Topologie et dimensionnement d'un réseau ad hoc maritime couplé avec un réseau satellitaire / Topology and dimensioning of a maritime MANET coupled with a satellite network

Kessab, Achraf

03 February 2017

Afin de garantir un MANET totalement connecté, nous proposons un outil analytique permettant d´estimer les rayons de couverture requis. Ensuite, nous étudions les communications multi-sauts et nous proposons plusieurs protocoles de routage pour améliorer les délais de communications. Puis, nous nous focalisons sur la contribution du réseau satellite en menant une étude comparative qualifiant les besoins en stations hybrides "HS" ainsi qu’une stratégie d´accès à ces passerelles satellite. Dans un deuxième temps, nous traitons l’ occurrence du dépassement des ressources radio et le dimensionnement de ces dernières de façon à optimiser la bande passante allouée au réseau. Nous dérivons un modèle analytique en utilisant des résultats issus de la géométrie aléatoire, permettant de prévoir la quantité de ressources radio requises par les noeuds actifs sous une certaine qualité de service "QoS" et plusieurs configurations d´antennes MIMO. Nous considérons tout d´abord un système d´accès centralisé où toutes les communications sont effectuées par l’ intermédiaire des noeuds chargés de la gestion des ressources radio. Ensuite, nous traitons le cas d´un système d´accès distribué sous le protocole d´accès Aloha où les nœuds sont autorisés à accéder à la bande passante partagée aléatoirement et uniformément. Les simulations et les résultats numériques permettent d´évaluer les performances en termes de bande passante requise, de capacité globale et de rayons de couverture. / In the first part of this thesis, we tackle the initialization of the network in this hierarchical context. We propose a statistical model enabling a network designer to perceive the requirements in terms of equipments, channel bandwidth, antenna configurations, antenna radiation pattern, achievable data rates for instance. In order to guarantee fully connected MANET, we introduce an analytical tool to estimate the required inter-staff-ships and inter-shipmasters coverage radii. Then we study the multi-hop end-to-end communications and we propose several routing protocols to enhance the delays. Afterwards, we focus on the contribution of the satellite backhaul with a comparative study qualifying the needs in Hybrid Stations “HSs” and a strategy to access to these gateways. In a second part, we emphasis on the radio resource outage occurrence and the dimensioning matter to optimize the allocated bandwidth to the network. We investigate stochastic geometry tools to provide an analytical model enabling to foresee the amount of required radio resources by the active nodes with a certain Quality of Service “QoS” and several Multiple Inputs Multiple Outputs “MIMO” antenna configurations in the maritime context. We consider first the centralized access scheme where all communications are performed via the shipmasters that are in charge of the radio resource management. Then we focus on the distributed access scheme with Aloha Medium Access Control “MAC” protocol where nodes are authorized to access to the shared bandwidth arbitrarily and unilaterally. Simulation and numerical results are provided to evaluate the performances in terms of required bandwidth, aggregate capacity.

LTE

MANET

Géométrie stochastique

Processus de Poisson

Topologie

Dimensionnement

Probabilité de dépassement

Ressources radio

Satellite

LTE

MANET

Stochastic geometry

Poisson process

Topology

Dimensioning

Outage probability

Radio resources

Satellite

MIMO block-fading channels with mismatched CSI

Asyhari, A.Taufiq, Guillen i Fabregas, A.

23 August 2014

Yes / We study transmission over multiple-input multiple-output (MIMO) block-fading channels with imperfect channel state information (CSI) at both the transmitter and receiver. Specifically, based on mismatched decoding theory for a fixed channel realization, we investigate the largest achievable rates with independent and identically distributed inputs and a nearest neighbor decoder. We then study the corresponding information outage probability in the high signal-to-noise ratio (SNR) regime and analyze the interplay between estimation error variances at the transmitter and at the receiver to determine the optimal outage exponent, defined as the high-SNR slope of the outage probability plotted in a logarithmic-logarithmic scale against the SNR. We demonstrate that despite operating with imperfect CSI, power adaptation can offer substantial gains in terms of outage exponent. / A. T. Asyhari was supported in part by the Yousef Jameel Scholarship, University of Cambridge, Cambridge, U.K., and the National Science Council of Taiwan under grant NSC 102-2218-E-009-001. A. Guillén i Fàbregas was supported in part by the European Research Council under ERC grant agreement 259663 and the Spanish Ministry of Economy and Competitiveness under grant TEC2012-38800-C03-03.

