Distributed cooperative MIMO in beyond 2020 wireless networks

Cabrejas Peñuelas, Jorge

02 May 2016

[EN] Mobile communication systems are currently being developed with the aim of providing peak data rates up to 20 times higher to those of LTE-Advanced Rel 10. However, this performance improvement is often far from being the experimented performance by those users who are far from the Base Station (BS). In this sense, there exists a consensus on the fact that the best way to achieve the same quality for all users is with the use of heterogeneous networks composed of macrocells, microcells, femtocells, and relays. This dissertation addresses the use of Mobile Relays (MRs) to provide service to users who are at the cell-edge. MR is a natural extension of the fi xed relay in which users who are in the idle state could retransmit signals received from other transmitters to enhance data rates. This dissertation focuses on proposing and evaluating new techniques that manage the use of the MR in the new generation cellular networks. In particular, the dissertation studies MR from two complementary points of view. The first point of view investigates the MR management at the network level through a signaling protocol known as Media Independent Handover. The central idea of this mechanism is to use this signaling to connect the BS and the user in one of the following two manners. In the former, both entities are connected directly through the xG (x= 2, 3, 4, 5) wireless network. In the latter, there exists an xG connection between the BS and the MR and another one between the MR and the user through an IEEE 802.11 local wireless network. The investigations in this Thesis aim at fi nding a trade-of f between using multiple MRs and reducing signaling overhead. The second point of view deals with MR integration at air interface level. It consists in detecting, proposing, and evaluating new transmission techniques that solve the drawbacks derived from coherent detection. As with point-to-point systems, employing multiple antennas in a cooperative system can signi cantly improve the spectral efficiency of the systems with only one transmit antenna assuming that the channel estate information is available at the receiver. However, performing a coherent detection in a network assisted by relays consumes much more resources than a point-to-point network since the coherent detection requires the channel estimation of source-relay, relay-destination, and source-destination links. In this Thesis, the proposed solution is to use transmission techniques that do not need the channel knowledge to perform the detection. This dissertation evaluates the use of Single-User (SU) open-loop communication methods over temporally-correlated Rayleigh fading MIMO channels. On the other hand, in multi-carrier systems, the Thesis proposes to transmit the Grassmannian signaling (GS) in the virtual block formed by the coherence time and the coherence bandwidth. This proposal is due to the fact that GS achieves data rates approaching capacity over block-fading channels. However, this channel type is not common in real systems since channel correlation is often found in frequency, time, and space. For this reason, the next objective is to evaluate the performance of GS compared to the diversity transmission modes of LTE, analyzing the impact of user mobility and antenna correlation. Thanks to these investigations, we point that non-coherent systems are promising techniques in mobility scenarios with a high number of transmit antennas. This result motivates its relevance in the design of new SU open-loop transmission methods with multiple antennas. In downlink multi-user non-coherent scenarios, superposition coding and a suboptimum detection scheme are proposed. This detection system reduces the complexity respect to the maximum likelihood detection. Finally, this dissertation proposes that GS is transmitted in a new carrier type, where any reference signal is transmitted. In this way, the user would change its detection method to non-coherent. / [ES] Los sistemas de comunicaciones móviles están siendo desarrollados en la actualidad con el objetivo de ofrecer tasas de datos de pico hasta 20 veces mayores que las proporcionadas por LTE-Advanced Rel 10. Sin embargo, esta mejora en prestaciones está lejos de ser la experimentada por los usuarios que están lejos de la Estación Base (EB). En este sentido, existe un consenso en que la mejor manera de lograr la misma calidad para todos los usuarios es con el uso de redes heterogéneas formadas de macroceldas, microceldas, femtoceldas y relays. Esta Tesis estudia el uso del Relay Móvil (RM) para proporcionar servicio a usuarios que estén en el borde de la celda. El RM es una extensión natural del relay fijo en el cual los usuarios que están en reposo podrían retransmitir señales recibidas de otros transmisores para mejorar las tasas de datos. Esta Tesis se enfoca en proponer y evaluar nuevas técnicas que gestionen el uso del RM en las redes celulares de nueva generación. En particular, la Tesis estudia el MR desde dos puntos de vista complementarios. El primer punto de vista investiga la gestión del RM a nivel de red a través de un protocolo de señalización conocido como Media Independent Handover. La idea principal de este mecanismo es usar esta señalización para conectar la EB y el usuario en una de las siguientes dos maneras. En la primera, ambas entidades están conectadas directamente a través de la red inalámbrica xG (x=2, 3, 4, 5). En la segunda, existe una conexión xG entre la EB y el RM, y otra entre el RM y el usuario a través de una red inalámbrica local IEEE 802.11. Las investigaciones en esta Tesis buscan un compromiso entre usar múltiples RMs y reducir la carga de señalización. El segundo punto de vista trata de la integración del RM a nivel radio. Esto consiste en detectar, proponer y evaluar nuevas técnicas de transmisión que solucionen los inconvenientes derivados de la detección coherente. Como en los sistemas punto a