Global ETD Search

51	Achievable Rate and Capacity of Amplify-and-Forward Multi-Relay Networks with Channel State Information Tran, Tuyen X. 20 September 2013 (has links) No description available. Electrical Engineering Achievable rate channel state information distributed water filling ergodic capacity multiple relays non orthogonal amplify and forward power adaptation relay channel
52	Outage limited cooperative channels: protocols and analysis Azarian Yazdi, Kambiz 13 September 2006 (has links) No description available. Cooperative Diversity Diversity-Multiplexing Tradeoff Throughput-Reliability Tradeoff Dynamic Decode and Forward Nonorthogonal Amplify and Forward Half-Duplex Radio Relay Channel Multiple-Access Channel Broadcast Channel Automatic Repeat Request
53	Μελέτη υλοποίησης τεχνικών κατανεμημένου προσανατολισμού σε πραγματικές συνθήκες Μπότσης, Βασίλειος 09 December 2013 (has links) Σκοπός αυτής της εργασίας είναι η μελέτη τεχνικών κατανεμημένου προσανατολισμού σε πραγματικές συνθήκες. Πιο συγκεκριμένα σε αυτά στα συστήματα θεωρείται ότι ο κόμβος-πομπός δεν έχει καλή σύνδεση με το δέκτη και κατά συνέπεια δεν μπορεί να επικοινωνήσει απευθείας με τον κόμβο-δέκτη χωρίς δραματική αύξηση της ενέργειας μετάδοσης. Παρόλα αυτά η χρήση κατανεμημένου προσανατολισμού δίνει τη δυνατότητα να βελτιωθεί σημαντικά η κατανάλωση ενέργειας. Το σχήμα που θα χρησιμοποιηθεί είναι ενίσχυση και προώθηση (AF) 2 βημάτων, με το οποίο οι συνεργατικοί κόμβοι απλώς ενισχύουν και στην συνέχεια επαναμεταδίδουν το μήνυμα. Συνεπώς, ζητούμενο είναι η εύρεση των μιγαδικών βαρών με τα οποία πρέπει ο κάθε συνεργαζόμενος κόμβος χωριστά να ενισχύσει το σήμα. Οι τεχνικές που θα χρησιμοποιηθούν έχουν ως κριτήρια την ελαχιστοποίηση της ενέργειας μετάδοσης με ταυτόχρονη ικανοποίηση του SNR, μεγιστοποίηση του SNR με περιορισμένη ολική ενέργεια μετάδοσης και μεγιστοποίηση του SNR με περιορισμένη ενέργεια μετάδοσης ανά συνεργαζόμενο κόμβο. Το πρώτο κριτήριο θα εξεταστεί, επίσης, και σε συστήματα με πολλαπλούς πομπούς και δέκτες. Λόγω της φύσης του προβλήματος, ο κατανεμημένος προσανατολισμός αναμένεται να έχει μεγάλη απήχηση σε συστήματα με πολλούς διασκορπιστές και εμπόδια, όπως σε ένα αστικό περιβάλλον, και, επομένως, είναι λογικό να θεωρηθεί ότι τα κανάλια του συστήματος είναι Rayleigh, δηλαδή ασυσχέτιστα χωρίς οπτική επαφή (LOS). Για να προσομοιωθεί το σύστημα σε πραγματικές συνθήκες οι μέθοδοι που θα υλοποιήσουμε στην εργασία χρησιμοποιούν τα στατιστικά του καναλιού. Επιπλέον, η εκτίμηση καναλιού εφόσον θεωρούμε ότι έχουμε Gaussian λευκό θόρυβο θα γίνει με την χρήση του βέλτιστου γραμμικού εκτιμητή (BLUE). Η επίδραση της εκτίμησης του καναλιού θα μελετηθεί για δύο περιπτώσεις: με αμοιβαία και χωρίς αμοιβαία κανάλια. / The purpose of this thesis is the study of methods of distributed beamforming under real circumstances. More specifically, these systems are considered that the transmitter must increase tremendously the required transmit energy to communicate with the receiver. However the use of the distributed beamforming allows the system to improve the energy consumption. The scheme that is used from relays is amplify and forward of two steps, where the relays only amplify and then forward the message to the destination. That is, the purpose is to find the complex weights to be used by the corresponding relay so as to amplify the message of the transmitter. The methods that are implemented have as criterions the minimization of transmit energy while satisfying the SNR, maximization of SNR while limiting the system's transmit energy and maximization of SNR while limiting transmit energy of each relay individually. The first criterion is also studied at systems with more than one pair transmitter-receiver. Due to the nature of the problem, distributed beamforming is expected to be used at environments with many obstacles and scatterers, like urban environment, and so it is rationale to suppose that the channels should be Rayleigh, meaning uncorrelated without line of sight. To simulate the system under real circumstances the methods that we will implement shall use the second order statistics of the channels. Moreover, due to Gaussian white noise, channels are estimated using the Best Linear Unbiased Estimator. The impact of channel estimation is studied in two cases: "reciprocal" and "not reciprocal". Εκτίμηση καναλιού Ενίσχυση και προώθηση Μεγιστοποίηση SNR Κανάλια Rayleigh 621.382 Distributed beamforming Channel estimation Amplify and forward SNR maximisation Transmit energy minimisation Rayleigh channels Second order statistics of channel