Relay-Assisted Free-Space Optical Communications

Safari, Majid

04 January 2011

The atmospheric lightwave propagation is considerably influenced by the random variations in the refractive index of air pockets due to turbulence. This undesired effect significantly degrades the performance of free-space optical (FSO) communication systems. Interestingly, the severity of such random degradations is highly related to the range of atmospheric propagation. In this thesis, we introduce relay-assisted FSO communications as a very promising technique to combat the degradation effects of atmospheric turbulence. Considering different configurations of the relays, we quantify the outage behavior of the relay-assisted system and identify the optimum relaying scheme. We further optimize the performance of the relay-assisted FSO system subject to some power constraints and provide optimal power control strategies for different scenarios under consideration. Moreover, an application of FSO relaying technique in quantum communications is investigated. The results demonstrate impressive performance improvements for the proposed relay-assisted FSO systems with respect to the conventional direct transmission whether applied in a classical or a quantum communication channel.

Optical Communications

Atmospheric Turbulence

Relay-Assisted Communication

Intensity Modulation Direct Detection

Diversity Gain

Outage Probability

Gaussian Channel

Quantum-Key Distrbution

Poisson Channel

Multi-Hop Transmission

Lognormal Fading

Optimum Power Allocation

Electrical and Computer Engineering

Performance evaluation and enhancement for AF two-way relaying in the presence of channel estimation error

Wang, Chenyuan

30 April 2012

Cooperative relaying is a promising diversity achieving technique to provide reliable transmission, high throughput and extensive coverage for wireless networks in a variety of applications. Two-way relaying is a spectrally efficient protocol, providing one solution to overcome the half-duplex loss in one-way relay channels. Moreover, incorporating the multiple-input-multiple-output (MIMO) technology can further improve the spectral efficiency and diversity gain. A lot of related work has been performed on the two-way relay network (TWRN), but most of them assume perfect channel state information (CSI). In a realistic scenario, however, the channel is estimated and the estimation error exists. So in this thesis, we explicitly take into account the CSI error, and investigate its impact on the performance of amplify-and-forward (AF) TWRN where either multiple distributed single-antenna relays or a single multiple-antenna relay station is exploited. For the distributed relay network, we consider imperfect self-interference cancellation at both sources that exchange information with the help of multiple relays, and maximal ratio combining (MRC) is then applied to improve the decision statistics under imperfect signal detection. The system performance degradation in terms of outage probability and average bit-error rate (BER) are analyzed, as well as their asymptotic trend. To further improve the spectral efficiency while maintain the spatial diversity, we utilize the maximum minimum (Max-Min) relay selection (RS), and examine the impact of imperfect CSI on this single RS scheme. To mitigate the negative effect of imperfect CSI, we resort to adaptive power allocation (PA) by minimizing either the outage probability or the average BER, which can be cast as a Geometric Programming (GP) problem. Numerical results verify the correctness of our analysis and show that the adaptive PA scheme outperforms the equal PA scheme under the aggregated effect of imperfect CSI. When employing a single MIMO relay, the problem of robust MIMO relay design has been dealt with by considering the fact that only imperfect CSI is available. We design the MIMO relay based upon the CSI estimates, where the estimation errors are included to attain the robust design under the worst-case philosophy. The optimization problem corresponding to the robust MIMO relay design is shown to be nonconvex. This motivates the pursuit of semidefinite relaxation (SDR) coupled with the randomization technique to obtain computationally efficient high-quality approximate solutions. Numerical simulations compare the proposed MIMO relay with the existing nonrobust method, and therefore validate its robustness against the channel uncertainty. / Graduate