punto, emplear múltiples antenas en un sistema cooperativo puede mejorar la efficiencia espectral respecto a los sistemas con una única antena transmisora asumiendo que el estado del canal está disponible en el receptor. Sin embargo, realizar una detección coherente en una red asistida con relays consume más recursos que una red punto a punto ya que la detección coherente requiere la estimación de canal de los enlaces fuente-relay, relay-destino y fuente-destino. La solución propuesta es usar técnicas de transmisión que no necesiten el conocimiento del canal para realizar la detección. Esta Tesis evalúa el uso de métodos de comunicación en lazo abierto a un único usuario sobre canales MIMO con desvanecimientos Rayleigh temporalmente correlados. Por otra parte, en sistemas multiportadora, se propone transmitir la Señalización Grassmannian (SG) en el bloque virtual formado por el tiempo de coherencia y el ancho de banda de coherencia. Esta propuesta se debe al hecho de que la SG alcanza tasas de datos cercanas a la capacidad en canales block-fading. Sin embargo, este tipo de canal no es común en sistemas reales puesto que la correlación del canal se encuentra a menudo en frecuencia, tiempo y espacio. Por esta razón, el siguiente objetivo es evaluar las prestaciones de la SG comparadas con los modos de transmisión de diversidad de LTE, analizando el impacto de la movilidad del usuario y la correlación de las antenas. Gracias a estas investigaciones, apuntamos que los sistemas no coherentes son técnicas prometedoras en escenarios con movilidad y un alto número de antenas transmisoras. En escenarios no coherentes multiusuario del enlace descendente, se propone utilizar superposition coding y un esquema de detección subóptimo que reduce la complejidad respecto a la detección de máxima verosimilitud. Finalmente, se propone que la SG sea transmitida en una nueva portadora donde ninguna señal de referencia se transmita. De esta forma, el usuar / [CAT] Els sistemes de comunicacions mòbils estan sent desenrotllats en l'actualitat amb l'objectiu d'oferir taxes de dades de pic fins a 20 vegades majors que les proporcionades per LTE-Advanced Rel 10. No obstant això, esta millora en prestacions està lluny de ser l'experimentada pels usuaris que estan lluny de l'Estació Base (EB). En este sentit, hi ha un consens en què la millor manera d'aconseguir la mateixa qualitat per a tots els usuaris és amb l'ús de xarxes heterogènies formades de macrocel·les, microcel·les, femtoceldas i relays. Esta Tesi estudia l'ús del Relay Mòbil (RM) per a proporcionar servici a usuaris que estiguen en el bord de la cel·la. El RM és una extensió natural del relay fix en el qual els usuaris que estan en repòs podrien retransmetre senyals rebudes d'altres transmissors per a millorar les taxes de dades. Esta Tesi s'enfoca a proposar i avaluar noves tècniques que gestionen l'ús del RM en les xarxes cel·lulars de nova generació. En particular, la Tesi estudia el MR des de dos punts de vista complementaris. El primer punt de vista investiga la gestió del RM a nivell de xarxa a través d'un protocol de senyalització conegut com Media Independent Handover. La idea principal d'este mecanisme és usar esta senyalització per a connectar l'EB i l'usuari en una de les següents dos maneres. En la primera, ambdós entitats estan connectades directament a través de la xarxa sense fil xG (x=2, 3, 4, 5) . En la segona, hi ha una connexió xG entre l'EB i el RM, i una altra entre el RM i l'usuari a través d'una xarxa sense fil local IEEE 802.11. Les investigacions en esta Tesi busquen un compromís entre usar múltiples RMs i reduir la càrrega de senyalització. El segon punt de vista tracta de la integració del RM a nivell ràdio. Açò consistix a detectar, proposar i avaluar noves tècniques de transmissió que solucionen els inconvenients derivats de la detecció coherent. Com en els sistemes punt a punt, emprar múltiples antenes en un sistema cooperatiu pot millorar l'efficiencia espectral respecte als sistemes amb una única antena transmissora assumint que l'estat del canal està disponible en el receptor. No obstant això, realitzar una detecció coherent en una xarxa assistida amb relays consumix més recursos que una xarxa punt a punt ja que la detecció coherent requerix l'estimació de canal dels enllaços font-relay, relay-destí i font-destí. La solució proposada és usar tècniques de transmissió que no necessiten el coneixement del canal per a realitzar la detecció. Esta Tesi avalua l'ús de mètodes de comunicació en llaç obert a un únic usuari sobre canals MIMO amb esvaïments Rayleigh temporalment correlats. D'altra banda, en sistemes multiportadora, es proposa transmetre la Senyalització Grassmannian (SG) en el bloc virtual format pel temps de coherència i l'amplada de banda de coherència. Esta proposta es deu al fet de que la SG aconseguix taxes de dades pròximes a la capacitat en canals block-fading. No obstant això, este tipus de canal no és comú en sistemes reals ja que la correlació del canal es troba sovint en freqüència, temps i espai. Per esta raó, el següent objectiu és avaluar les prestacions de la SG comparades amb els modes de transmissió de diversitat de LTE, analitzant l'impacte de la mobilitat de l'usuari i la correlació de les antenes. Gràcies a estes investigacions, apuntem que els sistemes no coherents són tècniques prometedores en escenaris amb mobilitat i un alt nombre d'antenes transmissores. En escenaris no coherents multiusuari de l'enllaç descendent, es proposa utilitzar superposition coding i un esquema de detecció subòptim que reduïx la complexitat respecte a la detecció de màxima versemblança. Finalment, es proposa que la SG siga transmesa en una nova portadora on cap senyal de referència es transmeta. D'esta manera, l'usuari canviaria el seu mètode de detecció a no coherent. / Cabrejas Peñuelas, J. (2016). Distributed cooperative MIMO in beyond 2020 wireless networks [Tesis doctoral no publicada]. Universitat Politècnica de València. https://doi.org/10.4995/Thesis/10251/63245 / TESIS

