Global ETD Search

1	Deblocking Filter Algorithm by Color Psychology Analysis for Various Video Decoders Huang, Kai-lin 24 July 2008 (has links) In this thesis, a post-processing deblocking filter is proposed to reduce the blocking effects. This proposed algorithm is suitable for the current block-based video standards without any modification. The proposed algorithm uses Sobel operator and wavelet transform to accurately detect blocking effects at 4¡Ñ4 or 8¡Ñ8 blocking boundaries automatically. In the filtering stage, the proposed algorithm provides four filter modes to eliminate blocking effects at different color regions according to human color vision and color psychology analysis. Experimental results show that the proposed algorithm has better subjective and objective qualities for H.264/AVC reconstructed video sequences compared with several existing methods. deblocking filter color psychology
2	Hardware Implementation of a High Speed Deblocking Filter for the H.264 Video Codec Dickey, Brian January 2012 (has links) H.264/MPEG-4 part 10 or Advanced Video Coding (AVC) is a standard for video compression. MPEG-4 is currently one of the most widely used formats for recording, compression and distribution of high definition video. One feature of the AVC codec is the inclusion of an in-loop deblocking filter. The goal of the deblocking filter is to remove blocking artifacts that exist at macroblock boundaries. However, due to the complexity of the deblocking algorithm, the filter can easily account for one-third of the computational complexity of a decoder. In this thesis, a modification to the deblocking algorithm given in the AVC standard is presented. This modification allows the algorithm to finish the filtering of a macroblock to finish twenty clock cycles faster than previous single filter designs. This thesis also presents a hardware architecture of the H.264 deblocking filter to be used in the H.264 decoder. The developed architecture allows the filtering of videos streams using 4:2:2 chroma subsampling and 10-bit pixel precision in real-time. The filter was described in VHDL and synthesized for a Spartan-6 FPGA device. Timing analysis showed that is was capable of filtering a macroblock using 4:2:0 chroma subsampling in 124 clock cycles and 4:2:2 chroma subsampling streams in 162 clock cycles. The filter can also provide real-time deblocking of HDTV video (1920x1080) of up to 988 frames per second. h.264 mpeg4 deblocking filter deblocking Electrical and Computer Engineering
3	Hardware Implementation of a High Speed Deblocking Filter for the H.264 Video Codec Dickey, Brian January 2012 (has links) H.264/MPEG-4 part 10 or Advanced Video Coding (AVC) is a standard for video compression. MPEG-4 is currently one of the most widely used formats for recording, compression and distribution of high definition video. One feature of the AVC codec is the inclusion of an in-loop deblocking filter. The goal of the deblocking filter is to remove blocking artifacts that exist at macroblock boundaries. However, due to the complexity of the deblocking algorithm, the filter can easily account for one-third of the computational complexity of a decoder. In this thesis, a modification to the deblocking algorithm given in the AVC standard is presented. This modification allows the algorithm to finish the filtering of a macroblock to finish twenty clock cycles faster than previous single filter designs. This thesis also presents a hardware architecture of the H.264 deblocking filter to be used in the H.264 decoder. The developed architecture allows the filtering of videos streams using 4:2:2 chroma subsampling and 10-bit pixel precision in real-time. The filter was described in VHDL and synthesized for a Spartan-6 FPGA device. Timing analysis showed that is was capable of filtering a macroblock using 4:2:0 chroma subsampling in 124 clock cycles and 4:2:2 chroma subsampling streams in 162 clock cycles. The filter can also provide real-time deblocking of HDTV video (1920x1080) of up to 988 frames per second. h.264 mpeg4 deblocking filter deblocking Electrical and Computer Engineering
4	System Prototyping of H.264/AVC Video Decoder on SoC Development Platform Kuan, Yi-Sheng 06 September 2005 (has links) For the next generation of multimedia applications such as digital video broadcasting, multimedia message service and video conference, enormous amounts of video context will be transmitted and exchanged through the wireless channel. Due to the limited communication bandwidth, how to achieve more efficient, reliable, and robust video compression is a very important issue. H.264/AVC (Advanced Video Coding) is one of the latest video coding standards, which is anticipated to be adopted in many future application systems due to its excellent compression efficiency. In this thesis, the implementation issue of the H.264 decoding algorithm on the SOC (System-On-Chip) development platform is addressed. Several key modules of H.264 decoders including color space converter, inter-interpolation, transformation rescale modules are all realized by dedicated hardware architectures. A novel low-cost fast scalable deblocking filter based on single-port memory architecture is also proposed which can support fast real-time deblocking filtering process. The entire H.264 decoder system is prototyped on the Altera SOPC platform, and the decoding result is displayed directly on the monitor. All the hardware modules are hooked on the system Avalon bus, and interact with Altera NIOS-¢º processor. Through the hardware/software co-design approach, the decoding speed can be increase by a factor of 1.9. Deblocking Filter H.264 SOC Hardware/Software co-design AVC Interpolator