Two-way relay network

channel estimation error

analog network coding

outage probability

bit-error rate

relay selection

power allocation

robust MIMO relay design

worst-case philosophy

convex optimization

semidefinite relaxation

randomization technique

Relay-Assisted Free-Space Optical Communications

Safari, Majid

04 January 2011

The atmospheric lightwave propagation is considerably influenced by the random variations in the refractive index of air pockets due to turbulence. This undesired effect significantly degrades the performance of free-space optical (FSO) communication systems. Interestingly, the severity of such random degradations is highly related to the range of atmospheric propagation. In this thesis, we introduce relay-assisted FSO communications as a very promising technique to combat the degradation effects of atmospheric turbulence. Considering different configurations of the relays, we quantify the outage behavior of the relay-assisted system and identify the optimum relaying scheme. We further optimize the performance of the relay-assisted FSO system subject to some power constraints and provide optimal power control strategies for different scenarios under consideration. Moreover, an application of FSO relaying technique in quantum communications is investigated. The results demonstrate impressive performance improvements for the proposed relay-assisted FSO systems with respect to the conventional direct transmission whether applied in a classical or a quantum communication channel.

Optical Communications

Atmospheric Turbulence

Relay-Assisted Communication

Intensity Modulation Direct Detection

Diversity Gain

Outage Probability

Gaussian Channel

Quantum-Key Distrbution

Poisson Channel

Multi-Hop Transmission

Lognormal Fading

Optimum Power Allocation

Electrical and Computer Engineering

Adaptive transmission for block-fading channels

Nguyen, Dang Khoa

January 2010

Multipath propagation and mobility in wireless communication systems give rise to variations in the amplitude and phase of the transmitted signal, commonly referred to as fading. Many wireless applications are affected by slowly varying fading, where the channel is non-ergodic, leading to non-reliable transmission during bad channel realizations. These communication scenarios are well modeled by the block-fading channel, where the reliability is quantatively characterized by the outage probability. This thesis focuses on the analysis and design of adaptive transmission schemes to improve the outage performance of both single- and multiple-antenna transmission over the block-fading channel, especially for the cases where discrete input constellations are used. Firstly, a new lower bound on the outage probability of non-adaptive transmission is proposed, providing an efficient tool for evaluating the performance of non-adaptive transmission. The lower bound, together with its asymptotic analysis, is essential for efficiently designing the adaptive transmission schemes considered in the thesis. Secondly, new power allocation rules are derived to minimize the outage probability of fixed-rate transmission over block-fading channels. Asymptotic outage analysis for the resulting schemes is performed, revealing important system design criteria. Furthermore, the thesis proposes novel suboptimal power allocation rules, which enjoy low-complexity while suffering minimal losses as compared to the optimal solution. Thus, these schemes facilitate power adaptation in low-cost devices. Thirdly, the thesis considers incremental-redundancy automatic-repeat-request (INR-ARQ) strategies, which perform adaptive transmission based on receiver feedback. In particular, the thesis concentrates on multi-bit feedback, which has been shown to yield significant gains in performance compared to conventional single-bit ARQ schemes. The thesis proposes a new information-theoretic framework for multi-bit feedback INR-ARQ, whereby the receiver feeds back a quantized version of the accumulated mutual information. Within this framework, the thesis presents an asymptotic analysis which yields the large gains in outage performance offered by multi-bit feedback. Furthermore, the thesis proposes practical design rules, which further illustrates the benefits of multi-bit feedback in INR-ARQ systems. In short, the thesis studies the outage performance of transmission over block-fading channels. Outage analysis is performed for non-adaptive and adaptive transmission. Improvements for the existing adaptive schemes are also proposed, leading to either lower complexity requirements or better outage performance. Still, further research is needed to bring the benefits offered by adaptive transmission into practical systems. / Thesis (PhD)--University of South Australia, 2010

