75 research outputs found
A New Media Access Control Protocol For VANET: Priority R-ALOHA (PR-ALOHA)
More practical applications of Media Access Control (MAC) protocols arise as the world turns increasingly wireless. Low delay, high throughput and reliable communication are essential requirements for standard performance in safety applications (e.g., lane changes warning, pre-crash warning and electronic brake lights). In particular, multi-priority protocols are important in Vehicular Ad Hoc Networks (VANETs), specifically in Inter-Vehicle Communication (IVC) where safety messages are given higher priority and transmitted faster than normal messages. The R-ALOHA protocol is considered one of the few promising protocols for VANETs because it is simple to implement and suitable for medium access control in Ad Hoc wireless networks. However, R-ALOHA lacks the property of prioritizing the different messages. In this dissertation, a new two-level priority MAC protocol called Priority R-ALOHA (PR-ALOHA) is presented to overcome the lack of priority problem in R-ALOHA. The two levels are low priority and high priority where priority is introduced by reserving specific time slots in the frame exclusively for high priority messages. This effectively increases the number of slots that a high priority message may compete for and thus decreases its delay. A two-dimensional Markov model coupled with Monte Carlo simulation is introduced to investigate the dynamic behavior of PR-ALOHA in steady and transient states. Modeling and simulation results of PR-ALOHA show that PR-ALOHA improves the performance of high priority traffic with limited effect on normal network traffic. Then, a dynamic slot allocation algorithm is introduced to PR-ALOH to optimize slot usage. Finally, a mobility model is introduced to emulate the behavior of the vehicles on the road where the performance of the PR-ALOHA with variable parameters, such as the length of the highway, the vehicle transmission range and the number of vehicles on the road have been investigated. Based on the findings of this dissertation, PR-ALOHA combined with dynamic slot allocation and mobility has a potential in applications like IVC where it can prevent car accidents through faster channel access and rapid transfer of warning messages to surrounding vehicles
Radio Communications
In the last decades the restless evolution of information and communication technologies (ICT) brought to a deep transformation of our habits. The growth of the Internet and the advances in hardware and software implementations modified our way to communicate and to share information. In this book, an overview of the major issues faced today by researchers in the field of radio communications is given through 35 high quality chapters written by specialists working in universities and research centers all over the world. Various aspects will be deeply discussed: channel modeling, beamforming, multiple antennas, cooperative networks, opportunistic scheduling, advanced admission control, handover management, systems performance assessment, routing issues in mobility conditions, localization, web security. Advanced techniques for the radio resource management will be discussed both in single and multiple radio technologies; either in infrastructure, mesh or ad hoc networks
Real-time wireless networks for industrial control systems
The next generation of industrial systems (Industry 4.0) will dramatically transform manyproductive sectors, integrating emerging concepts such as Internet of Things, artificialintelligence, big data, cloud robotics and virtual reality, to name a few. Most of thesetechnologies heavily rely on the availability of communication networks able to offernearly–istantaneous, secure and reliable data transfer. In the industrial sector, these
tasks are nowadays mainly accomplished by wired networks, that combine the speed ofoptical fiber media with collision–free switching technology.
However, driven by the pervasive deployment of mobile devices for personal com-munications in the last years, more and more industrial applications require wireless connectivity, which can bring enormous advantages in terms of cost reduction and flex-ibility. Designing timely, reliable and deterministic industrial wireless networks is a complicated task, due to the nature of the wireless channel, intrinsically error–prone andshared among all the devices transmitting on the same frequency band.
In this thesis, several solutions to enhance the performance of wireless networks employed in industrial control applications are proposed. The presented approaches differ in terms of achieved performance and target applications, but they are all characterized by an improvement over existing industrial wireless solutions in terms of timeliness, reliability and determinism. When possible, an experimental validation of the designed
solutions is provided.
