KR100200483B1 - A transmission decoder - Google Patents

Abstract

The present invention discloses a transport decoder. The circuit comprises a control means for detecting the PID of audio and video of the selected program when a program is selected when the power is turned on or the channel is changed, and a register for storing the PID of audio and video detected by the control means. And PID detection means for detecting a packet having a PID output from the register from the input transport stream. Therefore, even if there is no external memory, it is possible to perform the service by the desired information.

Description

Transmission decoder

The present invention relates to a video decoder, and more particularly to a transport decoder of a video decoder.

Video decoders have already set standards for algorithms at the International Standards Organization (ISO) and have a wide range of applications, including satellite broadcasting, high definition television (HDTV) and cable television (CATV). The transport decoder combines video, audio, and system-related data to form a transport stream. The program specific information (PSI) included in the transport stream is used to match the video of the program desired by the user. It helps to extract audio information.

The program characteristic degree (PSI) includes a program association table (PAT), a conditional access table (CAT), a program map table (PMT), a network information table (NIT), and a service description table (SIIT). event information table (RTS), running status table (RST), stuffing table (ST), and the like. Conventional transport decoders use a method of storing such information in an external memory (RAM) and accessing it as necessary.

1 is a block diagram of a conventional transport decoder, which includes a packet identifier (PID) detector 10, a system analysis processor 20, and a register 30, and an external memory. It consists of 200.

The encoder is configured to periodically send program specification information (PSI) in the transport stream periodically within a few tens of msec considering channel recognition time.

The PID detector 10 detects the PID of audio and video of the program. The system analysis processor 20 stores a program input as a transport stream in an external memory 200, and when a user selects a program, the system analysis processor 20 reads information about the selected program and then corresponds to the information from the information. Detect the program's audio and video's PID. The register 30 stores the PID of the audio and video detected by the system analysis processor 20, and causes the PID detector 10 to detect a program having the PID of the input transport stream.

When the power is turned on, the transmission decoder 100 first waits until a program association table (PAT) is transmitted. When a program is selected, audio and audio of the selected program are transmitted through a PAT and a program map table (PMT). You get the PID value of the video. The system analysis processor 20 stores the PAT and the PMT in the external memory 200, and stores the PAT and the PMT in the allocated memory area when the PAT or the PMT is updated in preparation for a channel change by the user. Will save. That is, the external memory is allocated to store the PAT or PMT, and is stored in the allocated area when the PAT or PMT is updated.

That is, the conventional transport decoder stores information in an external memory and accesses and uses it whenever necessary. The memory for storing such information has a size of 16K bytes and cannot be ignored.

Accordingly, an object of the present invention is to provide a transport decoder capable of performing a service based on desired information without using a memory for storing additional information.

The transmission decoder of the present invention for achieving the above object is a control means for detecting the PID of the audio and video of the selected program, if the program is selected when the power is turned on or the channel is changed, detected by the control means And a PID detecting means for detecting, from the input transport stream, a packet having a PID for storing audio and video PIDs and a PID output from the register.

1 is a block diagram of a conventional transport decoder.

2 is a block diagram of a transport decoder of the present invention.

Hereinafter, a transmission decoder of the present invention will be described in detail with reference to the accompanying drawings.

Referring to the accompanying drawings, a description will be given of the transport decoder of the present invention.

FIG. 2 is a block diagram of the transmission decoder of the present invention, which is the same as the conventional transmission decoder shown in FIG. 1 and is constructed by removing the memory 200. As shown in FIG.

When a program is selected, the system analysis processor 20 detects the PID of the audio and video of the selected program from the input transport stream. The register 30 stores the PID detected by the system analysis processor 20. The PID detector 10 inputs a PID from the register 30 to detect a packet corresponding to the PID from the transport stream.

For example, the program association table (PAT) and program map table (PMT) of the program characteristic (PSI) information are as follows. The PAT has program characteristic (PID) information of various programs (here, the packet is composed of 188 bytes). When a program is selected, the PMT finds a PMT having PID information corresponding to the program. This PMT provides PID information of each video and audio stream corresponding to the program.

When the power is turned on, the transmission decoder 100 first waits until the PAT is transmitted, and when a program is selected, the PID values of the audio and video of the selected program are obtained through the PAT and the PMT. Only PIDs (13 bits) and other PIDs (up to 16 types) corresponding to audio and video are stored in the register 30 to extract the corresponding packets, and the PAT and PMT are discarded as they are. After that, when a channel change occurs, the process waits until PAT and PMT are transmitted again, and performs the same as when the power is turned on. This method is possible because the period in which the PAT and PMT are repeatedly sent for updater is short enough to satisfy the channel hopping time specified in the standard.

The transport decoder of the present invention receives and uses new program property (PSI) information without using a method of storing program property (PSI) information in a memory and accessing it whenever a channel change occurs. By doing so, even if there is no external memory 200, the operation is possible.

Therefore, the transport decoder of the present invention can perform a service based on desired information without using an external memory, thereby reducing the cost by reducing hardware.

In addition, the operation speed can be improved since it is not necessary to perform an operation by retrieving information from an external memory.

Claims (1)

Control means for detecting a PID of audio and video of the selected program when a program is selected when the power is turned on or when a channel is changed; A register for storing PIDs of audio and video detected by the control means; And PID detecting means for detecting a packet having a PID output from the register from the input transport stream.