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Optimal entropy encoding method for Lloyd-Max quantizer

An entropy coding and quantizer technology, which is applied in the field of optimal entropy coding, can solve the problems of coding redundancy, increase the amount of calculation and hardware overhead, and low coding efficiency, and achieve the effect of improving coding efficiency.

Active Publication Date: 2018-01-19
INST OF ELECTRONICS CHINESE ACAD OF SCI
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Problems solved by technology

However, the probability and statistical characteristics of the vast majority of SAR raw data approximately obey the Gaussian distribution. After encoding with a fixed-length code, the probability distribution of the quantized output level is uneven, and its entropy value is smaller than the code length of the fixed-length code. The coding redundancy, the coding efficiency is low
[0005] In theoretical analysis, in view of the probability distribution of output levels, some literature proposes that different output levels can be counted first, and the proportion of different output levels can be obtained as its probability distribution before Huffman coding (Hoffman Coding). This method requires statistical preprocessing of the quantized data, which not only brings a large encoding delay, loses the real-time encoding ability of the output level, but also needs to make a reasonable setting for the statistical output level, which increases the The amount of calculation and hardware overhead is difficult to apply in engineering

Method used

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  • Optimal entropy encoding method for Lloyd-Max quantizer
  • Optimal entropy encoding method for Lloyd-Max quantizer
  • Optimal entropy encoding method for Lloyd-Max quantizer

Examples

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Effect test

example 1

[0081] Assuming that the output level of a 2-bit Gaussian Lloyd-Max quantizer is:

[0082] 0.4528, 1.5104, -0.4528, 1.5104, -1.5104, 1.5104, 0.4528, -0.4528

[0083] Using the extended Huffman code, the Huffman code is obtained as:

[0084] 1001 1011 011011 001

example 2

[0086] Suppose the output level of a 4-bit Gaussian Lloyd-Max quantizer is:

[0087] 0.6568, 0.1284, -0.6568, -0.1284, 0.3881, 0.9424, 2.069, -2.069, 2.733, 0.1284

[0088] Using Huffman coding, the Huffman code is:

[0089] 0111 111 0110 110 101 0100 00100 001011 0010101 111.

[0090] The encoding efficiency obtained by the optimal entropy encoding method is verified by calculating the entropy value of the output level, the average Huffman code length, and the encoding efficiency.

[0091] The entropy value H of the output level satisfies:

[0092]

[0093] Among them, M is the total number of output levels, P k Is the probability of the k-th output level;

[0094] The average Huffman code length L represents the average code length of the Huffman code of the output level, which satisfies:

[0095]

[0096] Where l k Is the code length of the Huffman code of the k-th output level;

[0097] The coding efficiency η satisfies:

[0098]

[0099] Among them, H is the entropy value of the output ...

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Abstract

The invention discloses an optimal entropy encoding method for a Lloyd-Max quantizer. The method comprises the steps of according to a probability density function of raw data, calculating probabilitydistribution of an output electrical level; according to the bit of the Lloyd-Max quantizer, choosing to expand Huffman coding or to calculate a Huffman code combined with the Huffman coding and theprobability distribution of the output electrical level, and obtaining Huffman code libraries of different bits; besides, utilizing the Huffman code libraries of different bits to obtain the Huffman code of the output electrical level. According to the method, it is unnecessary to conduct statistical pretreatment on a quantitative electrical level and can encode the quantified data in real time. Compared with a fixed-length code, the encoding efficiency is improved, and at the same time, the encoding efficiency of a low-bit quantizer output electrical level is further improved; compared with traditional quantizer fixed-length encoding, the fixed-length code only needs to be replaced by the Huffman code, hardware does not need to be modified, and surplus calculation quantity is also not needed.

Description

Technical field [0001] The present disclosure belongs to the field of synthetic aperture radar data compression, and relates to an optimal entropy coding method for Lloyd-Max quantizers. Background technique [0002] Synthetic Aperture Radar is a radar that performs telemetry on the surface of the planet all day long and all weather. Due to the application of synthetic aperture technology, the radar can obtain high-resolution images. At the same time, due to the high-resolution characteristics of radar, the amount of radar data is greatly increased, which contradicts the limited data storage capacity and effective downlink bandwidth. Therefore, effective compression must be performed before the original radar echo data is downloaded. [0003] Aiming at the problem of synthetic aperture radar raw data compression, FBAQ (Flexible Block Adaptive Quantization) algorithm is commonly used in engineering. The FBAQ algorithm has the advantages of simple hardware implementation and low co...

Claims

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Application Information

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IPC IPC(8): H03M7/40G01S13/90
Inventor 刘小军李朋张群英方广有
Owner INST OF ELECTRONICS CHINESE ACAD OF SCI
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