Digital communications

power allocation

automatic repeat request

multi-bit feedback

block-fading channel

outage probability

230118 Optimisation

290901 Electrical Engineering

291703 Digital Systems

SNR exponent

Adaptive transmission for block-fading channels

Nguyen, Dang Khoa

January 2010

Multipath propagation and mobility in wireless communication systems give rise to variations in the amplitude and phase of the transmitted signal, commonly referred to as fading. Many wireless applications are affected by slowly varying fading, where the channel is non-ergodic, leading to non-reliable transmission during bad channel realizations. These communication scenarios are well modeled by the block-fading channel, where the reliability is quantatively characterized by the outage probability. This thesis focuses on the analysis and design of adaptive transmission schemes to improve the outage performance of both single- and multiple-antenna transmission over the block-fading channel, especially for the cases where discrete input constellations are used. Firstly, a new lower bound on the outage probability of non-adaptive transmission is proposed, providing an efficient tool for evaluating the performance of non-adaptive transmission. The lower bound, together with its asymptotic analysis, is essential for efficiently designing the adaptive transmission schemes considered in the thesis. Secondly, new power allocation rules are derived to minimize the outage probability of fixed-rate transmission over block-fading channels. Asymptotic outage analysis for the resulting schemes is performed, revealing important system design criteria. Furthermore, the thesis proposes novel suboptimal power allocation rules, which enjoy low-complexity while suffering minimal losses as compared to the optimal solution. Thus, these schemes facilitate power adaptation in low-cost devices. Thirdly, the thesis considers incremental-redundancy automatic-repeat-request (INR-ARQ) strategies, which perform adaptive transmission based on receiver feedback. In particular, the thesis concentrates on multi-bit feedback, which has been shown to yield significant gains in performance compared to conventional single-bit ARQ schemes. The thesis proposes a new information-theoretic framework for multi-bit feedback INR-ARQ, whereby the receiver feeds back a quantized version of the accumulated mutual information. Within this framework, the thesis presents an asymptotic analysis which yields the large gains in outage performance offered by multi-bit feedback. Furthermore, the thesis proposes practical design rules, which further illustrates the benefits of multi-bit feedback in INR-ARQ systems. In short, the thesis studies the outage performance of transmission over block-fading channels. Outage analysis is performed for non-adaptive and adaptive transmission. Improvements for the existing adaptive schemes are also proposed, leading to either lower complexity requirements or better outage performance. Still, further research is needed to bring the benefits offered by adaptive transmission into practical systems. / Thesis (PhD)--University of South Australia, 2010

Digital communications

power allocation

automatic repeat request

multi-bit feedback

block-fading channel

outage probability

230118 Optimisation

290901 Electrical Engineering

291703 Digital Systems

SNR exponent

Adaptive polarization mode dispersion equalizers for coherent optical communications systems / Αυτορυθμιζόμενοι εξισωτές διασποράς τρόπων πόλωσης για σύμφωνα οπτικά τηλεπικοινωνιακά συστήματα υψηλής φασματικής απόδοσης

