电子与信息学报
電子與信息學報
전자여신식학보
Journal of Electronics & Information Technology
2015年
11期
2685-2690
,共6页
高效视频编码%屏幕图像编码%字典编码%散列表
高效視頻編碼%屏幕圖像編碼%字典編碼%散列錶
고효시빈편마%병막도상편마%자전편마%산렬표
High Efficiency Video Coding (HEVC)%Screen content coding%Dictionary coding%Hash table
由于传统编码方式对屏幕图像的编码效果不佳,该文根据屏幕图像包含大量非连续色调内容的特点,在HEVC(High Efficiency Video Coding)基础上,提出一种新的帧内编码模式称为帧内串匹配(Intra String Copy, ISC)。基本思想是在HEVC的编码单元(Coding Unit, CU)级别上,引入字典编码工具:编码时,在一定长度的字典窗口内,利用散列表,对当前CU内的像素,进行串搜索和匹配;解码时,根据像素串匹配的距离和匹配长度,在重建缓存内复制相应位置像素重建当前CU像素。实验结果表明,在编码复杂度增加很少的情况下,对于典型的屏幕图像测试序列,在全帧内(All Intra, AI),随机接入(Random Access, RA),低延迟(Low-delay B, LB)3种配置下,有损编码模式比HEVC分别节省码率15.1%,12.0%,8.3%,无损编码模式分别节省码率23.3%,14.9%,11.6%。
由于傳統編碼方式對屏幕圖像的編碼效果不佳,該文根據屏幕圖像包含大量非連續色調內容的特點,在HEVC(High Efficiency Video Coding)基礎上,提齣一種新的幀內編碼模式稱為幀內串匹配(Intra String Copy, ISC)。基本思想是在HEVC的編碼單元(Coding Unit, CU)級彆上,引入字典編碼工具:編碼時,在一定長度的字典窗口內,利用散列錶,對噹前CU內的像素,進行串搜索和匹配;解碼時,根據像素串匹配的距離和匹配長度,在重建緩存內複製相應位置像素重建噹前CU像素。實驗結果錶明,在編碼複雜度增加很少的情況下,對于典型的屏幕圖像測試序列,在全幀內(All Intra, AI),隨機接入(Random Access, RA),低延遲(Low-delay B, LB)3種配置下,有損編碼模式比HEVC分彆節省碼率15.1%,12.0%,8.3%,無損編碼模式分彆節省碼率23.3%,14.9%,11.6%。
유우전통편마방식대병막도상적편마효과불가,해문근거병막도상포함대량비련속색조내용적특점,재HEVC(High Efficiency Video Coding)기출상,제출일충신적정내편마모식칭위정내천필배(Intra String Copy, ISC)。기본사상시재HEVC적편마단원(Coding Unit, CU)급별상,인입자전편마공구:편마시,재일정장도적자전창구내,이용산렬표,대당전CU내적상소,진행천수색화필배;해마시,근거상소천필배적거리화필배장도,재중건완존내복제상응위치상소중건당전CU상소。실험결과표명,재편마복잡도증가흔소적정황하,대우전형적병막도상측시서렬,재전정내(All Intra, AI),수궤접입(Random Access, RA),저연지(Low-delay B, LB)3충배치하,유손편마모식비HEVC분별절성마솔15.1%,12.0%,8.3%,무손편마모식분별절성마솔23.3%,14.9%,11.6%。
Because of the poor effect of the traditional coding methods on the screen content coding, considering the screen content is rich in non-continuous tone content, a new intra coding mode based on High Efficiency Video Coding (HEVC), which is called Intra String Copy (ISC), is proposed. The basic idea is adopting the dictionary coding tool on the HEVC Coding Unit (CU) level. When encoding, the current CU pixels are searched and matched in a certain length dictionary window by using Hash table. When decoding, according to the pixels string matching distances and lengths, the current CU pixels in the reconstruction cache are restored by copying the corresponding position pixels. Experiment results show that with little coding complexity increase than HEVC, for typical screen content test sequences, ISC can achieve lossy coding bit-rate saving of 15.1%, 12.0%, 8.3% for All Intra (AI), Random Access (RA), and Low-delay B (LB) configurations, respectively, and lossless coding bit-rate saving of 23.3%, 14.9%, 11.6% for AI, RA, and LB configurations.
