101 research outputs found
An Open-Source Microscopic Traffic Simulator
We present the interactive Java-based open-source traffic simulator available
at www.traffic-simulation.de. In contrast to most closed-source commercial
simulators, the focus is on investigating fundamental issues of traffic
dynamics rather than simulating specific road networks. This includes testing
theories for the spatiotemporal evolution of traffic jams, comparing and
testing different microscopic traffic models, modeling the effects of driving
styles and traffic rules on the efficiency and stability of traffic flow, and
investigating novel ITS technologies such as adaptive cruise control,
inter-vehicle and vehicle-infrastructure communication
Connectivity Analysis of Directed Highway VANETs using Graph Theory
Graph theory is a promising approach in handling the problem of estimating
the connectivity probability of vehicular ad-hoc networks (VANETs). With a
communication network represented as graph, graph connectivity indicators
become valid for connectivity analysis of communication networks as well. In
this article, we discuss two different graph-based methods for VANETs
connectivity analysis showing that they capture the same behavior as estimated
using probabilistic models. The study is, then, extended to include the case of
directed VANETs, resulting from the utilization of different communication
ranges by different vehicles. Overall, the graph-based methods prove a robust
performance, as they can be simply diversified into scenarios that are too
complex to acquire a rigid probabilistic model for them.Comment: 21 pages, 6 figure
Automatic and efficient driving strategies while approaching a traffic light
Vehicle-infrastructure communication opens up new ways to improve traffic
flow efficiency at signalized intersections. In this study, we assume that
equipped vehicles can obtain information about switching times of relevant
traffic lights in advance. This information is used to improve traffic flow by
the strategies 'early braking', 'anticipative start', and 'flying start'. The
strategies can be implemented in driver-information mode, or in automatic mode
by an Adaptive Cruise Controller (ACC). Quality criteria include cycle-averaged
capacity, driving comfort, fuel consumption, travel time, and the number of
stops. By means of simulation, we investigate the isolated strategies and the
complex interactions between the strategies and between equipped and
non-equipped vehicles. As universal approach to assess equipment level effects
we propose relative performance indexes and found, at a maximum speed of 50
km/h, improvements of about 15% for the number of stops and about 4% for the
other criteria. All figures double when increasing the maximum speed to 70
km/h.Comment: Submitted to ITSC - 17th International IEEE Conference on Intelligent
Transportation System
Towards a network management solution for vehicular delay-tolerant networks
Vehicular networks appeared as a new communication solution where vehicles act as a communication infrastructure, providing data communications through vehicle-to-vehicle (V2V) or vehicle-to-infrastructure (V2I) communications. Vehicular Delay-Tolerant Networks (VDTNs) are a new disruptive network architecture assuming delay tolerant networking paradigm where there are no end-to-end connectivity. In this case the incial node transmits the data to a closed node, the data will be carried by vehicles, hop to hop until the destination.
This dissertation focuses on a proposal of a network management solution, based standard protocol Simple Network Management Protocol (SNMP) to VDTN networks. The developed solution allows control a VDTN netowork through a Network Management System (NMS) with the objective to detect and, if it’s possible, anticipate, possible errors on network.
The research methodology used was the prototyping. So, it was built a network management module to the laboratorial prototype, called VDTN@Lab. The system built include a MIB (Management Information Base) placed in all vehicular network nodes. The solution was built, demonstrated, validated and evaluated their performance, being ready for use.As redes veiculares foram desenhadas para permitir que os veículos possam
transportar dados criando assim um novo tipo de redes, caracterizando-se por dois tipos de
comunicação: comunicações veículo-para-veículo (V2V) ou comunicações veículo-parainfra-estrutura (V2I). Redes veiculares intermitentes (do Inglês Vehicular Delay-Tolerant
Networks - VDTNs) surgiram como uma nova arquitectura de rede de dados onde os
veículos são utilizados como infra-estruturas de comunicação. As VDTNs caracterizam-se
por serem redes veiculares baseadas no paradigma de comunicações intermitentes. Nas
redes VDTN não existe uma ligação permanente extremo a extremo entre o emissor e o
receptor. Neste caso, o nó inicial transmite os dados para um nó que esteja junto dele e
assim sucessivamente, os dados vão sendo transportados pelos veículos, salto a salto até
ao destinatário final.
Esta dissertação centra-se na proposta de uma solução de gestão de rede, baseada
no protocolo estandardizado Simple Network Management Protocol (SNMP) para redes
VDTN. A solução construída permite controlar uma rede VDTN através de um sistema de
gestão de rede (do Inglês Network Management System - NMS) com o objectivo de
detectar e, se possível antecipar, possíveis erros na rede.
A metodologia de investigação utilizada foi a prototipagem. Assim, foi construído
um módulo de gestão de redes para o protótipo laboratorial, chamado VDTN@Lab. O
sistema construído inclui uma MIB (Management Information Base) que é colocada em
todos os nós de uma rede veicular, tanto fixos como móveis. A solução foi construída,
demonstrada, validade e avaliado o seu desempenho, estando assim pronta para ser
utilizada
Reliable and efficient data dissemination schemein VANET: a review
Vehicular ad-hoc network (VANET), identified as a mobile ad hoc network MANETs with several added constraints. Basically, in VANETs, the network is established on the fly based on the availability of vehicles on roads and supporting infrastructures along the roads, such as base stations. Vehicles and road-side infrastructures are required to provide communication facilities, particularly when enough vehicles are not available on the roads for effective communication. VANETs are crucial for providing a wide range of safety and non-safety applications to road users. However, the specific fundamental problem in VANET is the challenge of creating effective communication between two fast-moving vehicles. Therefore, message routing is an issue for many safety and non-safety of VANETs applications. The challenge in designing a robust but reliable message dissemination technique is primarily due to the stringent QoS requirements of the VANETs safety applications. This paper investigated various methods and conducted literature on an idea to develop a model for efficient and reliable message dissemination routing techniques in VANET
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