Earticle

초록

영어

Background/Objectives: During the transform and quantization process in HEVC, there are a lot of zero blocks. The coding time of transform and quantization can be considerably decreased by effectively detecting all zero blocks. Methods/Statistical analysis: This work proposes all uniform quantizer and RDO quantizer zero block detection techniques. Findings: The energy concentration property of DCT is used to suggest an improved transform coefficient estimate approach. Low frequency DCT coefficients are estimated using the Hadamard transform, while the maximum magnitude of high frequency DCT coefficients is estimated using a SATD-based technique. There will be an explicit threshold which can be used to compare the float quantization level of coefficients, and all zero blocks in the uniform quantizer may be effectively found. The stair-like thresholds for RDOQ are obtained through statistical analysis, which makes AZB identification easier. Improvements/Applications: The experimental result shows that uniform quantizer’s coding time can be cut in half, and 40% coding time can be reduced for RDOQ.

목차

Abstract1
I. INTRODUCTION
II. UQ AND RDOQ
III. DCT COEFFICIENTS ESTIMATION
A. Global MM Estimation
B. Mixed Finer Granularity Coefficients Estimation
IV. AZB DETECTION IN HEVC
A. AZB detection in UQ
B. AZB detection in RDOQ
V. EXPERIMENTAL RESULTS
VI. CONCLUSION
REFERENCES

키워드

저자

• Nana Shan [ School of Information Science and Technology, Taishan University, 271000, China ] Corresponding Author
• Yonghai Wang [ iSoftStone Information Technology (Group) Co., Ltd., 100193, China ]

참고문헌

발행기관

간행물

표지보기 관심저널 등록

• 간행물명

  IJEMR

• 간기

  계간

• pISSN

  2546-1583

• 수록기간

  2017~2022

• 십진분류

  KDC 327 DDC 332