KR20040006050A - Satellite-internet interactive data transmission and reception system using cached service - Google Patents

Abstract

PURPOSE: A satellite-internet bidirectional data transmitting/receiving system using accumulation type service is provided to play past information of a watching channel in real time without any additional recording function since information transmitted in real time is automatically stored in a large-scaled storing element of a set-top box. CONSTITUTION: A satellite-internet bidirectional data transmitting/receiving system using accumulation type service includes a set-top box(340) for making information transmitted from a satellite and a network to internet user interface. The set-top box includes an accumulation tuner(342), and a user tuner(344) for tuning and receiving information transmitted via the satellite and the network. The accumulation tuner continuously stores the information in a first storing unit(346) by fixing one of DeMUXs to a channel. The first storing unit carries out continuous update of received information. The user tuner has a second storing unit(348) for storing received information according to user's setting. The first storing unit repeats the information storing regardless of user's setting or user's watching.

Description

Satellite-internet interactive data transmission and reception system using cached service

The present invention relates to a satellite-internet bi-directional data transmission and reception system, and to a satellite-internet bidirectional data transmission / reception system to which an accumulated type service which enables information to be transmitted and stored in a separate storage device can be reproduced in real time. It is about.

The transmission medium of the conventional communication method and business model is a communication through a telephone line or a cable to the Internet. When the user is excessive, the speed decreases significantly, and the quality of service depends largely on network traffic. Information transmission through broadcast waves is expanding.

Satellite broadcasting is intended to receive broadcasts directly by the general public, and is a broadcasting method in which signals are transmitted or retransmitted by space stations mounted on satellites, and since the radio waves are transmitted directly from satellites, image quality is low and images are clear. In addition, it can provide a clear image even in the astigmatism area.

In addition, because it uses PCM (Pulse Code Modulator), high quality broadcasting is possible, and broadcasting is performed using satellite as a relay medium, so it is not affected by natural disasters or wars that occur on the earth, and is broadcasted all over the country even in an emergency. can do.

However, in the conventional satellite broadcasting, as in general TV watching, re-viewing is impossible without viewing at a corresponding time, and there is a problem in that the user needs to record in advance using a separate device.

In addition, the data format used in the conventional satellite communication is DVB-MHP (Digital Video Broadcasting-Multimedia Home Platform), and processing of audio / video data is MPEG-2 (designed for coding of interlaced images operating at a speed of 4Mbps or more). Using the Motion Picture Experts Group-2), the compression rate is lowered. The additional data is composed of Java, which is irrelevant to the sending system. On the receiving system side, the processing speed at the reception is slowed with the burden of converting existing data to Java. There is a problem.

Accordingly, the present invention is to solve this conventional problem, the object of the present invention is to receive the information in real time and use the time-shifting function at any time, and to record and play back if necessary The present invention provides a satellite-internet bidirectional data transmission / reception system using a cumulative service.

Another object of the present invention is to increase the transmission rate by improving the compression rate in the transmission of data using satellite, and to increase the efficiency by applying the existing data as it is.

Other objects and features of the present invention will be more clearly understood through the preferred embodiments described below.

1 is a block diagram showing a satellite-Internet two-way data transmission and reception system to which the accumulated service according to the present invention is applied.

2 is a block diagram illustrating a receiving system of a satellite-Internet bidirectional data transmission / reception system to which the accumulated service according to the present invention is applied.

3 is a block diagram showing a data format according to a satellite-Internet bidirectional data transmission / reception system to which the accumulated service according to the present invention is applied.

In a satellite-Internet bidirectional data transmission / reception system including a return channel for transmitting information through satellite communication to a user having a set top box and a satellite antenna, and implementing bidirectional communication, the set top box is transmitted through satellite communication. A storage tuner for tuning and receiving information, a user tuner for tuning and receiving information transmitted via satellite communication and information transmitted via terrestrial waves, a first storage device for continuously updating information received through the storage tuner; And a second storage device for storing information received through a user tuner according to a user's setting.

Preferably, the storage tuner may be configured to be fixed to one of the allocated channels and stored in the first storage device. The information transmitted through the satellite communication may include DVB-HTML processing additional data, audio and video data. You can use MPEG-4 as a standard to handle.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a block diagram showing a satellite-Internet two-way data transmission and reception system to which the accumulated service according to the present invention is applied.

The transmitting station 100 transmits the information to the satellite 200 through the antenna 120, the satellite 200 transmits the information received from the transmitting station 100 to a plurality of users 300, the user 300 is a satellite Information is provided through the antenna 320.

Preferably, in the case of downlink communication with a large amount of information, communication is performed using the satellite 200, and in the case of uplink communication with a small amount of information, the ground network 400 is used without passing through the satellite 200, A return channel through which information is transmitted from the user 300 to the transmitting station 100 is also implemented through the terrestrial network 400.

2 is a block diagram illustrating a receiving system of a satellite-Internet bidirectional data transmission / reception system to which the accumulated service according to the present invention is applied.

The satellite antenna 320 is an antenna for receiving information transmitted from the satellite 200, and the general antenna 360 is an antenna for receiving information transmitted through the terrestrial network 400.

The set-top box 340 is a device that makes information transmitted from the satellite 200 and the terrestrial network 400 into an internet user interface. In fact, the set-top box 340 is a special computer that can exchange data with the Internet through a TV. The satellite-Internet data transmission / reception system to which the accumulated service according to the present invention is applied may be implemented using the set-top box 340 including a mass storage device (for example, 60 GB or more hard disk).

The set top box 340 includes a CPU, an audio / video input / output device, a memory, a tuner, an operating system, a web browser, a mail function, an input device (keyboard), a modem, and the like.