54	Cooperative Communication Protocols : Diversity-Multiplexing Gain Tradeoff And Code Constructions Vinodh, K 07 1900 (has links) Cooperative relay communication is a promising means of wireless communication in which cooperation is used to create a virtual transmit array between the source and the destination, thereby providing spatial diversity for combating the fading channel. In this thesis we develop cooperative communication protocols namely the orthogonal amplify-and-forward (OAF), non-orthogonal and orthogonal selection decode-and-forward (NSDF and OSDF) protocols. The diversity-multiplexing gain tradeoff (DMT) of the three protocols is determined and DMT-optimal distributed space-time code constructions are provided. The code construction is based on Cyclic Division Algebras. The codes constructed are sphere decodable and in some instances incur minimum possible delay. Included in our results is the perhaps surprising finding that the OAF and NAF protocols have identical DMT when the time durations of the broadcast and cooperative phases are optimally chosen to suit the respective protocol. Two variants of the NSDF protocol are considered: fixed-NSDF and variable-NSDF protocol. In the variable-NSDF protocol, the fraction of time occupied by the broadcast phase is allowed to vary with multiplexing gain. In the two-relay case, the variable-NSDF protocol is shown to improve on the DMT of the best previously-known static protocol for higher values of multiplexing gain. Our results also establish that the fixed-NSDF protocol has a better DMT than the NAF protocol for any number of relays. Coding Theory Computer Communication Protocols Cyclic Division Algebras Cyclic Division Algebra Codes Diversity-Mulplexing Gain Tradeoff (DMT) Cooperative Communication Protocols Communications Engineering
55	Définition et analyse des performances de nouveaux protocoles coopératifs Hucher, Charlotte 10 July 2009 (has links) (PDF) Dans un réseau coopératif, différents noeuds coopèrent afin de créer un réseau d'antennes virtuel et exploiter la diversité spatio-temporelle. On s'intéresse d'abord au canal à relai. Afin d'améliorer les performances à bas SNR, on propose une stratégie adaptative pour les protocoles "amplify-and-forward" (AF) et "decode-and-forward" (DF) qui détermine la meilleure technique de transmission en fonction du canal. Afin de définir un protocole DF à la fois performant et facile à implémenter, on propose ensuite d'utiliser un décodage incomplet aux relais. Cette technique permet d'atteindre les gains de multiplexage et de diversité maximaux, son DMT est le même que celui du protocol AF non-orthogonal (NAF). Pour réduire la complexité aux relais, deux nouvelles méthodes de décodage sont proposées, basées pour l'une sur la structure des codes TAST, et pour l'autre sur une approximation diophantienne. Dans le cas où plusieurs sources transmettent simultanément, on parle de canal coopératif à accès multiple (CMA). Une implémentation pratique et deux améliorations du protocole CMA-NAF sont proposées, ainsi qu'une variante utilisant une stratégie DF. Ces protocoles permettent d'atteindre de meilleures performances asymptotiques et leur DMT est plus proche de la borne MISO. Enfin, si le lien direct entre source et destination est inutilisable, on utilise une stratégie multi-saut. Dans cette thèse, on propose un protocole pour le canal "K-parallel-path" (KPP), basé sur la sélection de chemin combinée avec un code spatio-temporel de faible dimension. Ce protocole permet d'atteindre les limites théoriques du canal tout en ayant une complexité limitée. coopération relai protocole 'amplify-and-forward' protocole'decode-and-forward' probabilité de coupure probabilité d'erreur
56	Analysis and Optimization of Cooperative Amplify-and-Forward Relaying with Imperfect Channel Estimates Bharadwaj, Sachin January 2013 (has links) (PDF) Relay-based cooperation promises significant gains in a wireless network as it provides an inde-pendent path between a source and a destination. Using simple single antenna nodes, it exploits the spatial diversity provided by the geographically separated nodes in a network to improve the robustness of the communication system against fading. Among the cooperative commu¬nication schemes, the amplify-and-forward (AF) relaying scheme is considered to be easy to implement since the relay does not need to decode its received signal. Instead, it just forwards to the destination the signal it receives from the source. We analyze the performance of fixed-gain AF relaying with imperfect channel knowledge that is acquired through an AF relay-speciﬁc training protocol. The analysis is challenging because the received signal at the destination contains the product (or cascade) of source-relay (SR) and relay-destination (RD) complex baseband channel gains, and additional products terms that arise due to imperfect estimation related errors. We focus on the time-efficient cascaded channel estimation (CCE) protocol to acquire the channel estimates at the destination. Using it, the destination can only estimate the product of SR and RD complex baseband channel gains, but not the two separately. Our analysis encompasses a