5G

LTE

LTE-Advanced

MIMO

Non-coherent

Grassmannian

Media Independent Handover

MIH

USTM

DUSTM

TEORIA DE LA SEÑAL Y COMUNICACIONES

FPGA-Based Acceleration of LTE Protocol Decoding

Thelin, William

January 2021

This work investigates the possibility to accelerate a procedure in 4G/LTE systems, known as control channel analysis. The aim is to perform the procedure in real-time on cheap and accessible hardware.An LTE decoder implemented in software is modified to perform the procedure.The modified software is analyzed and profiled. The most time-consuming decoding steps are identified and implemented in hardware description language.The results show an acceleration of the most time-consuming steps of almost 50 times faster compared to implementation in software only. Furthermore, the resource utilization of the hardware design scales linearly with respect to faster decode time, if necessary the acceleration can be increased. However, the results from the profiling and time measurements of the software show that the time requirement is violated by other decoding steps.The thesis concludes that an acceleration in hardware of the most time-consuming steps is possible. However, to satisfy the time requirement further decode steps are required to be accelerated and/or a faster processor can be used.

fpga

hardware acceleration

decode acceleration

LTE

4G

control channel analysis

4G protocol decoding

LTE protocol decoding

Computer Engineering

Datorteknik

CVS : a framework architecture for D2D-based cellular vehicular services in 4G networks and beyond / CVS : un framework d'architecture pour le déploiement de services véhiculaires basés sur les communications LTE-D2D dans les réseaux 4G/5G

