254 research outputs found
Secure Vehicular Communication Systems: Implementation, Performance, and Research Challenges
Vehicular Communication (VC) systems are on the verge of practical
deployment. Nonetheless, their security and privacy protection is one of the
problems that have been addressed only recently. In order to show the
feasibility of secure VC, certain implementations are required. In [1] we
discuss the design of a VC security system that has emerged as a result of the
European SeVeCom project. In this second paper, we discuss various issues
related to the implementation and deployment aspects of secure VC systems.
Moreover, we provide an outlook on open security research issues that will
arise as VC systems develop from today's simple prototypes to full-fledged
systems
A Study of Geocast Routing Protocols in Vehicular Ad-Hoc Network (VANET)
Geocast routing has been comprehensively investigated for consistent and well-organized spreading of information due to growing number of Intelligent Transportation System (ITS) applications favouring geocasting. Freshly, different geocast routing protocol have been developed in vehicular ad-hoc network (VANET). In this paper, a qualitative survey of recent geocast routing protocols and some specific future research issues in geocast routing have been provided. A practical and qualitative explanation of each considered protocols have been presented. All the considered protocols have been relatively characterized. This relative study leads us towards some future research challenges in geocast routing.
DOI: 10.17762/ijritcc2321-8169.150519
Comparison among Different Routing Protocols of Vehicular Ad Hoc Networks
To improve highway transport security VANET Vehicular Ad Hoc Network is used which is a developing technology incorporating ad hoc network cellular technology and wireless LAN VANETs are different from other type ad hoc networks by their cross network constructions node association features and new application setups The approach of an effective routing protocol for VANETs is vital as VANETs show various distinctive networking research challenges In this paper we discuss the research challenges of routing in VANETs and compare recent routing protocols of VANET
Supporting Protocols for Structuring and Intelligent Information Dissemination in Vehicular Ad Hoc Networks
The goal of this dissertation is the presentation of supporting protocols for structuring and intelligent data dissemination in vehicular ad hoc networks (VANETs). The protocols are intended to first introduce a structure in VANETs, and thus promote the spatial reuse of network resources. Segmenting a flat VANET in multiple cluster structures allows for more efficient use of the available bandwidth, which can effectively increase the capacity of the network. The cluster structures can also improve the scalability of the underlying communication protocols. The structuring and maintenance of the network introduces additional overhead. The aim is to provide a mechanism for creating stable cluster structures in VANETs, and to minimize this associated overhead. Further a hybrid overlay-based geocast protocol for VANETs is presented. The protocol utilizes a backbone overlay virtual infrastructure on top of the physical network to provide geocast support, which is crucial for intervehicle communications since many applications provide group-oriented and location-oriented services. The final contribution is a structureless information dissemination scheme which creates a layered view of road conditions with a diminishing resolution as the viewing distance increases. Namely, the scheme first provides a high-detail local view of a given vehicle\u27s neighbors and its immediate neighbors, which is further extended when information dissemination is employed. Each vehicle gets aggregated information for road conditions beyond this extended local view. The scheme allows for the preservation of unique reports within aggregated frames, such that safety critical notifications are kept in high detail, all for the benefit of the driver\u27s improved decision making during emergency scenarios
Vehicular Ad Hoc Networks: Growth and Survey for Three Layers
A vehicular ad hoc network (VANET) is a mobile ad hoc network that allows wireless communication between vehicles, as well as between vehicles and roadside equipment. Communication between vehicles promotes safety and reliability, and can be a source of entertainment. We investigated the historical development, characteristics, and application fields of VANET and briefly introduced them in this study. Advantages and disadvantages were discussed based on our analysis and comparison of various classes of MAC and routing protocols applied to VANET. Ideas and breakthrough directions for inter-vehicle communication designs were proposed based on the characteristics of VANET. This article also illustrates physical, MAC, and network layer in details which represent the three layers of VANET. The main works of the active research institute on VANET were introduced to help researchers track related advanced research achievements on the subject
Communication technologies to design vehicle-to-vehicle and vehile-to-infrastructures applications
Intelligent Transport Systems use
communication technologies to offer real-time traffic
information services to road users and government
managers. Vehicular Ad Hoc Networks is an important
component of ITS where vehicles communicate
with other vehicles and road-side infrastructures,
analyze and process received information, and
make decisions according to that.
However, features like high vehicle speeds, constant
mobility, varying topology, traffic density, etc.
induce challenges that make conventional wireless
technologies unsuitable for vehicular networks. This
paper focuses on the process of designing efficient
vehicle-to-vehicle and vehicle-to road-side infrastructure
applications.Peer ReviewedPostprint (published version
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Inter Vehicle Distance based connectivity aware routing in vehicular adhoc networks
Connectivity in vehicular traffic environment has witnessed significant attention due to the direct impact on the performance of most of the traffic safety applications of intelligent transport system. Various parameters such as density, speed, direction, link quality and inter vehicle distance (IVD) have been utilized for measuring connectivity. IVD has greater impact on connectivity and controls the impact of other parameters. Usage of real time IVD for measuring connectivity has not received sufficient attention in VANETs. This paper proposes IVD based connectivity aware routing (Ivd-CAR) for enhancing connectivity aware data dissemination. IVD calculation is robust and can effectively handle instantaneous GPS failure. Two localization techniques; namely, cooperative localization and Geometry based Localization are developed. Standard deviation of real time IVDs of a forwarding path is derived. Distribution of IVDs of a forwarding path is employed for estimating connectivity. Segment vehicle based next hop vehicle selection is utilized for incorporating network load, link quality and direction into consideration while selecting forwarding path. Simulations are carried out in ns2 to evaluate the performance of Ivd-CAR in realistic traffic environment. Comparative analysis of simulation results attests the superiority of Ivd-CAR to the state-of-the-art techniques: CSR and A-CAR
Privacy-preserving Cooperative Services for Smart Traffic
Communication technology and the increasing intelligence of things enable new qualities of cooperation. However, it is often unclear how complex functionality can be realized in a reliable and abuse-resistant manner without harming users\u27 privacy in the face of strong adversaries. This thesis focuses on three functional building blocks that are especially challenging in this respect: cooperative planning, geographic addressing and the decentralized provision of pseudonymous identifiers
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