing system of a base station in the code division multiplexed moving picture information distribution apparatus of the present invention. In the reference numerals in the figure, 11 is a receiving device, 12 is a despreading and decoding device, 13 is a CPU, 14
Denotes a moving image server, 15 denotes a resolution conversion device, 16 denotes a code and spreading device, 17 denotes a variable power device, and 18 denotes a transmission device.

The base station has a configuration as shown in FIG. 4, and the CPU 13 controls the resolution, the rate, and the power based on the information on the transmission data rate notified from the mobile station. . The operation is shown in FIG. 6 described later.

FIG. 5 is a functional block diagram showing an example of a processing system of a mobile station in the code division multiplexed moving picture information distribution apparatus of the present invention. In the reference numerals in the figure, 21 is a receiving device, 22 is a despreading and decoding device, 23 is a moving image synthesizing device, 24 is a video display device, 25 is a distance sensor, 26 is a data rate determining means, 27 is a code and spreading device, 28
Denotes a variable power device, and 29 denotes a transmitting device.

The mobile station has a configuration as shown in FIG. 5, and a receiving apparatus 21, a despreading / decoding apparatus 22, and a moving picture synthesizing apparatus 23 display a moving picture transmitted from a base station on a video display apparatus 24. Display on the screen. Further, the distance between the user and the video display device 24 is measured by the distance sensor 25, and
The transmission data rate corresponding to the measurement result of the distance between the user and the video display device 24 is determined and notified to the base station. The above operation is shown in a flowchart.

FIG. 6 is a flowchart showing a flow of main processing at the time of transmission in the code division multiplexed moving picture information distribution apparatus of the present invention.

In step S1, the distance between the user and the image display device is measured. In step S2, a transmission data rate is determined according to the distance measurement result. Step S
At 3, the mobile station notifies the base station of information on the determined transmission data rate. In step S4, the base station controls the resolution based on the received information on the transmission data rate. In step S5, it is checked whether the transmission has been completed. If the transmission has not been completed yet, step S5 is performed again.
1 is performed.

[0022]

According to the present invention, when the user is in the vicinity of the video display terminal, a high-resolution video is provided, and as the user moves away from the video display terminal, an image whose resolution is reduced stepwise is displayed. I do. Therefore, for example, it is assumed that a plurality of people use the same video distribution service on the same channel, and that a certain user receives the service only intermittently. In this case, the base station can reduce the transmission energy by lowering the transmission rate of the moving image information, so that it becomes possible to reduce the amount of interference with other users on the same channel, It is possible to contribute to an increase in the line capacity in the same channel. In particular, CD
When the distribution service of a large amount of data such as moving image information according to the M system is generalized, an effective effect for securing the number of accommodated wireless stations is exhibited.

[Brief description of the drawings]

FIG. 1 is a perspective view showing an example of a general configuration of a mobile station in a code division multiplexed moving picture information distribution device of the present invention.

FIG. 2 is a diagram illustrating the principle of an autofocus function.

FIG. 3 is a schematic side view illustrating the principle of a distance sensor.

FIG. 4 is a functional block diagram showing an example of a processing system of a base station in the code division multiplexed moving picture information distribution device of the present invention.

FIG. 5 is a functional block diagram showing an example of a processing system of a mobile station in the code division multiplexed moving picture information distribution device of the present invention.

FIG. 6 is a flowchart showing a main processing flow at the time of transmission in the code division multiplexing moving picture information distribution apparatus of the present invention.

[Explanation of symbols]

1. Image display device 2. Infrared light source 3. Distance sensor 4. Wireless device

Claims (3)

[Claims] 1. A digital communication system in which a base station and a mobile station perform moving image communication using a code division multiplexing method, wherein the base station transmits a moving image to be transmitted based on transmission data rate information notified from the mobile station. Means for changing the resolution of information, means for variably controlling a transmission data rate based on the amount of transmission data per unit time, and means for variably controlling transmission power in proportion to the transmission data rate, The station is means for synthesizing a moving image having a resolution from information transmitted from the base station, a video display device for displaying the synthesized video information, and a distance sensor for measuring a distance between the video display device and a user. The mobile station determines the required transmission data rate by detecting the distance between the video display device and the user by the distance sensor, the determined transmission data rate A code division multiplexed moving picture information distribution device comprising a base station and a mobile station. 2. The base station controls a transmission data amount per unit time stepwise by changing a resolution of moving image information to be transmitted based on transmission data rate information notified from the mobile station. 2. A code division multiplexed moving picture information distribution device comprising a base station and a mobile station according to claim 1, wherein: 3. The code division system according to claim 1, wherein the base station variably controls the transmission data rate stepwise based on the amount of transmission data per unit time. A multiplex video information distribution device.