Μαντζούκης, Νικόλαος

01 November 2010

Polarization mode dispersion (PMD) arises as a result of the birefringence in optical fibers, due to inherent asymmetries and deformities from external stresses. The spectral components of the input optical pulse propagate with different group velocities. Consequently, pulse duration increases leading to intersymbol interference between consequent symbols, leading to performance reduction of the coherent systems. In order to compensate for the PMD, we use adaptive linear PMD equalizers. Due to the dynamic and random nature of PMD, it is crucial for a system designer to efficiently simulate the PMD-induced outage probabilities of 10-5. Because of this stringent requirement, it is computationally costly to use the conventional Monte Carlo methods. To overcome this hurdle, Importance Sampling methods, such as the multicanonical Monte Carlo method have been applied in the past in order to efficiently reduce the simulation time required to estimate the statistics of these rare events. The multicanonical Monte Carlo method does not require any prior knowledge of which rare events contribute significantly to the PMD-induced outages. In essence, multicanonical Monte Carlo simulations adaptively bias the input random variables with a priori unknown weights. The PMD emulation model consists of a concatenation of birefringent sections, simulated based on MMC. The objective of this dissertation is to apply, for the first time, the multicanonical Monte Carlo method to accurately and efficiently evaluate the performance of adaptive, blind, feed-forward PMD equalizers employed in coherent polarization division multiplexed (PDM) quadrature phase-shift keying (QPSK) systems in all order PMD emulation model. In the exclusive presence of PMD, we demonstrated that the half-symbol-period-spaced adaptive electronic equalizers, based on the constant modulus algorithm (CMA) equalizers perform slightly better than the decision directed least mean square (DD-LMS) counterparts at links with larger PMD values, whereas the opposite holds true for the low PMD regime. Due to their distinguishable performance in different regimes of the PMD, they provided an even better performance when running DD-LMS after a first round of CMA-based equalization than using either one of the equalization algorithms stand alone. Finally, the joint presence of PMD and intermediate frequency offset or PMD and random differential phase carrier shifts slightly worsened the performance of the coherent PDM QPSK systems, independently of the equalizer. Although these random differential carrier phase shifts are typically omitted in similar PMD studies in intensity modulated/direct detection (IM/DD) systems, they should be taken into account in due to the phase sensitivity of the PDM QPSK coherent systems. / Οι οπτικές ίνες παρουσιάζουν διπλοθλαστικότητα, η οποία οφείλεται σε κατασκευαστικές ατέλειες των οπτικών ινών και σε εξωτερικούς παράγοντες. Η διπλοθλαστικότητα προκαλεί διασπορά μεταξύ των φασματικών συνιστωσών ενός διαμορφωμένου οπτικού σήματος. Κάθε φασματική συνιστώσα, ανάλογα με την πόλωσή της στην είσοδο της οπτικής ίνας, υφίσταται διαφορετική αλλαγή φάσης κατά τη διέλευσή της μέσα από την οπτική ίνα. Το φαινόμενο αυτό ονομάζεται διασπορά τρόπων πόλωσης. Η διασπορά τρόπων πόλωσης στην οπτική ίνα προκαλεί παραμόρφωση του οπτικού σήματος κι αλληλοπαρεμβολή συμβόλων στον οπτικό δέκτη, με αποτέλεσμα τη μείωση της απόδοσης ενός σύμφωνου οπτικού τηλεπικοινωνιακού συστήματος. Για την αντιμετώπιση του φαινομένου, χρησιμοποιούνται οι προσαρμοστικοί γραμμικοί εξισωτές διασποράς τρόπων πόλωσης. Εξαιτίας της στατιστικής φύσης του φαινομένου, πιθανότητες διακοπής της λειτουργίας της τάξεως του 10-5 ενός σύμφωνου συστήματος, τετραδικής διαμόρφωσης φάσης με πολυπλεξία πόλωσης της τάξεως με εξισωτές διασποράς τρόπων πόλωσης, υπολογίστηκαν βάσει της πολυκανονικής Monte Carlo μεθόδου (MMC). Στην MMC μέθοδο. οι παράμετροι στην είσοδο του συστήματος κατευθύνονται, έτσι ώστε στην έξοδο, η (άγνωστη) συνάρτηση πυκνότητας πιθανότητας της παραμέτρου ελέγχου να υπολογίζεται με ακρίβεια ακόμα και στις ουρές της. Το πλεονέκτημα της ΜΜC, σε σχέση με τις μεθόδους δειγματοληψίας σημαντικότητας, είναι ότι δεν απαιτείται καμία γνώση για το ποιες περιοχές στην είσοδο πρέπει να δειγματοληφθούν, ώστε στην έξοδο να προκύψουν τα σπάνια εκείνα γεγονότα που μας ενδιαφέρουν. Με βάση την ΜΜC μέθοδο υλοποιήθηκε και το μοντέλο της ίνας, ως μια αλληλουχία διπλοθλαστικών πλακιδίων. Σκοπός της διδακτορικής διατριβής, είναι η αξιολόγηση της απόδοσης του ενός σύμφωνου συστήματος με χρήση των εξισωτών, συναρτήσει της πιθανότητας διακοπής της λειτουργίας του συστήματος. Για την περίπτωση της αποκλειστικής παρουσίας της διασποράς τρόπων πόλωσης, ο εξισωτής ελαχίστου μέσου τετραγώνου (DD-LMS) έχει αποδοτικότερη λειτουργία, σε σχέση με τον εξισωτή σταθερής περιβάλλουσας (CMA), για χαμηλές τιμές της διασποράς τρόπων πόλωσης, ενώ ο εξισωτής CMA κυριαρχεί στις περιοχές με μεγαλύτερες τιμές της διασποράς τρόπων πόλωσης. Η βέλτιστη λειτουργία του σύμφωνου συστήματος σε μια ευρύτερη περιοχή τιμών της διασποράς τρόπων πόλωσης, επιτυγχάνεται με την χρήση ενός συνδυασμού των δύο εξισωτών CMA και LMS. Η αλληλεπίδραση της διασποράς τρόπων πόλωσης και της ενδιάμεσης συχνότητας επηρεάζει την απόδοση του σύμφωνου συστήματος, όπου ο εξισωτής CMA λειτουργεί αποδοτικότερα σε σχέση με τον εξισωτή DD-LMS, τόσο στις περιοχές χαμηλής όσο και υψηλής τιμής της διασποράς τρόπων πόλωσης. Επίσης, αν στο μοντέλο της ίνας, προσομοιώσουμε και τις τυχαίες διαφορικές ολισθήσεις της φέρουσας συχνότητας μεταξύ των πλακιδίων, λόγω της διπλοθλαστικότητας, τότε η επίδοση των εξισωτών ελαττώνεται. Επομένως, θα πρέπει να λαμβάνονται υπόψιν για την ορθότερη αξιολόγηση της απόδοσης του σύμφωνου συστήματος.