Toukabri, Thouraya

02 December 2016

L'explosion du trafic dans les réseaux mobiles d'aujourd'hui est l'une des préoccupations majeures des opérateurs mobiles. En effet, entre investir dans le développement de l’infrastructure pour supporter l’évolution des besoins des utilisateurs et faire face à la concurrence accrue des nouveaux acteurs du marché, l’enjeu est considérable. Dans ce contexte, les communications Device-to-Device (D2D) offrent aux opérateurs mobiles de nouvelles opportunités aussi bien financières que techniques, à travers les communications directes entre les appareils mobiles permettant de délester le réseau d'une partie du trafic. L'organisme de standardisation 3GPP a défini des évolutions de son architecture LTE/4G fonctionnelle pour supporter les communications D2D dans le cadre de Services de Proximité (ProSe). Cependant, les modèles économiques autour de ces nouveaux services sont encore flous et les solutions actuellement proposées par le 3GPP visent un déploiement à court terme d’un ensemble limité de services (ex : les services de sécurité publique). La première contribution proposée dans le cadre de cette thèse est une évolution de l'architecture ProSe vers une architecture cible distribuée dans laquelle les fonctions liées à ProSe sont mutualisées avec d'autres fonctions réseaux. La deuxième contribution porte sur l’intégration des services véhiculaires dans les réseaux mobiles en tant que services ProSe particuliers reposant sur les communications D2D. L'architecture CVS (Cellular Vehicular Services) est alors proposée comme solution pour un déploiement à grande échelle des services véhiculaires en s'appuyant sur une nouvelle évolution de l’architecture ProSe distribuée. Un algorithme de « clustering » ainsi que des procédures de communication en mode relais D2D sont utilisés dans la conception de la solution afin d’optimiser l'usage des ressources du réseau. Enfin, les performances de ces contributions sont évaluées à l'aide de modèles analytiques et de simulations afin de valider les approches et solutions proposées / The traffic explosion in today’s mobile networks is one of the major concerns of mobile operators. This explosion is mostly widening the gap between networks’ capacities and users’ growing needs in terms of bandwidth and QoS (Quality of Service), which directly impacts operators’ business profitability. In this context, Device-to-Device (D2D) communications offer mobile operators business and technical opportunities by allowing the network traffic offload with D2D direct communications between mobile devices. The recent standardization of D2D-based services as Proximity Services (ProSe) by the 3GPP provides already a set of enhancements to the current LTE/4G architecture to support these services. However, still in its infancy, the proposed solutions are envisioned for short-term market deployments and for a limited set of service categories (i.e public safety services). As a first contribution of this thesis, the proposed Distributed ProSe Architecture enhances the current ProSe architecture for a longer term deployment perspective of D2D-based services. On the basis of this enhanced architecture, vehicular communications and related services are further investigated as a specific implementation of ProSe as well as a new market opportunity for mobile operators. The CVS (Cellular Vehicular Services) solution is then introduced as an architecture framework that enables the integration of vehicular networks into mobile operators’ network infrastructure. A mobile network clustering algorithm and D2D relay-based communication mechanisms are used in the solution design in order to optimize the use of both core and radio network resources. Performance evaluation through analytical modeling and simulations are also carried out to validate the proposed contributions

Device-to-device

Services de proximité

Architecture LTE

Communications véhiculaires

Device-to-device

Proximity services

LTE architecture

Vehicular communications

Implementation and performance analysis of software defined radio (SDR) based LTE platform for truck connectivity application

Maqsood, Bilal

January 2019

In today’s modern era of technology mobile communication is evolving with a higher pace than ever before. New features and applications are added in the existing networks each day. The faster development pace requires a faster way to prototype and test the mobile communication standards/ applications to offer faster delivery to the end user. In traditional practices hardware updates and new features growth take long time to market implementations. Technology tends to be obsolete by the time it is to be launched to the market. The reason being long time required for hardware production. However, in the recent days the trend is changing with the emergence of open source cellular stacks to be used with affordable software defined radio (SDR) hardware platforms. Long term evolution (LTE) open source cellular stacks along with the SDR technology are widely used in research these days. However, the performance and limitations of these SDR based open source cellular stacks needs to be explored. In this project a thorough study is performed to access the performance of an open source SDR based LTE user equipment (UE) software stack. A prototype of Category 4 LTE modem is implemented using the srsLTE application suite. Performance analysis is done by looking into the datarate, SNR and radio frequency (RF) characteristics of the implemented solution for multiple system bandwidth settings. A performance comparison is presented between the high performance SDR platform Universal Software Radio Peripheral x310 and the LimeSDR. The results show that the SDR technology is capable of handling wideband signals like LTE. The choice of SDR hardware platform and open source cellular stack depends on the application. The chosen solution for this project i.e. srsLTE performed well for LTE bandwidths 10 MHz and above in terms of downlink data rate. However, the radio frequency characteristics of selected SDR platforms do not comply fully with the 3GPP standard requirements. / I dagens moderna era av teknik utvecklas mobilkommunikation med en högre takt än någonsin tidigare. Nya funktioner och applikationer läggs till i befintliga nätverk varje dag. Den snabbare utvecklingstakten kräver ett snabbare sätt att prototypa och testa mobil kommunikationsstandarder / applikationer för att erbjuda snabbare leverans till slutanvändaren. I traditionell praxis tar hårdvaruuppdateringar och nya funktioner tillväxt lång tid att implementera marknaden. Teknik tenderar att vara föråldrad när den ska lanseras på marknaden. Anledningen är att det krävs lång tid för hårdvaruproduktion. De senaste dagarna förändras emellertid trenden med uppkomsten av cellulära stackar med öppen källkod som ska användas med programvarudefinierad radio (SDR) till överkomliga programvara. par Långtidsutveckling (LTE) med öppna källor, cellulära staplar tillsammans med SDR-tekniken används i stor utsträckning i forskning idag. Prestandan och begränsningarna för dessa SDR-baserade öppna källkodsstapelar måste dock utforskas. I detta projekt utförs en grundlig studie för att fååtkomst till prestanda för en open source SDR-baserad LTE-användarutrustning (UE) -programvarubunke. En prototyp av kategori 4 LTEmodem implementeras med srsLTE-applikationssviten. Prestandeanalys görs genom att undersöka egenskaperna för datarate, SNR och radiofrekvens (RF) för den implementerade lösningen för flera systembandbreddinställningar. En prestandajämförelse presenteras mellan den högpresterande SDR-plattformen Universal Software Radio Peripheral x310 och LimeSDR. Resultaten visar att SDR-tekniken kan hantera bredbandssignaler som LTE. Valet av SDR-hårdvaruplattform och öppen källkods cellstapel beror påapplikationen. Den valda lösningen för detta projekt, dvs srsLTE, fungerade bra för LTE-bandbredd 10 MHz och högre i termer av nedlänks datahastighet. Radiofrekvensegenskaperna för utvalda SDR-plattformar uppfyller dock inte helt 3GPP-standardkraven.

