The quality control for real-time video applications, such as the very-low-bit-rate video conferencing or the high quality video entertainment, usually absents from many traditional fast block motion estimators. In this paper, a novel block-matching algorithm for fast motion estimation named adjustable partial distortion search algorithm (APDS) is proposed. It is a new normalized partial distortion comparison method with adjustability on the prediction accuracy against the searching speed using a quality factor k. When k is set to 0, APDS could act as the normalized partial distortion search algorithm (NPDS). When k is set to 1. APDS perform as the conventional partial distortion search algorithm (PDS) and could give the best quality as obtained in Full Search algorithm (FS). In addition, it uses halfway-stop technique with progressive partial distortion (PPD) to increase the chance of early rejection of impossible candidate motion vectors at very early stages. Simulations with PPD show that 24-62 times computational reduction with 0.31-0.83 dB PSNR performance degradation, as compared to the FS algorithm. Experimental results show that APDS could provide PSNR performance very close to full search algorithm with speedup ratios 18 times, and to NPDS with 32 times, respectively, as compared to FS algorithm.
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机译:实时视频应用的质量控制,例如非常低比特率的视频会议或高质量的视频娱乐,通常可能来自许多传统的快速块运动估计。在本文中,提出了一种新的用于快速运动估计的块匹配算法,其名为可调节的部分失真搜索算法(APDS)。它是一种新的归一化部分失真比较方法,其使用质量因子k对搜索速度的预测精度可调节性。当K被设置为0时,APD可以充当归一化部分失真搜索算法(NPD)。当K被设置为1. APDS执行作为传统的部分失真搜索算法(PDS),并且可以提供完整搜索算法(FS)中获得的最佳质量。此外,它使用具有渐进部分失真(PPD)的中途停止技术来增加早期阶段早期拒绝不可能候选运动矢量的机会。与FS算法相比,具有PPD的模拟显示计算减少24-62次计算减少0.31-0.83 dB PSNR性能下降。实验结果表明,与FS算法相比,APDS可以非常接近完全搜索算法的PSNR性能非常接近完整的搜索算法,并且分别具有32次的NPD。
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