KR970073175A - IMPROVED IMAGE CODING SYSTEM HAVING FUNCTIONS FOR CONTROLLING GENERATED AMOUNT OF CODED BIT STREEM - Google Patents

Abstract

According to the present invention, the complexity of an image to be currently coded is calculated based on quantization parameter information determined on a macroblock-by-macroblock basis based on data fullness information of an output-side transmission buffer, and based on the calculation result, The present invention relates to an image encoding system having a bit generation amount adjustment function for selectively removing a high frequency component of an input image signal by using a DCT, Average value calculation means for calculating an average quantization parameter value of a previous frame by averaging each quantization parameter value generated for each macroblock of a previous frame previously encoded through an encoding means having entropy encoding; The average quantization parameter value is referred to as a complexity of a current frame to be encoded and a quantization parameter average value of the plurality of predetermined bandwidth decision signals for adaptively limiting a frequency passband bandwidth of a current frame inputted for encoding Control means for generating a bandwidth determination signal corresponding to the bandwidth determination signal; Discrete cosine transform means for transforming a video signal in a spatial domain for an input current frame signal into two-dimensional DCT transform coefficients in a frequency domain of an M × N block unit using a cosine function; Quantization means for quantizing a 2-dimensional DCT transform coefficient block of M × N units into a finite number of values using a predetermined quantization parameter; Frequency selecting means for determining a high-frequency passband for the quantized DCT transform coefficient blocks based on the generated bandwidth determining signal and for limiting the high-frequency passband of each quantized DCT transform coefficient block to a determined bandwidth; And reconstructs the original signal as the original signal by performing inverse quantization and inverse discrete cosine transform on each quantized DCT block having the limited bandwidth and restores the original signal to the original signal. And the image reconstruction means provided to the encoding means as a signal, the amount of bits generated after the encoding can be effectively controlled without increasing the step size excessively at the time of quantization in the encoding means.

Description

IMPROVED IMAGE CODING SYSTEM HAVING FUNCTIONS FOR CONTROLLING GENERATED AMOUNT OF CODED BIT STREEM

Since this is a trivial issue, I did not include the contents of the text.

BRIEF DESCRIPTION OF THE DRAWINGS Figure 1 is a diagram of a trellis decoder system in accordance with the present invention that decodes interleaved multiple data streams and provides seamless switching between multiple operating modes.

Claims (19)

1. A system for processing video data comprising a group of N interleaved trellis encoded data packets, the system comprising: a data type transition in which the encoded data is adapted to indicate a transition from one type of data to another type of data A control network (10) for generating a synchronization signal in response to the interleaved encoded data; And a trellis decoder, responsive to the synchronization signal, for trellis decoding the interleaved encoded data to provide a decoded data packet using a state transition trellis with a predetermined number of states, (40). ≪ / RTI > The video data processing system according to claim 1, wherein the state transition trellis is reset to a predetermined state in response to the synchronization signal. 2. The video data processing system of claim 1, wherein the trellis decoder is reset to decode a predetermined interleaved data packet in response to the synchronization signal. 2. The video data processing system of claim 1, wherein the control network generates the synchronization signal in response to a data type transition. The video data processing system according to claim 1, wherein the number of the predetermined number of states is eight. 2. The method of claim 1, wherein the control network generates a reset signal in response to a data type transition; And the state transition trellis is reset to a predetermined state in response to the reset signal. 7. The video data processing system of claim 6, wherein the control network removes synchronization intervals from the interleaved encoded data to be decoded by the trellis decoder to provide reordered and interleaved encoded data. . 2. The system of claim 1, wherein the system of benefits provides a configuration signal that identifies the data type; Wherein the trellis decoder adaptively Trellis-decodes the interleaved encoded data in response to the configuration signal. 2. The video data processing system of claim 1, wherein the trellis decoder comprises a branch metric calculator that provides a branch metric value in response to the interleaved encoded data. 10. The video data processing system of claim 9, wherein the value of the branch metric calculator associated with one of the types of interleaved encoded data comprises a substantially replicated value. 10. The video data processing system of claim 9, wherein the value of the branch metric calculator associated with the type of interleaved encoded data comprises a different number of substantially duplicated branch metric values for different data types. 10. The video data processing system of claim 9, wherein the trellis decoder comprises a Viterbi decoder that provides a Viterbi decoded output in response to the branch metric value. 10. The video data processing system of claim 9, wherein the trellis decoder comprises a comparison network that compares the branch metric values to provide a decision display output. 2. The video data processing system of claim 1, further comprising a symbol packet deinterleaver for deinterleaving the decoded data packet. 15. The video data processing system of claim 14, further comprising a deinterleaver for de-interleaving the group of N decoded data packets onto a group. 3. The video data processing system according to claim 2, wherein the state transition trellis is reset to a predetermined state for a duration of the synchronization interval. 2. The apparatus of claim 1, further comprising: a control network for removing synchronization intervals from the interleaved encoded data to provide rearranged and interleaved encoded data; And wherein the trellis decoder decodes the rearranged and interleaved encoded data. The video data processing system according to claim 1, wherein the number of the predetermined number of states is an integer multiple of four. 16. A system for processing video data comprising a group of N interleaved Trellis encoded data packets, the system comprising: means for determining a data type transition that indicates a transition from one type of data to another type of data The method comprising: generating a synchronization signal in response to the interleaved encoded data (10); (40) Trellis decoding the interleaved encoded data using at least one or more than N trellis decoders in response to the synchronization signal and using a state transition trellis having a predetermined number of states, ≪ / RTI > ※ Note: It is disclosed by the contents of the first application.