SDR

LTE

srsLTE

srsUE

USRP

LimeSDR

SDR

LTE

srsLTE

srsUE

USRP

LimeSDR

Elektroteknik och elektronik

Designing a communication controller for a wireless sensor network : Practical considerations and comparisons / Design av en kommunikationskontroller för trådlösa sensornätverk : Praktiska beaktanden och jämförelser

Larssen, Frej, Karlsson, Axel

January 2023

As the use of Internet of Things (IoT) devices increases, so does the number of available hardware platforms. Today there exists a broad range of hardware components that could be used to develop an IoT product and selecting the right ones is a difficult task. This thesis addresses this issue by conducting a case study where a communication controller is designed and implemented for the ArtEmis project. ArtEmis is a collaboration between universities around Europe that aims to examine the relationship between rising radon levels in ground water and the probability of forthcoming earthquakes. The case study consists of a theoretical pre-study where a survey of the current literature is conducted and establishes a set of requirements. Then, a set of hardware components are selected and used to implement a prototype. The result of the case study is a list of important parameters and potential problems which can be used to guide the development of similar systems. Two platforms based on the IoT-boards Radio sensors node model S2 and Raspberry Pi 4 model B were recommended. / I och med att antalet IoT-enheter ökar ökar också antalet tillgängliga hårdvaruplattformar. Idag finns det en mängd hårdvarukomponenter som kan användas för att utveckla IoT-produkter och det är svårt att avgöra vilka av dem som är lämpliga för varje produkt. Denna uppsats behandlar detta problem genom att utföra en fallstudie där en kommunikationskontroller designas och implementeras till ArtEmis. ArtEmis är ett samarbete mellan europeiska universitet vars syfte är att utreda sambandet mellan stigande radonnivåer i grundvattnet och sannolikheten för en framtida jordbävning. Fallstudien består av en teoretisk förstudie där en överblick av det nuvarande litteraturen ges och en kravlista för plattformen sammanställs. Sedan väljs en uppsättning hårdvarukomponenter, vilka används för att implementera en prototyp. Resultatet av fallstudien är en lista av viktiga parametrar och potentiella problem som kan användas för att vägleda utvecklingen av liknande system. Två plattformar baserade på IoT-korten Radio sensors node model S2 och Raspberry Pi 4 model B rekommenderades.

Wireless sensor networks

IoT

LTE-M

Comparison

Trådlösa sensornätverk

IoT

LTE-M

Jämförelse

Computer and Information Sciences

Data- och informationsvetenskap

Capacity Enhancement Approaches for Long Term Evolution networks: Capacity Enhancement-Inspired Self-Organized Networking to Enhance Capacity and Fairness of Traffic in Long Term Evolution Networks by Utilising Dynamic Mobile Base-Stations

Alrowili, Mohammed F.H.

January 2018

The long-term evolution (LTE) network has been proposed to provide better network capacity than the earlier 3G network. Driven by the market, the conventional LTE (3G) network standard could not achieve the expectations of the international mobile telecommunications advanced (IMT-Advanced) standard. To satisfy this gap, the LTE-Advanced was introduced with additional network functionalities to meet up with the IMT-Advanced Standard. In addition, due to the need to minimize operational expenditure (OPEX) and reduce human interventions, the wireless cellular networks are required to be self-aware, self-reconfigurable, self-adaptive and smart. An example of such network involves transceiver base stations (BTSs) within a self-organizing network (SON). Besides these great breakthroughs, the conventional LTE and LTE-Advanced networks have not been designed with the intelligence of scalable capacity output especially in sudden demographic changes, namely during events of football, malls, worship centres or during religious and cultural festivals. Since most of these events cannot be predicted, modern cellular networks must be scalable in terms of capacity and coverage in such unpredictable demographic surge. Thus, the use of dynamic BTSs is proposed to be used in modern and future cellular networks for crowd and demographic change managements. Dynamic BTSs are complements of the capability of SONs to search, determine and deploy less crowded/idle BTSs to densely crowded cells for scalable capacity management. The mobile BTSs will discover areas of dark coverages and fill-up the gap in terms of providing cellular services. The proposed network relieves the LTE network from overloading thus reducing packet loss, delay and improves fair load sharing. In order to trail the best (least) path, a bio-inspired optimization algorithm based on swarm-particle optimization is proposed over the dynamic BTS network. It uses the ant-colony optimization algorithm (ACOA) to find the least path. A comparison between an optimized path and the un-optimized path showed huge gain in terms of delay, fair load sharing and the percentage of packet loss.