The obtained results prove that significant performance improvements are already possible, often using commercially available devices and preserving compliance to existing standards. Future research efforts, combined with the availability of new chipsets and
standards, could lead to a world where wireless links effectively replace most of the existing cables in industrial environments, as it is already the case in the consumer market
Proceedings of the Third International Mobile Satellite Conference (IMSC 1993)
Satellite-based mobile communications systems provide voice and data communications to users over a vast geographic area. The users may communicate via mobile or hand-held terminals, which may also provide access to terrestrial cellular communications services. While the first and second International Mobile Satellite Conferences (IMSC) mostly concentrated on technical advances, this Third IMSC also focuses on the increasing worldwide commercial activities in Mobile Satellite Services. Because of the large service areas provided by such systems, it is important to consider political and regulatory issues in addition to technical and user requirements issues. Topics covered include: the direct broadcast of audio programming from satellites; spacecraft technology; regulatory and policy considerations; advanced system concepts and analysis; propagation; and user requirements and applications
Improving aggregate user utilities and providing fairness in multi-rate wireless LANs
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Electrical Engineering and Computer Science, 2006.Includes bibliographical references (p. 159-166).A distributed medium access control (MAC) protocol is responsible for allocating the shared spectrum efficiently and fairly among competing devices using a wireless local area network. Unfortunately, existing MAC protocols, including 802.11's DCF, achieve neither efficiency nor fairness under many realistic conditions. In this dissertation, we show that both bit and frame-based fairness,the most widely used notions, lead to drastically reduced aggregate throughput and increased average delay in typical environments, in which competing nodes transmit at different data transmission rates. We demonstrate the advantages of time-based fairness, in which each competing node receives an equal share of the wireless channel occupancy time. Through analysis, experiments on a Linux test bed, and simulation, we demonstrate that time-based fairness can lead to significant improvements in aggregate throughput and average delay. Through a game theoretic analysis and simulation, we also show that existing MAC protocols encourage non-cooperative nodes to employ globally inefficient transmission strategies that lead to low aggregate throughput. We show that providing long-term time share guarantees among competing nodes leads rational nodes to employ efficient transmission strategies at equilibriums.(cont.) We describe two novel solutions, TES (Time-fair Efficient and Scalable MAC protocol) and TBR (Time-based Regulator) that provide time-based fairness and long-term time share guarantees among competing nodes. TBR is a backward-compatible centralized solution that runs at the AP,works in conjunction with DCF, and requires no modifications to clients nor to DCF. TBR is appropriate for existing access point based networks, but not effective when nearby non-cooperative nodes fall under different administrative domains. Our evaluation of TBR on an 802.1lb/Linux test bed shows that TBR can improve aggregate TCP throughput by as much as 105% in rate diverse environments. TES is a non-backward compatible distributed contention-based MAC protocol that is effective in any environment, including non-cooperative environments. Furthermore, the aggregate throughputs sustained with increased loads. Through extensive simulation experiments, we demonstrate that TES is significantly more efficient(as much as 140% improvement in aggregate TCP throughput) and fairer than existing MAC protocols including DCF.by Godfrey Tan.Ph.D
Advanced Trends in Wireless Communications
Physical limitations on wireless communication channels impose huge challenges to reliable communication. Bandwidth limitations, propagation loss, noise and interference make the wireless channel a narrow pipe that does not readily accommodate rapid flow of data. Thus, researches aim to design systems that are suitable to operate in such channels, in order to have high performance quality of service. Also, the mobility of the communication systems requires further investigations to reduce the complexity and the power consumption of the receiver. This book aims to provide highlights of the current research in the field of wireless communications. The subjects discussed are very valuable to communication researchers rather than researchers in the wireless related areas. The book chapters cover a wide range of wireless communication topics
Comunicações sem fios confiáveis para aplicações veiculares
Doutoramento em Engenharia ElectrotécnicaIn the last decades the number of vehicles travelling in European road has
raised significantly. Unfortunately, this brought a very high number of road
accidents and consequently various injuries and fatalities. Even after the
introduction of passive safety systems, such as seat belts, airbags, and some
active safety systems, such as electronic brake system (ABS) and electronic
stabilization (ESP), the number of accidents is still too high. Approximately
eight per cent of the fatal accidents occur in motorways, in the Portuguese
case, the number of fatalities has remained constant in the first decade of the
21st century.
The evolution of wireless communications, along with the north-American and
European policies that reserve spectrum near the 5,9GHz band for safety
applications in the vehicular environment, has lead to the development of
several standards. Many of these applications are based on the possibility of
using a wireless communication system to warn drivers and passengers of
events occurring on the road that can put at risk their own safety. Some
examples of safety applications are the hard-brake warning, the wrong-way
warning and the accident warning.
This work aims to contribute in defining a communication protocol that
guarantees the timely dissemination of safety critical events, occurring in
scenarios with a high number of vehicles or in the neighbourhood of so called
motorway “blackspots”, to all vehicles in the zone of interest.
To ensure information integrity and user trust, the proposed system is based on
the motorway infrastructure, which will validate all events reported by the
vehicles with the usage of several means, such as video surveillance or other
sensors. The usage of motorway infrastructure that has full motorway coverage
using fixed stations also known as road side units, allows to have a global
vision of the interest zone, avoiding the problems associated to networks that
depend solely on vehicle to vehicle communication, generally total ad-hoc
networks. By using the infrastructure, it is possible to control medium access,
avoiding possible badly intended intrusions and also avoiding the phenomenon
known as alarm showers or broadcast storm that occur when all vehicles want
to simultaneously access the medium to warn others of a safety event.