Optical communications

Optical fiber emulation

Multicanonical Monte Carlo

Coherent optical systems

Outage probability

621.382 75

Πιθανότητα διακοπής

Dimensionamento em redes ad hoc : trafego e interferencia combinados / Dimensioning ad hoc networks : traffic and interference combined.

Medeiros, Alvaro Augusto Machado de

07 June 2007

Orientador: Michel Daoud Yacoub / Tese (doutorado) - Universidade Estadual de Campinas, Faculdade de Engenharia Eletrica e de Computação / Made available in DSpace on 2018-08-10T09:17:00Z (GMT). No. of bitstreams: 1 Medeiros_AlvaroAugustoMachadode_D.pdf: 910419 bytes, checksum: 8fee720ee964b6908659ff1ab27c754e (MD5) Previous issue date: 2007 / Resumo: As redes ad hoc são redes sem um controle centralizado, cujos nós se comunicam através de um canal sem fio diretamente ou através de múltiplos saltos. Uma questão complexa referente a redes ad hoc é o cálculo da capacidade. Estimar quantas transmissões a rede permite, garantindo qualidade de serviço aos usuarios é uma tarefa difícil em virtude de duas características da rede: o canal sem fio e as transmissões em múltiplos saltos. Este trabalho propõe um novo método para cálculo da capacidade através da probabilidade de outage que considera ambos os aspectos. Este método apresenta vantagens como fácil implantação, baixo esforço computacional e resultados praticamente indistinguíveis daqueles obtidos atraves de simulação. O metodo pode ser aplicado aos mais variados ambientes de propagação e qualquer topologia de rede. Modelos de interferência mais realistas, bem como a questão do roteamento são também abordados ao longo do trabalho / Abstract: Ad hoc networks are networks that operate without centralized control, whose nodes communicate through wireless links in a single or multihop way. A complex issue about ad hoc networks is the capacity estimation. The computation of how many transmissions the network can support ensuring a quality of service for its users is a difficult task due to two central aspects: the wireless medium and the multihop nature of transmissions. An analytical method to calculate the capacity through the computation of the outage probability considering both aspects is proposed in this work. This method presents advantages such as simple implementation, low computational efforts and practically indistinguishable results from those obtained through simulation. This method can be applied to many propagation environments and to any network topology. More realistic interference models and the routing issue are also described along this work / Doutorado / Telecomunicações e Telemática / Doutor em Engenharia Elétrica

