Your search keyword '"Xu, Jizheng"' showing total 7 results

1. Variable Block-Sized Signal-Dependent Transform for Video Coding.

Author

Lan, Cuiling, Xu, Jizheng, Zeng, Wenjun, Shi, Guangming, and Wu, Feng

Subjects

*VIDEO coding, *SIGNAL processing, *COMPUTER algorithms, *ENCODING, *STATISTICAL correlation

Abstract

Transform, as one of the most important modules of mainstream video coding systems, seems very stable over the past several decades. However, recent developments indicate that bringing more options for transform can lead to coding efficiency benefits. In this paper, we go further to investigate how the coding efficiency can be improved over the state-of-the-art method by adapting a transform for each block. We present a variable block-sized signal-dependent transforms (SDTs) design based on the High Efficiency Video Coding (HEVC) framework. For a coding block ranged from $4\times4$ to $32\times32$ , we collect a quantity of similar blocks from the reconstructed area and use them to derive the Karhunen–Loève transform. We avoid sending overhead bits to denote the transform by performing the same procedure at the decoder. In this way, the transform for every block is tailored according to its statistics, to be signal-dependent. To make the large block-sized SDTs feasible, we present a fast algorithm for transform derivation. Experimental results show the effectiveness of the SDTs for different block sizes, which leads to up to 23.3% bit-saving. On average, we achieve BD-rate saving of 2.2%, 2.4%, 3.3%, and 7.1% under AI-Main10, RA-Main10, RA-Main10, and LP-Main10 configurations, respectively, compared with the test model HM-12 of HEVC. The proposed scheme has also been adopted into the joint exploration test model for the exploration of potential future video coding standard. [ABSTRACT FROM AUTHOR]

Published

2018

2. Distributed Compressive Sensing for Cloud-Based Wireless Image Transmission.

Author

Song, Xiaodan, Peng, Xiulian, Xu, Jizheng, Shi, Guangming, and Wu, Feng

Abstract

We consider efficient image transmission via time-varying channels. To improve the performance, we propose a new distributed compressive sensing (CS) scheme that can leverage similar images in the cloud. It is featured by channel SNR and bandwidth scalability, high efficiency, and low encoding complexity. For each image, a compressed thumbnail is first transmitted after forward error correction (FEC) and modulation to retrieve similar images and generate a side information (SI) in the cloud. The residual image after subtracting the decompressed thumbnail is then coded and transmitted by CS through a very dense constellation without FEC. The linearly and ratelessly generated CS measurements make it capable of achieving both graceful quality degradation (GD) with the channel SNR and bandwidth scalability in a universal scheme. A mode decision and transform-domain power allocation are introduced for better bandwidth usage and protection against channel errors. At the decoder, a two-step CS decoding is performed to recover the residual signal, where both the local and nonlocal correlations within the image and that with the SI are exploited. Simulations on landmark images and an AWGN channel show that the received image quality gracefully increases with the channel SNR and bandwidth. Furthermore, it outperforms existing schemes both subjectively and objectively by up to 11 dB gains compared with the state-of-the-art transmission scheme with GD, i.e. SoftCast. [ABSTRACT FROM PUBLISHER]

Published

2017

3. Hash-Based Line-by-Line Template Matching for Lossless Screen Image Coding.

Author

Peng, Xiulian and Xu, Jizheng

Subjects

*TEMPLATE matching (Digital image processing), *MATCHING theory, *PATTERN recognition systems, *IMAGE transmission, *DATA transmission systems

Abstract

Template matching (TM) was proposed in the literature a decade ago to efficiently remove non-local redundancies within an image without transmitting any overhead of displacement vectors. However, the large computational complexity introduced at both the encoder and the decoder, especially for a large search range, limits its widespread use. This paper proposes a hash-based line-by-line template matching (hLTM) for lossless screen image coding, where the non-local redundancy commonly exists in text and graphics parts. By hash-based search, it can largely reduce the search complexity of template matching without an accuracy degradation. Besides, the line-by-line template matching increases prediction accuracy by using a fine granularity. Experimental results show that the hLTM can significantly reduce both the encoding and decoding complexities by 68 and 23 times, respectively, compared with the traditional TM with a search radius of 128. Moreover, when compared with High Efficiency Video Coding screen content coding test model SCM-1.0, it can largely improve coding efficiency by up to 12.68% bits saving on screen contents with rich texts/graphics. [ABSTRACT FROM PUBLISHER]

Published

2016

4. Cloud-Based Distributed Image Coding.

Author

Song, Xiaodan, Peng, Xiulian, Xu, Jizheng, Shi, Guangming, and Wu, Feng

Subjects

IMAGE compression, CLOUD computing, DISTRIBUTED computing, DIGITAL image correlation, IMAGE reconstruction, MULTIMEDIA systems