single AF relay system and an opportunistic system with mul¬tiple AF relays, among which one is selected to forward its received signal to the destination, based on its SR and RD complex baseband channel gains. For a single relay system, we ﬁrst de¬velop a novel SEP expression and a tight SEP upper bound. We then analyze the opportunistic multi-relay system, in which both selection and coherent demodulation use imperfect channel estimates. A distinctive aspect of our approach is the use of as few simplifying approximations as possible. It results in a new analysis that is accurate at signal-to-noise-ratios as low as 1 dB for single and multi-relay systems. Further, the training protocol is an integral part of the model and analysis. Using an insightful asymptotic analysis, we then present a simple, closed-form, nearly-optimal solution for allocation of energy between pilot and data symbols at the source and relay(s). Further, the optimal energy allocation between a source and a relay is characterized when both together operate under a sum energy constraint, as has often been assumed in the literature. In summary, the sum total of the results in this work provides a rigorous and accurate performance characterization and optimization of cascaded channel estimation for AF relaying. Wireless Networks Cooperative Relays Amplify-and-Forward Relaying AF Single Relay System AF Multi-Relay System Cooperative Networks Imperfect Channel Estimation AF Relaying Cascaded Channel Estimation Cascaded Channel Estimates Communication Engineering
57	Optimal Amplify-And-Forward Relaying For Cooperative Communications And Underlay Cognitive Radio Sainath, B 04 1900 (has links) (PDF) Relay-assisted cooperative communication exploits spatial diversity to combat wireless fading, and is an appealing technology for next generation wireless systems. Several relay cooperation protocols have been proposed in the literature. In amplify-and-forward (AF)relaying, which is the focus of this thesis, the relay amplifies the signal it receives from the source and forwards it to the destination. AF has been extensively studied in the literature on account of its simplicity since the relay does not need to decode the received signal. We propose a novel optimal relaying policy for two-hop AF cooperative relay systems. In this, an average power-constrained relay adapts its gain and transmit power to minimize the fading-averaged symbol error probability (SEP) at the destination. Next, we consider a generalization of the above policy in which the relay operates as an underlay cognitive radio (CR). This mode of communication is relevant because it promises to address the spectrum shortage constraint. Here, the relay adapts its gain as a function of its local channel gain to the source and destination and also the primary such that the average interference it causes to the primary receiver is also constrained. For both the above policies, we also present near-optimal, simpler relay gain adaptation policies that are easy to implement and that provide insights about the optimal policies. The SEPs and diversity order of the policies are analyzed to quantify their performance. These policies generalize the conventional fixed-power and fixed-gain AF relaying policies considered in cooperative and CR literature, and outperform them by 2.0-7.7 dB. This translates into significant energy savings at the source and relay, and motivates their use in next generation wireless systems. Cognitive Radios Wireless Communication Cooperative Communication Relay Networks (Communication) Cognitive Radio Networks Amplify-and-Forward (AF) Relaying Optimal Relay Selection Underlay Cognitive Radios Radio Relay Systems Cognitive Radio (CR) Underlay Cognitive Radio Relay Communication Engineering
58	Cognitive Communications for Emerging Wireless Systems Alizadeh, Ardalan January 2016 (has links) No description available. Electrical Engineering Nanoscience Cognitive radio networks K-user MIMO interference channel spatial sensing spatial hole spatial modulation amplify-and-forward overlay CR networks molecular communications nano-networks, molecular channel sensing
59	Estimation de canal à évanouissements plats dans les transmissions sans fils à relais multibonds / Flat fading channel estimation for multihop relay wireless transmissions Ghandour-Haidar, Soukayna 12 December 2014 (has links) Cette thèse traite de l'estimation d'un canal de communication radio-mobile multi-bond. La communication entre l'émetteur et le récepteur est ainsi faite par l'intermédiaire de relais (de type « Amplify and-Forward ») en série. Les différents éléments (émetteurs, relais, récepteurs) peuvent être fixes ou mobiles. Chaque lien de communication (chaque bond) est modélisé par un canal de Rayleigh à évanouissements plats, avec un spectre Doppler issu de deux environnements possibles de diffusion : en deux