In order to implement a satellite-Internet bidirectional data transmission / reception system to which the accumulated service according to the present invention is applied, the set-top box 340 is a tuner 342 and a satellite 200 that tune and receive information transmitted through the satellite 200. It includes a user tuner 344 for tuning and receiving information transmitted through the information transmitted through the terrestrial network 400.

The tuner is a tuner for satellite broadcasting and communication satellites. The tuner receives a signal converted to a low frequency from a converter unit and converts the video signal into an audio signal to transmit to a TV. According to the present invention, the tuner 322 and the user tuner ( 324), but in practice, DeMUX (Demultiplexer) is divided into two to perform each role.

Assigned to the storage tuner 322 is configured to store one of the demux to one channel to be continuously stored in the first storage device 346, and assigned to the user tuner 324 is assigned to the other one of the demux Configure to receive satellite and terrestrial broadcasts.

In addition, the first storage device 346 for continuously updating the information received through the storage tuner 342, the second storage device for storing the information received through the user tuner 344 by the setting of the user 300 348.

The first storage device 346 is a device for continuously storing the information received through the storage tuner 342, and cannot be arbitrarily set, and the process of storing the information is independent of whether the user 300 is viewed or set. Is repeated.

Since the information is continuously updated, the user 300 watching the TV may replay and view the information already watched using the time-shifting function without using a separate recording function.

The second storage device 328 stores information received through the user tuner 324, and the information stored by the user 300 is determined.

The capacity of the first storage device 346 and the second storage device 348 can be changed according to the needs of the user 300. For example, if the capacity of the entire storage device is 60 GB, the first storage device 346 can be changed. ) May be allocated to 20 GB, and the second storage device 348 may be allocated to 40 GB.

Referring to the accompanying drawings, a path for transmitting information in a satellite-Internet bidirectional data transmission / reception system to which the accumulated service according to the present invention is applied will be described.

When the information is transmitted from the satellite 200, the information is received by the set-top box 340 through the satellite antenna 320 and delivered to the storage tuner 342 and the user tuner 344, respectively, and delivered to the storage tuner 342. The tuned information is tuned and continuously stored in the first storage device 346, and the information transmitted to the user tuner 344 is implemented to allow the user 300 to watch in real time, or is set by the user 300. 2 may be stored in the storage device 348.

When the information is transmitted from the terrestrial network 400, the information is received by the set-top box 340 through the general antenna 360 and delivered to the user tuner 344, the transmitted information is tuned to the user 300 in real time It may be implemented to be viewed or stored in the second storage device 348 by the setting of the user 300.

The bandwidth for receiving satellite broadcasting is allocated 36 Mbps (1 Mbps per channel, 36 channels), and the information received through satellite broadcasting includes text, images, and video. It demonstrates with reference to drawings.

3 is a block diagram showing a data format according to a satellite-Internet bidirectional data transmission / reception system to which the accumulated service according to the present invention is applied.

The format of the data used in the present invention is DVB-HTML 500, the processing of additional data uses HTML 520, and the processing of audio / video data uses MPEG-4 540.

HTML 520 is a language that has been used continuously from the initial Internet environment, and it can be applied without any conversion process required on the receiving system side when using Java, and it is a multimedia format of shockwave and flash files. Since it supports, it is possible to produce cards, games, etc. using animation.

MPEG-4 (540) is an artificial intelligence approach for the synthesis of voice and video, fractal geometry, computer vision, and image reproduction. MPEG-4 540 can be used in existing mobile environments. .

By using such a data format, the transmitting station 100 can transmit not only the existing broadcast but also various kinds of information. For example, mp3, games, software (vaccine, etc.) may be transmitted and stored in the storage device of the user 300, played, or upgraded.

Although the above has been described with reference to the preferred embodiment of the present invention, various modifications and changes are possible without departing from the scope of the present invention. Therefore, the technical scope of the present invention should not be limited to the contents described in the detailed description of the specification but should be defined by the claims of the patent.

As described above, the satellite-internet bidirectional data transmission / reception system to which the accumulated service according to the present invention is applied has a mass storage device in the user's set-top box, and the information being transmitted in real time is automatically stored so that a separate recording function is provided. Even if you do not use it, you can not only play back the information of the channel being watched in real time, but also can save it according to the user's needs, so you don't need a separate recording equipment. The effect is that viewing is possible.

In addition, by using DVB-HTML as the data format of satellite communication, various types of information can be transmitted, and various forms such as text / image oriented or audio oriented channels can be diverted from broadcasting / audio oriented broadcasting. It can take the effect of increasing the utilization of the TV.

Furthermore, by using additional HTML to express additional data, the conversion process of the receiving system is unnecessary, the transmission speed is improved by using MPEG-4 having a high compression rate, and there is an effect that can be used in a mobile environment.

Claims (3)

In a satellite-Internet bidirectional data transmission / reception system including a return channel for transmitting information through satellite communication to a user having a set-top box and a satellite antenna, and implementing bidirectional communication, The set top box, An accumulation tuner for tuning and receiving information transmitted through the satellite communication; A user tuner which tunes and receives the information transmitted through the satellite communication and the information transmitted through the terrestrial wave; A first storage device for continuously updating the information received through the accumulation tuner; And a second storage device for storing the information received through the user tuner according to a user's setting. The system of claim 1, wherein the storage tuner is configured to be fixed to one of the allocated channels and stored in the first storage device. 2. The satellite according to claim 1, wherein the information transmitted through the satellite communication uses DVB-HTML for processing additional data and MPEG-4 for processing audio and video data. Internet two-way data transmission and reception system.