4 research outputs found

    Multiple description image coding with redundant expansions and optimal quantization

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    This paper addresses the problem of optimal rate allocation for multiple description coding with redundant signal expansions. In case of redundant descriptions, the quantization of the transform coefficients has clearly to be adapted to the importance of the basis functions, to the redundancy in the representation, and to the expected loss probability on the transmission channel. We derive a rate-distortion optimal solution for the scalar quantization of coefficients in redundant signal representations. The application of the optimal rate allocation to a typical image communication problem demonstrates performance gains with respect to scheme based on uniform quantization with fixed step size, and to solutions based on unequal error protection

    H.264-based multiple description coding using motion compensated temporal interpolation

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    A Motion-Compensated Overcomplete Temporal Decomposition for Multiple Description Scalable Video Coding

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    We present a new multiple-description coding (MDC) method for scalable video, designed for transmission over error-prone networks. We employ a redundant motion-compensated scheme derived from the Haar multiresolution analysis, in order to build temporally correlated descriptions in a t+2D video coder. Our scheme presents a redundancy which decreases with the resolution level. This is achieved by additionally subsampling some of the wavelet temporal subbanbds. We present an equivalent four-band lifting implementation leading to simple central and side decoders as well as a packet-based reconstruction strategy in order to cope with random packet losses

    Joint coding/decoding techniques and diversity techniques for video and HTML transmission over wireless point/multipoint: a survey

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    I. Introduction The concomitant developments of the Internet, which offers to its users always larger and more evolved contents (from HTML (HyperText Markup Language) files to multimedia applications), and of wireless systems and handhelds integrating them, have progressively convinced a fair share of people of the interest to always be connected. Still, constraints of heterogeneity, reliability, quality and delay over the transmission channels are generally imposed to fulfill the requirements of these new needs and their corresponding economical goals. This implies different theoretical and practical challenges for the digital communications community of the present time. This paper presents a survey of the different techniques existing in the domain of HTML and video stream transmission over erroneous or lossy channels. In particular, the existing techniques on joint source and channel coding and decoding for multimedia or HTML applications are surveyed, as well as the related problems of streaming and downloading files over an IP mobile link. Finally, various diversity techniques that can be considered for such links, from antenna diversity to coding diversity, are presented...L’engouement du grand public pour les applications multimédia sans fil ne cesse de croître depuis le développement d’Internet. Des contraintes d’hétérogénéité de canaux de transmission, de fiabilité, de qualité et de délai sont généralement exigées pour satisfaire les nouveaux besoins applicatifs entraînant ainsi des enjeux économiques importants. À l’heure actuelle, il reste encore un certain nombre de défis pratiques et théoriques lancés par les chercheurs de la communauté des communications numériques. C’est dans ce cadre que s’inscrit le panorama présenté ici. Cet article présente d’une part un état de l’art sur les principales techniques de codage et de décodage conjoint développées dans la littérature pour des applications multimédia de type téléchargement et diffusion de contenu sur lien mobile IP. Sont tout d’abord rappelées des notions fondamentales des communications numériques à savoir le codage de source, le codage de canal ainsi que les théorèmes de Shannon et leurs principales limitations. Les techniques de codage décodage conjoint présentées dans cet article concernent essentiellement celles développées pour des schémas de codage de source faisant intervenir des codes à longueur variable (CLV) notamment les codes d’Huffman, arithmétiques et les codes entropiques universels de type Lempel-Ziv (LZ). Faisant face au problème de la transmission de données (Hypertext Markup Language (HTML) et vidéo) sur un lien sans fil, cet article présente d’autre part un panorama de techniques de diversités plus ou moins complexes en vue d’introduire le nouveau système à multiples antennes d’émission et de réception
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