dimensions (2D, amenant le spectre en U de Jakes), ou en trois dimensions (3D, amenant un spectre Doppler plat). L'objectif majeur de la thèse est l'estimation dynamique du canal global issue de la cascade des différents liens. A cette fin, la cascade de canaux est approchée par une modèle auto-régressif du premier ordre (AR (1)), et l'estimation est réalisée à l'aide d'un algorithme standard, le filtre de Kalman. La méthode couramment utilisée dans la littérature pour fixer le paramètre du modèle AR(1) est basée sur un critère de « corrélation matching » (CM). Cependant, nous montrons que pour des canaux à variations lentes, un autre critère basé sur la minimisation de la variance asymptotique (MAV) de la sortie du filtre de Kalman est plus approprié. Pour les deux critères, CM et MAV, cette thèse donne une justification analytique en fournissant des formules approchées de la variance d'estimation par le filtre de Kalman, ainsi que du réglage optimal du paramètre du modèle AR(1). Ces formules analytiques sont données en fonctions des fréquences Doppler et du rapport signal sur bruit, pour les environnements de diffusion 2D et 3D, quel que soit le nombre et le type de bonds (fixe-mobile ou mobile-mobile). Les résultats de simulations montrent un gain considérable en termes de l'erreur quadratique moyenne (MSE) de l'estimateur de canal bien réglé, en particulier pour le scénario le plus courant de canal à évanouissements lents. / This thesis deals with the estimation of the multihop Amplify-and-Forward relay communications. The various objects (transmitter, relays, receivers) can be fixed or mobile. Each link is modeled by a flat fading Rayleigh channel, with a Doppler spectrum resulting from two-dimensional (2D, leading to the U-shape Dopller spectrum) or three-dimensional (3D, leading to a flat Doppler spectrum) scattering environments. The cascade of channel hops is approximated by a first-order autoregressive (AR(1)) model and is tracked by a standard estimation algorithm, the Kalman Filter (KF). The common method used in the literature to tune the parameter of the AR(1) model is based on a Correlation Matching (CM) criterion. However, for slow fading variations, another criterion based on the off-line Minimization of the Asymptotic Variance (MAV) of the KF is shown to be more appropriate. For both the CM and MAV criteria, this thesis gives analytic justification by providing approximated closed-form expressions of the estimation variance in output of the Kalman filter, and of the optimal AR(1) parameter. The analytical results are calculated for given Doppler frequencies and Signal-to-Noise Ratio for both scattering environments, whatever the number and type of transmission hops (Fixed-to-Mobile or Mobile-to-Mobile). The simulation results show a considerable gain in terms of the Mean Square Error (MSE) of the well tuned Kalman-based channel estimator, especially for the most common scenario of slow-fading channel. Système coopératif multibonds Relais Amplify-and-Forward Estimation de canal Filtre de Kalman Modèle autorégressif Mode de diffusion Communication mobile-mobile Évanouissement plat Spectre de Jakes Canal de Rayleigh Fréquence doppler Auto-corrélation Bornes bayésiennes de Cramér-Rao BCRB Multihop cooperative system Amplify-and-Forward relay Channel estimation Kalman filter Autoregressive model Scattering environment Mobile-to-mobile communication Flat fading Jakes’ spectrum Rayleigh channel Doppler frequency Auto-correlation Bayesian Cramér-Rao bounds BCRB 620
60	Efficient information leakage neutralization on a relay-assisted multi-carrier interference channel Ho, Zuleita K.-M., Jorswieck, Eduard A., Engelmann, Sabrina 22 November 2013 (has links) (PDF) In heterogeneous dense networks where spectrum is shared, users privacy remains one of the major challenges. When the receivers are not only interested in their own signals but also in eavesdropping other users' signals, the cross talk becomes information leakage.We propose a novel and efficient secrecy rate enhancing relay strategy EFFIN for information leakage neutralization. The relay matrix is chosen such that the effective leakage channel (spectral and spatial) is zero. Thus, it ensures secrecy regardless of receive processing employed at eavesdroppers and does not rely on wiretaps codes to ensure secrecy, unlike other physical layer security techniques such as artificial noise. EFFIN achieves a higher sum secrecy rate over several state-of-the-art baseline methods. Interferenz-Relaiskanal Interferenz-Neutralisierung Mehrfachantennen-Systeme Sonderforschungsbereich 912 Hochadaptive Energieeffiziente Systeme Interference relay channel Interference neutralization Amplify-and-forward relay worst-case secrecy rate multi-antenna systems Collaborative Research Centre 912 ddc:621.3 rvk:ZN 6090 rvk:ZN 6460

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