Ming-Chieh Chi scite author profile

Multiview video coding (MVC) has attracted great attention from industries and research institutes. MVC is used to encode stereoscopic video streams for 3D playout systems such as 3D television, digital cinema, and IP network applications. MVC is an extended version of H.264/AVC that improves the performance of multiview videos. Yet, when compared with single-view video coding, MVC consumes much more time when encoding large amounts of data. Speed-up algorithms, therefore, are essential for realizing related applications. This paper presents a fast mode decision algorithm to avoid the high computational complexity of MVC. The proposed approach aims to reduce candidate modes and make mode decision process more efficient. The minimum and maximum values of rate-distortion cost (RD cost) in the previously encoded view are used to compute a threshold for each mode in the current view. Compared with joint multiview video coding, the experimental results demonstrate that the proposed algorithm provides an average of 79% in time savings with negligible bit rate increase and peak signal-to-noise ratio decrease. Index Terms-Joint multivew video coding (JMVC), mode decision, multiple sensors, multiview video coding (MVC), rate-distortion (RD) cost, threshold. I. INTRODUCTION M ULTIPLE camera sense and three-dimensional (3D) video are the advancement in camera and display technology [1], [2]. Many applications such as intelligent video surveillance system require multiple cameras [3]-[6]. Because of the limited sources in sensor nodes, data must be encoded into multiview coding signals, which are available for storage to display as 3D videos such as 3D television (3DTV) and free viewpoint video [7]-[10]. Multiview video coding Manuscript

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Computation-scalable algorithm for scalable video coding

Wang

Chen

Chi³

et al. 2011

IEEE Trans. Consumer Electron.

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This paper presents a strategy that efficiently allocates the limited resource and still maintains the coding performance for the spatial scalability of H.264/SVC. An integrated computation-scalable algorithm is proposed on the basis of priority-based mode decision (PBMD) and activitybased motion estimation (ABME). The rate-distortion cost (RD-cost) of base layer is utilized as the priority to decide the mode in the enhancement layer, and the motion vector difference (MVD) in the base layer is employed to determine the search range as well. Through the proposed approach, computation complexity of the enhancement layer could be reduced efficiently and well allocated. A fast algorithm with early termination mechanism is also proposed in this paper. Experimental results demonstrate that the various ratedistortion and time-saving performances with computation scalability are realized.

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Robust Region-of-Interest Determination Based on User Attention Model Through Visual Rhythm Analysis

Chi

Yeh

Chen

2009

IEEE Trans. Circuits Syst. Video Technol.

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Ming-Chieh Chi

Region-of-interest video coding based on rate and distortion variations for H.263+

Robust Region-of-Interest Determination Based on User Attention Model Through Visual Rhythm Analysis

Fast Mode Decision Algorithm Through Inter-View Rate-Distortion Prediction for Multiview Video Coding System

Computation-scalable algorithm for scalable video coding

Robust Region-of-Interest Determination Based on User Attention Model Through Visual Rhythm Analysis

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