Transmission de multimédia dans les réseaux sans fil à qualité de service garantie / Multimedia transmission in wireless network with QoS guarantee

Kambou, Samy Jacques André

08 November 2016

Cette thèse s'intéresse aux stratégies de transmission de contenu multimédia des réseaux sans fil. L'intérêt d'une stratégie repose sur sa capacité à gérer les ressources selon les objectifs des applications visées. On propose ainsi un schéma de transmission, qui garantit la qualité de service (QdS), quelles que soient les conditions du canal et suivant les spécificités du contenu multimédia. On exploite pour cela les diversités (spatiales, fréquentielles, etc.) du canal radio. A ce titre, l'association MIMO-OFDM apparaît comme une solution idéale pour accroitre les performances du système. On propose ainsi un système MIMO-OFDMA, qui intègre des stratégies inter-couches. Celles-ci se basent sur des techniques d'adaptation de lien pour régler dynamiquement les paramètres du système. On développe en premier un schéma inter-couches PHY 1 APPL, associé à un système MIMO-OFDM mono-utilisateur, qui transmet une vidéo H.264/SVC. L'adaptation de lien permet de définir le jeu de paramètres optimaux, qui minimise la distorsion de la vidéo reçue. On introduit ainsi une politique d'optimisation sous contraintes de puissance et de taux d'erreurs binaires. Pour tenir compte d'aspects de transmission réalistes, on propose un schéma inter-couches PHY/MAC, dédié à un système MIMO-OFDMA, multi-utilisateurs et multi-services. Ce dernier associe un algorithme d'ordonnancement, au paramétrage optimal, pour fournir au maximum d'utilisateurs des débits utiles respectant les exigences des services demandés. Enfin, on combine les deux premières solutions pour définir les paramètres optimaux minimisant la distorsion de la vidéo reçue par utilisateur, tout en garantissant la QdS des autres services. / This thesis focuses on the transmission strategies of the multimedia content in wireless networks. The advantage of a such strategy is its ability to manage the resources, according to the objectives of the targeted applications. We propose a transmission scheme, which guarantees the quality of service (QoS), depending on the channel state information and on the multimedia content specifications. We take advantage of the radio channel diversities (spatial, frequency, etc.). ln fact, the association of MIMO and OFDM techniques appears as effective solution to increase the system performance. For this reason, we propose a MIMO-OFDMA system, which considers cross-layer srtategies based on link adaptation schemes to dynamically adjust the system parameters. Firstly, we develop a PHY/APPL cross-layer strategy, dedicated to a single user of a MIMO-OFDMA system, which transmits an H.264/SVC video. The Iink adaptation scheme allows to define the optimum parameters, which minimize the end-ta-end video distortion by using an optimization algorithm under power and bit error rate constraints. To consider the realistic transmission aspects, we propose a PHY/MAC cross-layer strategy, dedicated to a multi-user, multi-service, MIMOOFDMA system. This scheme combines a scheduling policy with optimal parameterization to provide a satisfied troughput to a maximum number of users, acheiving the required services. Finally, the first two solutions are combined to determine the optimal parameters which minimize the end-ta-end distortion of the received video by user, and also acheive QoS requirements of the other services.

Mimo-Ofdma

Multi-Utilisateurs

Multi-Services

Algorithme d'optimisation

Allocation des ressources

Politique d'ordonnancement

Qualité de service (QdS)

Scalabilité

Mimo-Ofdma

Multi-User

Multi-Service

Optimization problem

Resource allocation

Scheduling policy

Quality of service (QoS)

Scalability

004.6

Precoding and Resource Allocation for Multi-user Multi-antenna Broadband Wireless Systems

Khanafer, Ali

06 January 2011

This thesis is targeted at precoding methods and resource allocation for the downlink of fixed multi-user multi-antenna broadband wireless systems. We explore different utilizations of precoders in transmission over frequency-selective channels. We first consider the weighted sum-rate (WSR) maximization problem for multi-carrier systems using linear precoding and propose a low complexity algorithm which exhibits near-optimal performance. Moreover, we offer a novel rate allocation method that utilizes the signalto- noise-ratio (SNR) gap to capacity concept to choose the rates to allocate to each data stream. We then study a single-carrier transmission scheme that overcomes known impairments associated with multi-carrier systems. The proposed scheme utilizes timereversal space-time block coding (TR-STBC) to orthogonalize the downlink receivers and performs the required pre-equalization using Tomlinson-Harashima precoding (THP).We finally discuss the strengths and weaknesses of the proposed method.

Resource Allocation

Precoding

MIMO-OFDMA

Stream Rate Allocation

Time-Reversal Space-Time Block Coding

Tomlinson-Harashima precoding

Weighted Sum-Rate MAximization

Weighted MMSE Minimization

0544

Precoding and Resource Allocation for Multi-user Multi-antenna Broadband Wireless Systems

Khanafer, Ali

06 January 2011

This thesis is targeted at precoding methods and resource allocation for the downlink of fixed multi-user multi-antenna broadband wireless systems. We explore different utilizations of precoders in transmission over frequency-selective channels. We first consider the weighted sum-rate (WSR) maximization problem for multi-carrier systems using linear precoding and propose a low complexity algorithm which exhibits near-optimal performance. Moreover, we offer a novel rate allocation method that utilizes the signalto- noise-ratio (SNR) gap to capacity concept to choose the rates to allocate to each data stream. We then study a single-carrier transmission scheme that overcomes known impairments associated with multi-carrier systems. The proposed scheme utilizes timereversal space-time block coding (TR-STBC) to orthogonalize the downlink receivers and performs the required pre-equalization using Tomlinson-Harashima precoding (THP).We finally discuss the strengths and weaknesses of the proposed method.

Resource Allocation

Precoding

MIMO-OFDMA

Stream Rate Allocation

Time-Reversal Space-Time Block Coding

Tomlinson-Harashima precoding

Weighted Sum-Rate MAximization

Weighted MMSE Minimization

0544