Abstract

With multimedia flourishing on the Web, it is easy to find similar images for a query, especially landmark images. Traditional image coding, such as JPEG, cannot exploit correlations with external images. Existing vision-based approaches are able to exploit such correlations by reconstructing from local descriptors but cannot ensure the pixel-level fidelity of the reconstruction. In this paper, a cloud-based distributed image coding (Cloud-DIC) scheme is proposed to exploit external correlations for mobile photo uploading. For each input image, a thumbnail is transmitted to retrieve correlated images and reconstruct it in the cloud by geometrical and illumination registrations. Such a reconstruction serves as the side information (SI) in the Cloud-DIC. The image is then compressed by a transform-domain syndrome coding to correct the disparity between the original image and the SI. Once a bitplane is received in the cloud, an iterative refinement process is performed between the final reconstruction and the SI. Moreover, a joint encoder/decoder mode decision at block, frequency, and bitplane levels is proposed to adapt to different correlations. Experimental results on a landmark image database show that the Cloud-DIC can largely enhance the coding efficiency both subjectively and objectively, with up to 5-dB gains and 70% bits saving over JPEG with arithmetic coding, and perform comparably at low bitrates with the intra coding of the High Efficiency Video Coding standard with a much lower encoder complexity. [ABSTRACT FROM AUTHOR]

Published

2015

5. Counter based adaptation for CAVLC in HEVC.

Author

Li, Bin, Xu, Jizheng, and Li, Houqiang

Abstract

Compared to the CAVLC in H.264/AVC, CAVLC in HEVC has been improved much. One mechanism that contributes to the improvement is adaptive code word swapping based on previous coded symbol in the early design of HEVC. However, such a instantly swapping strategy often makes a wrong estimation of the real statistics and may lead to inefficient coding that may even worse than without adaptation. In this paper, we analyze potential loss caused by instantly swapping and propose a counter-based adaptation scheme to further improve the entropy coding efficiency. We discuss the bit-depth of those counters that achieves a trade-off between the adaptation capability and a good estimation of the statistics. The proposed scheme introduces a sum counter for each code table and a counter for each code. The sum counter determines when to shift all the counters to prevent overflow and make sure symbols far away influence less. The experimental results show that the counter based algorithm brings about 0.7% bits saving compared with the instantly swapping adaptation algorithm. Compared with the CAVLC without adaptation, the performance gain of the counter adaptation algorithm is about 4.0% bits saving. A variant of the proposed counter-based adaptation has been adopted by HEVC design. [ABSTRACT FROM PUBLISHER]

Published

2012

6. Improving Depth Compression in HEVC by Pre/Post Processing.

Author

Lan, Cuiling, Xu, Jizheng, and Wu, Feng

Abstract

Depth images have different characteristics from that of color images. They usually have gradual changes within objects while steep changes happen around object boundaries. Compression standards such as H.264/AVC and High Efficiency Video Coding (HEVC) are efficient in dealing with the gradual change regions but usually result in poor performance at edge regions. To facilitate the reuse of the current video coding design and to further improve the depth compression performance, we propose a pre/post processing based compression strategy. By modifying the edge blocks in the depth image to flat blocks, the pre-processed image can be efficiently compressed using existing compression schemes. Meanwhile, those edge blocks are compressed by an edge preserving codec separately. At the decoder, the decoded modified image and the edge blocks will be merged together to form the final reconstructed image. In our simulations, we implement this strategy to HEVC to evaluate the coding performance. Experimental results show the proposed scheme can achieve about 30% - 40% bit savings for Ballet and Break dancers sequences and 60% - 70% bit savings for Kinect captured depth sequences in comparison with HEVC. [ABSTRACT FROM PUBLISHER]

Published

2012

7. Rate-Distortion Optimized Reference Picture Management for High Efficiency Video Coding.

Author

Li, Houqiang, Li, Bin, and Xu, Jizheng

Subjects

VIDEO coding, RATE distortion theory, IMAGE processing, IMAGE stabilization, MATHEMATICAL optimization, SEARCH algorithms

Abstract

Motion compensation with multiple reference pictures has been widely used during the development of the emerging High Efficiency Video Coding (HEVC) standard, which greatly helps to improve the coding efficiency. Usually, a heuristic strategy is exploited to use the nearest reconstructed pictures as references. However, such a strategy may not be efficient on all occasions, especially when different content characteristics and coding settings are considered. In this paper, we investigate how to manage reference pictures so as to achieve better rate-distortion performance under the memory constraint of the decoded picture buffer at the decoder. We formulate the reference picture management as an optimization problem and approximate its optimal solution. Moreover, we explore how to adjust quality for each picture according to the reference structure to further improve coding efficiency. For some coding cases, where a complicated encoder optimization is unaffordable, we also develop fast algorithms to get the most benefit from reference picture selection. Among them, one strategy has been adopted by the HEVC software and common test conditions to generate the anchor. Experimental results show that the proposed full search algorithm and fast search algorithms achieve significant bitrate reduction. [ABSTRACT FROM PUBLISHER]

Published

2012