Region-of-interest based rate control algorithm for H.264/AVC video coding

Li, Fan; Li, Na

doi:10.1007/s11042-015-2465-0

Cited by 5 publications

(3 citation statements)

References 21 publications

(23 reference statements)

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“…Similar works on region-classificationbased rate control for Coding Tree Units (CTUs) in I-frames to improve reconstruction quality of I-frames for suppressing flicker artifacts has been done in [25], region-based interframe rate-control scheme to improve the objective quality and reduce PSNR fluctuations among CTUs [26], moving regions have been used as the RoI for identifying the depth level of CTU [27], and other works [28], [29], [30]. Further progress has been made in the RoI aware rate-control where higher bit rate is allocated to regions of interest human faces [31] and combination of human faces with CTU level [32] and using human faces and tile-based rate control [33]. Work has been done in attention region based rate control for 3DVC depth map coding based on regions classified as foreground, edges of objects and dynamic regions [34].…”

Section: Related Workmentioning

confidence: 99%

An Adaptive Video Acquisition Scheme for Object Tracking and its Performance Optimization

Banerjee¹,

Chopp²,

Serra³

et al. 2021

Preprint

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We present a novel adaptive host-chip modular architecture for video acquisition to optimize an overall objective task constrained under a given bit rate. The chip is a high resolution imaging sensor such as gigapixel focal plane array (FPA) with low computational power deployed on the field remotely, while the host is a server with high computational power. The communication channel data bandwidth between the chip and host is constrained to accommodate transfer of all captured data from the chip. The host performs objective task specific computations and also intelligently guides the chip to optimize (compress) the data sent to host. This proposed system is modular and highly versatile in terms of flexibility in re-orienting the objective task. In this work, object tracking is the objective task. While our architecture supports any form of compression/distortion, in this paper we use quadtree (QT)-segmented video frames. We use Viterbi (Dynamic Programming) algorithm to minimize the area normalized weighted rate-distortion allocation of resources. The host receives only these degraded frames for analysis. An object detector is used to detect objects, and a Kalman Filter based tracker is used to track those objects. Evaluation of system performance is done in terms of Multiple Object Tracking Accuracy (MOTA) metric. In this proposed novel architecture, performance gains in MOTA is obtained by twice training the object detector with different system generated distortions as a novel 2-step process. Additionally, object detector is assisted by tracker to upscore the region proposals in the detector to further improve the performance.

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Section: Related Workmentioning

confidence: 99%

An Adaptive Video Acquisition Scheme for Object Tracking and its Performance Optimization

Banerjee¹,

Chopp²,

Serra³

et al. 2021

Preprint

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show abstract

“…However, visual attention is developed specifically for surveillance videos. Li F et al divided the macroblock (MB) into region-of-interest (ROI) MB and non-ROI (NROI) MB according to human visual features; for NROI MB coding, the active MB concealment (AMC) mode in RDO was proposed; AMC trades off the quality of the NROI MBs with the rate, distortion, and improved quality of the ROI MBs at the cost of the quality decreasing of the NROI MBs, thus achieving rate control on the basis of the MB [10]. Hua K L et al presented a novel block-based image coding algorithm that applied a tree-structured multi-tree dictionary and a perceptual rate distortion optimization scheme [11].…”

Section: State Of the Artmentioning

confidence: 99%

“…Luminance histogram represents the probability of each intensity level in the image, and the distribution range of each brightness level can represent the texture flatness degree of the image [10]. The highest frequency level of brightness ( popular B ) must exist in the luminance histogram.…”

Section: Texture Factormentioning

confidence: 99%

Optimized Adaptive Encoding Based on Visual Attention

Zhao¹,

Cao²,

Li³

et al. 2017

JESTR

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Visual redundancy, which acts on the low-attention areas of images, can be applied to video encoding due to the selection mechanism of the human eyes, thus improving efficiency. To reduce the impact of visual redundancy on video coding, a novel method of distinguishing the level of image attention was proposed in this study. The method was used to estimate visual attention according to the sensitivity of human eyes to the motion, texture, contrast, and brightness of images. Then, different coding strategies were adopted according to the different visual attention levels of the coding blocks. The structural similarity index algorithm was applied to high-attention coding blocks; the visual attention coefficient was employed to refine the Lagrange multiplier so that the quantizer can adopt a larger quantization step for low-attention coding blocks. Results show that the coding bit rate is reduced by an average of 30.33% when the luminance peak signalto-noise ratio increments are reduced by merely 0.11 dB and the coding time is increased by only 0.75%. These results indicate that visual redundancy has a considerable influence on video coding efficiency. Thus, the proposed method provides a bright prospect for optimizing the design of encoding strategies.

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Viewport-adaptive 360-degree video coding

Zhou

Zhang

et al. 2020

Multimed Tools Appl

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Region-of-interest based rate control algorithm for H.264/AVC video coding

Cited by 5 publications

References 21 publications

An Adaptive Video Acquisition Scheme for Object Tracking and its Performance Optimization

An Adaptive Video Acquisition Scheme for Object Tracking and its Performance Optimization

Optimized Adaptive Encoding Based on Visual Attention

Viewport-adaptive 360-degree video coding

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