LTE

LTE-Advanced

Self-organised network

Mobile BTS

Ant-colony optimisation

Packet loss rate

Delay

Intelligent cellular network

Interactions Study of Self Optimizing Schemes in LTE Femtocell Networks

El-murtadi Suleiman, Kais

06 December 2012

One of the enabling technologies for Long Term Evolution (LTE) deployments is the femtocell technology. By having femtocells deployed indoors and closer to the user, high data rate services can be provided efficiently. These femtocells are expected to be depolyed in large numbers which raises many technical challenges including the handover management. In fact, managing handovers in femtocell environments, with the conventional manual adjustment techniques, is almost impossible to keep pace with in such a rapidly growing femtocell environment. Therefore, doing this automatically by implementing Self Organizing Network (SON) use cases becomes a necessity rather than an option. However, having multiple SON use cases operating simultaneously with a shared objective could cause them to interact either negatively or positively. In both cases, designing a suitable coordination policy is critical in solving negative conflicts and building upon positive benefits. In this work, we focus on studying the interactions between three self optimization use cases aiming at improving the overall handover procedure in LTE femtocell networks. These self optimization use cases are handover, Call Admission Control (CAC) and load balancing. We develop a comprehensive, unified LTE compliant evaluation environment. This environment is extendable to other radio access technologies including LTE-Advanced (LTE-A), and can also be used to study other SON use cases. Various recommendations made by main bodies in the area of femtocells are considered including the Small Cell Forum, the Next Generation Mobile Networks (NGMN) alliance and the 3rd Generation Partnership Project (3GPP). Additionally, traffic sources are simulated in compliance with these recommendations and evaluation methodologies. We study the interaction between three representative handover related self optimization schemes. We start by testing these schemes separately, in order to make sure that they meet their individual goals, and then their mutual interactions when operating simultaneously. Based on these experiments, we recommend several guidelines that can help mobile network operators and researchers in designing better coordination policies. / Thesis (Master, Electrical & Computer Engineering) -- Queen's University, 2012-12-05 22:35:27.538

LTE

Interaction

CAC

Self Organizing Network

Load Balancing

Evaluation

SON

LTE-Advanced

LTE-A

Long Term Evolution

Guideline

Recommendation

Self Optimizing Network

Optimization

Femtocell

Organization

Use Case

Handover

Coordination

Call Admission Control

Enhancement of LTE Radio Access Protocols for Efficient Video Streaming

Tirouvengadam, Balaaji

13 September 2012

A drastic increase in traffic of mobile broadband is seen in the past few years, which is further accelerated by the increase in usage of smart phones and its applications. The availability of good smart phones and better data connectivity are encouraging mobile users to use video services. This huge increase in usage will pose a lot of challenges to the wireless networks. The wireless network has to become content aware in order to offer enhanced quality of video service through efficient utilization of the wireless spectrum. This thesis focuses on improving the Quality of Experience (QoE) for video transmission over Long Term Evolution (LTE) networks by imparting the content awareness to the system and providing unequal error protection for critical video packets. Two different schemes for the improvement of video quality delivery over LTE networks are presented in this thesis. Using content awareness, the retransmission count of Hybrid Automatic Repeat reQuest (HARQ) are changed dynamically such that the most important video frame gets more number of retransmission attempts, which increases its success for delivery in-turn increasing the received video quality. Since Radio Link Control (RLC) is the link layer for radio interface, the second approach focuses on optimizing this layer for efficient video transmission. As part of this scheme, a new operation mode called Hybrid Mode (HM) for RLC is defined. This mode performs retransmission only for the critical video frames, leaving other frames to unacknowledged transmission. The simulation results of both proposed schemes provide significant improvement in achieving good video quality without affecting the system performance.