Sistemas de comunicação sem fio

Sistemas de comunicação móvel

Telecomunicações - Tráfego

Rádio - Interferência

Wireless communication systems

Wireless ad hoc networks

Capacity

Outage probability

Multihop traffic

Interference

Fading

Routing

Analyses of a low-bit rate hybrid PLC-wireless single-relay channel

Fernandes, Victor

23 February 2017

Submitted by Renata Lopes (renatasil82@gmail.com) on 2017-07-19T18:40:00Z No. of bitstreams: 1 victorfernandes.pdf: 1092306 bytes, checksum: 4a32aa04ed1256ce18768180de089629 (MD5) / Approved for entry into archive by Adriana Oliveira (adriana.oliveira@ufjf.edu.br) on 2017-08-09T12:20:45Z (GMT) No. of bitstreams: 1 victorfernandes.pdf: 1092306 bytes, checksum: 4a32aa04ed1256ce18768180de089629 (MD5) / Made available in DSpace on 2017-08-09T12:20:45Z (GMT). No. of bitstreams: 1 victorfernandes.pdf: 1092306 bytes, checksum: 4a32aa04ed1256ce18768180de089629 (MD5) Previous issue date: 2017-02-23 / CAPES - Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / Essa dissertação tem por objetivo mostrar os benefícios em termos de desempenho e confiabilidade de um modelo de canal híbrido de baixa taxa de dados que pode ser aplicado a smart grids e internet das coisas. Esse modelo é chamado de hybrid power line communication-wireless single-relay channel (HSRC), que consiste do uso paralelo e mútuo dos modelos single-relay channel baseado em transmissão de dados via rede elétrica e sem fio. Para mostrar os benefícios do mesmo, foi considerado que a posição do nó de retransmissão é variável, também foi assumida alocação de potência uniforme e ótima sob restrição de potência, bem como o uso de dois protocolos de cooperação: amplify-andforward (AF) e decode-and-forward (DF). Além disso, essa dissertação discute o modelo HSRC incompleto, que é caracterizado pela perda de um enlace de comunicação de dados ou uma interface de comunicação de um nó no modelo HSRC. Primeiramente, foi apresentada a formulação matemática no que tange a taxa de dados ergódica e probabilidade de outage dos dois modelos mencionados. Em seguida, foi realizada a análise numérica dos mesmos. Por fim, os resultados numéricos foram analisados e mostraram que tanto o HSRC quanto o HSRC incompleto têm performance melhores do que o single-relay channel baseado em transmissão de dados via rede elétrica ou sem fio para todas as posições do nó de retransmissão e protocolos de cooperação considerados. Também, os resultados mostraram que a posição relativa entre os nós de fonte, destino e de retransmissão impactam significativamente na taxa de dados ergódica bem como na probabilidade de outage. Ainda, foi mostrado o impacto da perda de cada enlace de comunicação de dados ou interface de comunicação de um nó (HSRC incompleto) quando a posição relativa do nó de retransmissão muda. Por último, é mostrado que a diferença de desempenho entre os protocolos de cooperação AF e DF reduz quando o modelo HSRC é utilizado e que a melhor posição para o nó de retransmissão é entre os nós fonte e destino em termos de taxa de dados ergódica. / This dissertation aims at discussing improvements of performance and reliability of lowbit rate data communication technologies applied to smart grids and internet of things. In this regard, a comprehensive analysis of the ergodic achievable data rate and the outage probability of the so-called low-bit rate hybrid power line communication-wireless singlerelay channel (HSRC) model, which jointly and in parallel uses power line and wireless channels for data transmission, is presented. In order to highlight the benefits of such hybrid channel model for the target applications when the relative position of relay node changes, optimal and uniform power allocations under sum power constraint, amplifyand-forward (AF) and decode-and-forward (DF) cooperative protocols are taken into account. Moreover, this dissertation discusses the so-called incomplete HSRC which is characterized by the loss of one data communication link or node communication interface in a HSRC. Numerical results show that the HSRC and incomplete HSRC remarkably outperform power line or wireless single-relay channels for all considered positions of the relay node and the chosen cooperative protocols. Furthermore, these results show that the relative distances among source, relay and destination nodes significantly impact the achievable data rate and outage probabilities. In addition, the impact of each missing data communication link or node communication interface (incomplete HSRC) when the relay position, relative to source and destination nodes, changes is quantified. Finally, but not the least, it is shown that the performance difference between AF and DF protocols reduces when the HSRC model is taken into account and that the best relay position is in the middle between source and destination nodes.

CNPQ::ENGENHARIAS::ENGENHARIA ELETRICA

Comunicação sem fio

Modelo de canal híbrido

Taxa de dados ergódica

Probabilidade de outage

Power line communication

Wireless communication

Hybrid channel model

Achievable data rate

Outage probability