5	Arquiteturas de hardware dedicadas para codificadores de vídeo H.264 : filtragem de efeitos de bloco e codificação aritmética binária adaptativa a contexto / Dedicated hardware architectures for h.64 video encoders – deblocking filter and context adaptive binary arithmetic coding Rosa, Vagner Santos da January 2010 (has links) Novas arquiteturas de hardware desenvolvidas para blocos chave do padrão de codificação de vídeo ISO/IEC 14496-10 são discutidas, propostas, implementadas e validades nesta tese. Também chamado de H.264, AVC (Advanced Video Coder) ou MPEG-4 parte 10, o padrão é o estado da arte em codificação de vídeo, apresentando as mais altas taxas de compressão possíveis por um compressor de vídeo padronizado por organismos internacionais (ISO/IEC e ITU-T). O H.264 já passou por três revisões importantes: na primeira foram incluídos novos perfis, voltados para a extensão da fidelidade e aplicações profissionais, na segunda veio o suporte a escalabilidade (SVC – Scalable Video Coder). Uma terceira revisão suporta fontes de vídeo com múltiplas vistas (MVC – Multi-view Video Coder). Nesta tese são apresentadas arquiteturas para dois módulos do codificador H.264: o CABAC e o Filtro de Deblocagem (Deblocking Filter). O CABAC (Context-Adaptive Binary Arithmetic Coder) possui desafios importantes devido às dependências de dados de natureza bit-a-bit. Uma revisão das alternativas arquiteturais e uma solução específica para a codificação CABAC é apresentada nesta tese. O filtro de deblocagem também apresenta diversos desafios importantes para seu desenvolvimento e foi alvo de uma proposta arquitetural apresentada neste trabalho. Finalmente a arquitetura de uma plataforma de validação genérica para validar módulos desenvolvidos para o codificador e decodificador H.264 também é apresentada. Os módulos escolhidos estão de acordo com os demais trabalhos realizados pelo grupo de pesquisa da UFRGS, que têm por objetivo desenvolver um decodificador e um codificador completos capazes de processar vídeo digital de alta definição no formato 1080p em tempo real. / New hardware architectures developed for key blocks of the ISO/IEC 14496-10 video coding standard are discussed, proposed, implemented, and validated in this thesis. The standard is also called H.264, AVC (Advanced Video Coder) or MPEG-4 part 10, and is the state-of-the-art in video coding, presenting the highest compression ratios achievable by an internationally standardized video coder (ISO/IEC and ITU-T). The H.264 has already been revised three times: the first included new profiles for fidelity extension and professional applications. The second brought the scalability support (SVC – Scalable Video Coder). The third revision supports video sources with multiple views (MVC – Multi-view Video Coder). The present work developed high performance architectures for CABAC (Context-Adaptive Binary Arithmetic Coder), which were challenging because of the bitwise data dependencies. A through revision of the alternative architectures and a specific architectural solution for CABAC encoding are presented in this thesis. A dedicated hardware architecture for a HIGH profile Deblocking Filter is also presented, developed, validated and synthesized for two different targets: FPGA and ASIC. The validation methodology is presented and applied to three different modules of the H.264 encoder. The H.264 blocks dealt with in this thesis work complement those developed by other works in the UFRGS research group and contribute to the development of complete encoders for real-time processing of high definition digital video at 1080p. Microeletrônica Fpga Video coding H.264 AVC SVC MVC Hardware CABAD CABAC Deblocking filter Prototyping
