Decoder complexity reduction for the scalable extension of HEVC

Christian Feldmann, Fabian Jäger, M. Wien
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引用次数: 5

Abstract

In the current standardization process of the scalable extension to High Efficiency Video Coding (SHVC) a high level syntax multi-loop approach is close to completion. On the one hand this multi-loop approach offers a reasonable rate-distortion performance while only minimal modifications to the encoder and decoder in both layers are required. On the other hand this approach requires full reconstruction of all pictures of all layers at the decoder side which, in the case of quality scalability with two layers, doubles the decoder complexity. In this paper high layer modifications to the prediction structure similar to the scalable extension of H.264 - AVC are implemented in SHVC and studied. These modifications allow for an enhancement layer decoder implementation to skip a significant amount of motion compensation and deblocking operations in the base layer. It is shown that the decoder complexity can hereby be reduced up to 55% for the random access configuration and up to 64% for the low delay configuration compared to SHVC. An overall coding performance increase of 1.2% when decoding the enhancement layer is reported while when only decoding the base layer a drift can be observed between -0.16 dB for random access and -0.39 dB for low delay.
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解码器复杂性降低为HEVC的可扩展扩展
在当前高效视频编码(High Efficiency Video Coding, SHVC)可扩展的标准化进程中,一种高级语法多循环方法已接近完成。一方面,这种多环路方法提供了合理的率失真性能,同时只需要对两层的编码器和解码器进行最小的修改。另一方面,这种方法需要在解码器端完全重建所有层的所有图片,在两层的质量可扩展性的情况下,解码器的复杂性增加了一倍。本文在SHVC中实现了类似于H.264 - AVC可伸缩扩展的预测结构的高层修改,并对其进行了研究。这些修改允许增强层解码器实现在基础层中跳过大量的运动补偿和块化操作。结果表明,与SHVC相比,随机接入配置的解码器复杂度可降低55%,低延迟配置的解码器复杂度可降低64%。据报道,当解码增强层时,总体编码性能提高了1.2%,而当仅解码基础层时,可以观察到随机访问时的-0.16 dB和低延迟时的-0.39 dB之间的漂移。
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