LTE

4G

Content Aware

Video streaming over LTE

H.264

AVC

HARQ

RLC

Radio access protocols

Wireless MAC

Radio Link Control

Hybrid ARQ

[en] PERFORMANCE OF VIDEO SERVICES IN LTE SYSTEMS USING RELAY / [pt] DESEMPENHO DE SERVIÇOS DE VÍDEO SOBRE TECNOLOGIA LTE COM UTILIZAÇÃO DE NÓS RELAY

CESAR AUGUSTO SIERRA FRANCO

25 April 2014

[pt] A constante evolução e aumento de capacidades multimídia nos dispositivos móveis, prevê um aumento dos serviços baseados em vídeo que apresentam maiores requisitos de taxa de transmissão e restrições nos atrasos. Para enfrondar estes desafios, a tecnologia LTE surge como capaz de atender essa demanda sobre as redes móveis. No entanto, devido a natureza das redes celulares, os terminais que se encontram na borda da célula têm dificuldade para conseguir os níveis de SINR apropriados para aproveitar as taxas oferecidas pelo LTE. Para solucionar este problema, na evolução LTE-Advanced, e considerada a integração de nós de retransmissão (Relay Nodes) na arquitetura da rede. Neste trabalho, através de experimentos de simulação, avalia-se o desempenho de aplicações de vídeo em tempo real, focando-se nos usuários da borda da célula. Os resultados obtidos mostram as vantagens do uso de RN em redes LTE e sua contribuição na diminuição de perda de pacotes, aumento da vazão e por conseguinte melhoras na qualidade de vídeo recebido por aqueles usuários. / [en] The constant evolution and growth of the multimedia applications supported by today s mobile devices leads to an increase on the demand of video based services which impose some new requirements in terms of bitrate and delay. In order to face these challenges, LTE appears as a technology capable of dealing with the video trafic load on mobile networks. However, given the inherent nature of the mobile networks, and in order to take advantage of the bitrates that can be achieved with this technology, the devices located at the cell s edge face some dificulties when a certain SINR must be achieved. To overcome this issue, LTE Advanced comes into the picture as it makes use of Relay Nodes (RN) which were included as part of the network architecture. Based on simulations, the present work evaluates the performance of real time applications on devices located at the cell s edge. The results show the advantage of using Relay Nodes in LTE in aspects such as the reduction of lost packets and the increase of throughput, leading to an improvement of the video quality at the receiver s side.

[pt] AVALIACAO DE DESEMPENHO

[en] PERFORMANCE MEASUREMENT

[pt] SISTEMAS LTE

[en] LTE SYSTEMS

[pt] NOS RELAY

[pt] VIDEO EM TEMPO REAL

[pt] QOS

[pt] QOE

Algorithmes adaptatifs et efficaces de partage de ressources radio pour les communications de type MTC : cas de coexistence H2H/M2M / Adaptive and efficient radio resource sharing schemes for machine type communications underlying cellular networks