6	Arquiteturas de hardware dedicadas para codificadores de vídeo H.264 : filtragem de efeitos de bloco e codificação aritmética binária adaptativa a contexto / Dedicated hardware architectures for h.64 video encoders – deblocking filter and context adaptive binary arithmetic coding Rosa, Vagner Santos da January 2010 (has links) Novas arquiteturas de hardware desenvolvidas para blocos chave do padrão de codificação de vídeo ISO/IEC 14496-10 são discutidas, propostas, implementadas e validades nesta tese. Também chamado de H.264, AVC (Advanced Video Coder) ou MPEG-4 parte 10, o padrão é o estado da arte em codificação de vídeo, apresentando as mais altas taxas de compressão possíveis por um compressor de vídeo padronizado por organismos internacionais (ISO/IEC e ITU-T). O H.264 já passou por três revisões importantes: na primeira foram incluídos novos perfis, voltados para a extensão da fidelidade e aplicações profissionais, na segunda veio o suporte a escalabilidade (SVC – Scalable Video Coder). Uma terceira revisão suporta fontes de vídeo com múltiplas vistas (MVC – Multi-view Video Coder). Nesta tese são apresentadas arquiteturas para dois módulos do codificador H.264: o CABAC e o Filtro de Deblocagem (Deblocking Filter). O CABAC (Context-Adaptive Binary Arithmetic Coder) possui desafios importantes devido às dependências de dados de natureza bit-a-bit. Uma revisão das alternativas arquiteturais e uma solução específica para a codificação CABAC é apresentada nesta tese. O filtro de deblocagem também apresenta diversos desafios importantes para seu desenvolvimento e foi alvo de uma proposta arquitetural apresentada neste trabalho. Finalmente a arquitetura de uma plataforma de validação genérica para validar módulos desenvolvidos para o codificador e decodificador H.264 também é apresentada. Os módulos escolhidos estão de acordo com os demais trabalhos realizados pelo grupo de pesquisa da UFRGS, que têm por objetivo desenvolver um decodificador e um codificador completos capazes de processar vídeo digital de alta definição no formato 1080p em tempo real. / New hardware architectures developed for key blocks of the ISO/IEC 14496-10 video coding standard are discussed, proposed, implemented, and validated in this thesis. The standard is also called H.264, AVC (Advanced Video Coder) or MPEG-4 part 10, and is the state-of-the-art in video coding, presenting the highest compression ratios achievable by an internationally standardized video coder (ISO/IEC and ITU-T). The H.264 has already been revised three times: the first included new profiles for fidelity extension and professional applications. The second brought the scalability support (SVC – Scalable Video Coder). The third revision supports video sources with multiple views (MVC – Multi-view Video Coder). The present work developed high performance architectures for CABAC (Context-Adaptive Binary Arithmetic Coder), which were challenging because of the bitwise data dependencies. A through revision of the alternative architectures and a specific architectural solution for CABAC encoding are presented in this thesis. A dedicated hardware architecture for a HIGH profile Deblocking Filter is also presented, developed, validated and synthesized for two different targets: FPGA and ASIC. The validation methodology is presented and applied to three different modules of the H.264 encoder. The H.264 blocks dealt with in this thesis work complement those developed by other works in the UFRGS research group and contribute to the development of complete encoders for real-time processing of high definition digital video at 1080p. Microeletrônica Fpga Video coding H.264 AVC SVC MVC Hardware CABAD CABAC Deblocking filter Prototyping
7	Arquiteturas de hardware dedicadas para codificadores de vídeo H.264 : filtragem de efeitos de bloco e codificação aritmética binária adaptativa a contexto / Dedicated hardware architectures for h.64 video encoders – deblocking filter and context adaptive binary arithmetic coding Rosa, Vagner Santos da January 2010 (has links) Novas arquiteturas de hardware desenvolvidas para blocos chave do padrão de codificação de vídeo ISO/IEC 14496-10 são discutidas, propostas, implementadas e validades nesta tese. Também chamado de H.264, AVC (Advanced Video Coder) ou MPEG-4 parte 10, o padrão é o estado da arte em codificação de vídeo, apresentando as mais altas taxas de compressão possíveis por um compressor de vídeo padronizado por organismos internacionais (ISO/IEC e ITU-T). O H.264 já passou por três revisões importantes: na primeira foram incluídos novos perfis, voltados para a extensão da fidelidade e aplicações profissionais, na segunda veio o suporte a escalabilidade (SVC – Scalable Video Coder). Uma terceira revisão suporta fontes de vídeo com múltiplas vistas (MVC – Multi-view Video Coder). Nesta tese são apresentadas arquiteturas para dois módulos do codificador H.264: o CABAC e o Filtro de Deblocagem (Deblocking Filter). O CABAC (Context-Adaptive Binary Arithmetic Coder) possui desafios importantes devido às dependências de dados de natureza bit-a-bit. Uma revisão das alternativas arquiteturais e uma solução específica para a codificação CABAC é apresentada nesta tese. O filtro de deblocagem também apresenta diversos desafios importantes para seu desenvolvimento e foi alvo de uma proposta arquitetural apresentada neste trabalho. Finalmente a arquitetura de uma plataforma de validação genérica para validar módulos desenvolvidos para o codificador