摘要
传统的非正方形四叉树变换(NSQT)系数的扫描方式并不能很好地适应系数的能量分布,这将降低熵编码的编码效率。为了提高编码效率,该文提出非正方形四叉树变换系数能量分布模型,并改进了其系数扫描方式。首先推导了非正方形变换块的空间频率域位置分布,基于推导的分布,从理论上提出了其能量分布模型,并用实验进行了证实,发现能量从左上角到右下角逐渐递减,而左下角的能量与右上角的能量接近,根据该能量分布模型,重建了非正方形四叉树变换中量化系数的扫描模式,以适应熵编码,而熵编码中的系数扫描方式倾向于系数上的降序。实验结果显示,相比NSQT中已有的系数扫描方式,该文方法提出的扫描方式在编码计算复杂度和客观视频质量损失可忽略的前提下,平均下降了1.32%~3.74%的比特率,对于非正方形变换块,下降了9.05%~13.19%的比特率。
The conventional coefficients scanning pattern of the non-square quadtree transform can not fit the energy distribution better enough, which worsens the coding efficiency. In order to improve the coding efficiency, a non-square quadtree transform coefficients energy distribution model is proposed and the coefficients scanning pattern is improved in this paper. The position distribution in spatial frequency domain of the non-square quadtree transform block is deduced. Based on this distribution, the energy distribution model is proposed theoretically. The model is verified by experiment. It is found from the experiment result that the energy decrease gradually from the top-left corner to lower-right corner, and the energy in lower left corner is close to that in upper right corner. According to the energy distribution model, the quantized coefficients scanning pattern in non-square quadtree transform is rebuilt to fit the entropy coding, where the scanning pattern prefers to an ascending order in coefficients. Experiment results show that the proposed scanning pattern achieves average 1.32%~3.74% bitrate saving and 9.05%~13.19% bitrates saving for the non-square transformed blocks with negligible loss in coding computational complexity and objective video quality, compared with the scanning pattern in NSQT.
出处
《电子与信息学报》
EI
CSCD
北大核心
2014年第10期2336-2342,共7页
Journal of Electronics & Information Technology
基金
国家自然科学基金(61262001)
江西省自然科学基金(20114BAB201043)
江西省科技支撑计划(20112BBE50048)
江西省教育厅科技项目(GJJ14490)资助课题
关键词
高效率视频编码
能量分布模型
扫描方式
非正方形四叉树变换
High Efficiency Video Coding (HEVC)
Energy distribution model
Scanning pattern
Non-SquareQuadtree Transform (NSQT)