Hamdoun, Safa

27 June 2017

L'Internet des objets (IoT) fait référence à la croissance continue des réseaux d'objets du quotidien qui s'interconnectent entre eux ou avec d'autres systèmes Internet via les capteurs sans fil qui y sont attachés. L'IoT promet un futur où des milliards de terminaux intelligents seront connectés et gérés via une gamme de réseaux de communication et de serveurs basés dans le cloud, permettant ainsi l'apparition d'un large spectre d’applications de surveillance et de contrôle. Les communications machine-à-machine (M2M), également connues sous le nom de “Machine-Type-Communication” (MTC) par les réseaux cellulaires, constituent une technologie clé permettant d'activer partiellement l'IoT. Les communications M2M sont un nouveau paradigme qui facilite la connectivité omniprésente entre une myriade de dispositifs sans ou avec intervention humaine limitée. La demande croissante de connectivité a mis au défi les opérateurs de réseau à concevoir de nouveaux algorithmes d'allocation de ressources radio pour gérer l'échelle massive des communications MTC.Contrairement aux technologies d'accès radio traditionnelles, adaptées aux communications usuelles, dites de humain-à-humain (H2H), l'objectif de cette thèse est de développer de nouvelles techniques de partage de ressources radio efficaces et adaptatives pour les MTC dans un scénario de coexistence H2H/M2M. Dans le cadre de cette thèse, notre première contribution consiste en la proposition d'un système d'accès multiple adapté pour résoudre à la fois les problèmes liés à la rareté des ressources radio, à la scalabilité et à la surcharge de la station de base (BS). À cette fin, nous proposons de décomposer les opérations de communication en les groupant. Ainsi, les MTC correspondent à des communications locales en liaison montante entre des dispositifs connus sous le nom de “Machine-Type-Device” (MTD), et un cluster head appelé “Machine-Type- Head” (MTH). Nous examinons ainsi la nécessité d'agréger la technologie M2M et le “dispositif-à-dispositif” (D2D), considéré comme composante majeure des réseaux cellulaires évolutifs du futur. Nous modélisons le problème de partage de ressources radio entre les MTDs et les utilisateurs H2H sous la forme d’un graphe biparti et développons un algorithme de partage de ressources radio pour MTC basé sur les graphes afin d’atténuer les interférences co-canal et donc améliorer l'efficacité du réseau. En outre, une solution semi-distribuée de faible complexité est développée pour atténuer la surcharge de communication d'une solution centralisée que nous proposons également. Ensuite, dans une deuxième contribution de cette thèse, nous nous intéressons à examiner comment les dispositifs M2M peuvent partager les ressources radio disponibles sans pour autant dégrader les performances des applications H2H. Par conséquent, nous proposons un système de partage de ressources efficace en terme de spectre et de puissance. Nous introduisons à l'algorithme de partage de ressources radio basé sur les graphes une fonction adaptative de contrôle de puissance utilisant l'un des deux mécanismes suivants : un contrôleur proportionnel intégral dérivé (PID) et la logique floue. Enfin, comme troisième contribution de cette thèse, nous développons un système de partage de ressources radio efficace en terme de puissance et entièrement distribué pour les MTC. Nous utilisons la théorie des jeux et modélisons le problème de partage de ressources par un jeu hybride où les dispositifs M2M rivalisent pour les ressources radio et basculent de façon opportuniste entre un jeu non-coopératif et un jeu coopératif. Une évaluation des performances des solutions dérivées dans le contexte des réseaux LTE est menée. Les résultats des simulations montrent que les solutions proposées ont un impact significatif sur la maximisation de l'efficacité de l'utilisation du spectre, l'atténuation de l'effet négatif sur les services H2H et la prolongation de la durée de vie des batteries des MTDs / The Internet-of-Things (IoT) refers to the ever-growing network of everyday objects that interconnect to each other or to other Internet-enabled systems via wireless sensors attached to them. IoT envisions a future where billions of smart devices will be connected and managed through a range of communication networks and cloud-based servers, enabling a variety of monitoring and control applications. Machine-to-Machine (M2M) communications supported by cellular networks, also known as Machine-Type-Communications (MTC) acts as a key technology for partially enabling IoT. M2M communications is a new technology paradigm that facilitates the ubiquitous connectivity between a myriad of devices without requiring human intervention. The surge in the demand for connectivity has further challenged network operators to design novel radio resource allocation algorithms at affordable costs to handle the massive scale of MTC.Different from current radio access technologies tailored to traditional Human- to-Human (H2H) communications, the goal of this thesis is to provide novel efficient and adaptive radio resource sharing schemes for MTC under a H2H/M2M coexistence scenario. We first provide a suitable multiple access scheme to address the joint spectrum scarcity, scalability and Base Station (BS) overload issues. Toward this end, we design a group-based operation where MTC corresponds to local uplink communications between Machine-Type-Devices (MTDs), which represent a specific type of devices that do not rely on the presence of a human interface, and a Machine-Type-Head (MTH). This latter plays the role of a cluster head that relays the information to the BS. We thus address the need to aggregate M2M and Device-to-Device (D2D) technology, as one of the major components of the future evolving cellular networks. Having said that, we first propose in this thesis to model the radio resource sharing problem between MTDs and H2H users as a bipartite graph and develop a novel interference-aware graph-based radio resource sharing algorithm for MTC so as to mitigate the co-channel interference and thus enhance network efficiency. Moreover, low-complexity semi-distributed solution is investigated to alleviate the communication overhead of a centralized solution that we propose as well. Then, as a second contribution, we examine how M2M devices can share the available radio resources in cellular networks with no or limited impact on existing H2H services. Consequently, we propose a joint spectrally and power efficient radio resource sharing scheme. Convinced by the strength of the bipartite graph modeling for the resource sharing problem between H2H users and M2M devices, we empower the graph-based radio resource sharing algorithm with a novel adaptive power control feature using one of two following mechanisms: the Proportional Integral Derivative (PID) controller and the fuzzy logic. Finally, in our third contribution of this thesis, we develop a power efficient and fully-distributed radio resource sharing framework for MTC underlying cellular networks. We use game theory and model the resource sharing problem as an efficient hybrid-game where M2M devices compete for radio resources and switch opportunistically, as M2M devices are selfish in nature, between non-cooperative and cooperative games. The different derived solutions are extended to existing cellular networks, and extensive simulation studies in the context of LTE are conducted. The various simulation results show that the proposed solutions can significantly increase the efficiency of the spectrum usage, mitigate the negative effect on H2H services and save the battery life of M2M devices

Communications M2M

Technologie D2D

Partage de ressources

Théorie des jeux

Théorie des graphes

Lte-A

M2M communications

D2D technology

Resource sharing

Game theory

Graph theory

Lte-A