e decodificador H.264 também é apresentada. Os módulos escolhidos estão de acordo com os demais trabalhos realizados pelo grupo de pesquisa da UFRGS, que têm por objetivo desenvolver um decodificador e um codificador completos capazes de processar vídeo digital de alta definição no formato 1080p em tempo real. / New hardware architectures developed for key blocks of the ISO/IEC 14496-10 video coding standard are discussed, proposed, implemented, and validated in this thesis. The standard is also called H.264, AVC (Advanced Video Coder) or MPEG-4 part 10, and is the state-of-the-art in video coding, presenting the highest compression ratios achievable by an internationally standardized video coder (ISO/IEC and ITU-T). The H.264 has already been revised three times: the first included new profiles for fidelity extension and professional applications. The second brought the scalability support (SVC – Scalable Video Coder). The third revision supports video sources with multiple views (MVC – Multi-view Video Coder). The present work developed high performance architectures for CABAC (Context-Adaptive Binary Arithmetic Coder), which were challenging because of the bitwise data dependencies. A through revision of the alternative architectures and a specific architectural solution for CABAC encoding are presented in this thesis. A dedicated hardware architecture for a HIGH profile Deblocking Filter is also presented, developed, validated and synthesized for two different targets: FPGA and ASIC. The validation methodology is presented and applied to three different modules of the H.264 encoder. The H.264 blocks dealt with in this thesis work complement those developed by other works in the UFRGS research group and contribute to the development of complete encoders for real-time processing of high definition digital video at 1080p. Microeletrônica Fpga Video coding H.264 AVC SVC MVC Hardware CABAD CABAC Deblocking filter Prototyping
8	On Enhancement and Quality Assessment of Audio and Video in Communication Systems Rossholm, Andreas January 2014 (has links) The use of audio and video communication has increased exponentially over the last decade and has gone from speech over GSM to HD resolution video conference between continents on mobile devices. As the use becomes more widespread the interest in delivering high quality media increases even on devices with limited resources. This includes both development and enhancement of the communication chain but also the topic of objective measurements of the perceived quality. The focus of this thesis work has been to perform enhancement within speech encoding and video decoding, to measure influence factors of audio and video performance, and to build methods to predict the perceived video quality. The audio enhancement part of this thesis addresses the well known problem in the GSM system with an interfering signal generated by the switching nature of TDMA cellular telephony. Two different solutions are given to suppress such interference internally in the mobile handset. The first method involves the use of subtractive noise cancellation employing correlators, the second uses a structure of IIR notch filters. Both solutions use control algorithms based on the state of the communication between the mobile handset and the base station. The video enhancement part presents two post-filters. These two filters are designed to improve visual quality of highly compressed video streams from standard, block-based video codecs by combating both blocking and ringing artifacts. The second post-filter also performs sharpening. The third part addresses the problem of measuring audio and video delay as well as skewness between these, also known as synchronization. This method is a black box technique which enables it to be applied on any audiovisual application, proprietary as well as open standards, and can be run on any platform and over any network connectivity. The last part addresses no-reference (NR) bitstream video quality prediction using features extracted from the coded video stream. Several methods have been used and evaluated: Multiple Linear Regression (MLR), Artificial Neural Network (ANN), and Least Square Support Vector Machines (LS-SVM), showing high correlation with both MOS and objective video assessment methods as PSNR and PEVQ. The impact from temporal, spatial and quantization variations on perceptual video quality has also been addressed, together with the trade off between these, and for this purpose a set of locally conducted subjective experiments were performed. QoE video quality assessment video quality metric multi-linear regression artificial neural network support vector machine quality predictor machine learning temporal scaling spatial scaling video compression deblocking filter noise cancelling synchronization audio delay video delay GSM interference signal noise cancellation notch filtering

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