The thesis presented in this document is that it is possible to guarantee in time
information about safety events, using an architecture where the road side units
are coordinated among themselves, and communicate with on board units (in
vehicles) that dynamically register and deregister from the system. An exhaustive and systematic state of the art of safety applications and related
research projects is done, followed by a study on the available wireless
communications standards that are able to support them. The set of standards
IEEE802.11p and ETSI-G5 was created for this purpose and is found to be the
more adequate, but care is taken to define a scenario where WAVE enabled
and non-enabled vehicles can coexist. The WAVE medium access control
protocol suffers from collision problems that do not guarantee a bounded delay,
therefore a new protocol (V-FTT) is proposed, based on the adaptation of the
Flexible Time Triggered protocol to the vehicular field. A theoretical analysis of
the V-FTT applied to WAVE and ETSI-G5 is done, including quantifying a real
scenario based on the A5 motorway from Lisbon to Cascais, one of the busiest
Portuguese motorways. We conclude the V-FTT protocol is feasible and
guarantees a bounded delay.Nas últimas décadas tem-se assistido a um aumento do número de veículos a
circular nas vias rodoviárias europeias, trazendo consigo um elevado número
de acidentes e como consequência muitos feridos e vítimas mortais. Apesar da
introdução de sistemas de segurança passivos, tais como cintos de segurança,
airbags e de alguns sistemas de segurança activos, tais como o sistema
electrónico de travagem (ABS) e o sistema electrónico de estabilidade (ESP), o
número de acidentes continua a ser demasiado elevado. Aproximadamente
oito por cento dos acidentes fatais na Europa ocorrem em auto-estradas, no
caso Português, o número de vítimas mortais tem-se mantido constante ao
longo da primeira década do século XXI.
A evolução das comunicações sem fios, acompanhada de políticas europeias
e norte-americanas no sentido de reservar frequências próximas dos 5,9GHz
para aplicações de segurança no ambiente veicular, levou à especificação de
várias normas. A maior parte destas aplicações baseiam-se na possibilidade
de usar um sistema confiável de comunicação sem fios para alertar os
condutores e passageiros de veículos para eventos ocorridos nas estradas que
possam colocar em risco a sua segurança. Exemplos de aplicações de
segurança crítica são o aviso de travagem brusca, o aviso de veículo em
contra mão e o aviso de acidente na estrada.
Este trabalho contribui para a definição de protocolos de comunicação capazes
de garantir que a informação sobre eventos relacionados com situações de
segurança crítica, que ocorram em cenários com um elevado número de
veículos em zonas urbanas ou na vizinhança dos chamados “pontos negros”
das auto-estradas, é disseminada com pontualidade por todos os veículos
localizados na zona de interesse Por uma questão da integridade das
comunicações e confiança dos condutores, o sistema proposto baseia-se na
infra-estrutura do concessionário da auto-estrada, que validará os eventos
reportados pelos veículos usando vários meios à sua disposição, como por
exemplo sistemas de videovigilância e outros sensores.
O uso de uma infra-estrutura de comunicações, que dispõe de cobertura
integral a partir de estações fixas, permite uma visão global da zona coberta,
evitando os problemas associados a redes baseadas apenas na comunicação
entre veículos, que são em geral totalmente ad-hoc. O uso da infra-estrutura
permite, entre outras vantagens, controlar o acesso ao meio, evitando
simultaneamente intrusões de estranhos ao sistema e o fenómeno conhecido
como “chuva de alarmes” desencadeado quando todos os veículos querem
aceder simultaneamente ao meio para avisar os restantes da existência dum
evento de segurança crítica. A tese apresentada neste documento defende que é possível garantir
informação atempada sobre eventos que põem em risco a segurança dos
veículos a partir de uma arquitectura de interligação entre as estações de
comunicações fixas, coordenadas entre si, e unidades móveis (veículos) que
se registam e se desligam dinamicamente do sistema.
Nesta tese faz-se um levantamento exaustivo e sistemático das aplicações de
segurança abordando projectos de investigação relacionados, estudam-se as
tecnologias de comunicação sem fios disponíveis e a sua possibilidade de
suportar aplicações de segurança rodoviária. Desta análise, conclui-se que a
norma norte americana WAVE/IEEE802.11p e a europeia ETSI-G5, criadas
especificamente para o efeito são as que mais se adequam à finalidade
desejada.
Considera-se que o cenário de utilização é evolutivo, podendo coexistirem
veículos que não dispõem de sistemas de comunicação com outros que
suportam a norma WAVE. Dado que o protocolo de acesso ao meio proposto
pela norma WAVE não garante um acesso determinístico ao meio partilhado,
propõe-se um novo protocolo, o Vehicular Flexible Time-Triggered protocol (VFTT).
Faz-se a análise teórica da viabilidade do protocolo proposto para a norma
WAVE e respectiva norma europeia (ETSI-G5). Quantifica-se o protocolo VFTT
para um cenário real: a auto-estrada A5 Lisboa-Cascais, uma das autoestradas
portuguesas mais movimentadas. Conclui-se que o protocolo é viável
e garante um atraso restringido temporalmente
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ReSCon '12, Research Student Conference: Book of Abstracts
The fifth SED Research Student Conference (ReSCon2012) was hosted over three days, 18-20 June 2012, in the Hamilton Centre at Brunel University. The conference consisted of 130 oral and 70 poster presentations, based on the high quality and diverse research being conducted within the School of Engineering and Design by postgraduate research students. The conference is held annually, and ReSCon plays a key role in contributing to research and innovations within the School
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