Tamer Nadeem scite author profile

Recent advances in wireless inter-vehicle communication systems enable the establishment of Vehicular Ad-hoc Networks (VANET) and create significant opportunities for the deployment of a wide variety of applications and services to vehicles. In this work, we investigate the problem of developing services that can provide car drivers with time-sensitive information about traffic conditions and roadside facilities. We introduce the Vehicular Information Transfer Protocol (VITP), a locationaware, application-layer, communication protocol designed to support a distributed service infrastructure over Vehicular Adhoc Networks. We describe the key design concepts of the VITP protocol and infrastructure. We provide an extensive simulation study of VITP performance on large-scale vehicular networks under realistic highway and city traffic conditions. Our results demonstrate the viability and effectiveness of VITP in providing location-aware services over VANETs.

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Trafficview: a scalable traffic monitoring system

Nadeem

Dashtinezhad

Liao

et al.

100

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Vehicles are part of people's life in modern society, into which more and more high-tech devices are integrated, and a common platform for inter-vehicle communication is necessary to realize an intelligent transportation system supporting safe driving, dynamic route scheduling, emergency message dissemination, and traffic condition monitoring. TrafficView, which is a part of the e-Road project, defines a framework to disseminate and gather information about the vehicles on the road. Using such a system will provide a vehicle driver with road traffic information, which helps driving in situations as foggy weather, or finding an optimal route in a trip several miles long. This paper describes the basic design of TrafficView and different algorithms used in the system. * This work is supported in part by National Science Foundation under NSF ANI-0121416 cles or fixed stations to other vehicles, with small delay and low bandwidth cost. The dissemination system could be used in sending messages about traffic condition monitoring, road condition, accident report, roadside e-advertisements, etc.

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A Comparative Study of Data Dissemination Models for VANETs

2006

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CARS: Context-Aware Rate Selection for vehicular networks

Shankar

Nadeem

Rosca

et al. 2008

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Abstract-Traffic querying, road sensing and mobile content delivery are emerging application domains for vehicular networks whose performance depends on the throughput these networks can sustain. Rate adaptation is one of the key mechanisms at the link layer that determine this performance. Rate adaptation in vehicular networks faces the following key challenges: (1) due to the rapid variations of the link quality caused by fading and mobility at vehicular speeds, the transmission rate must adapt fast in order to be effective, (2) during infrequent and bursty transmission, the rate adaptation scheme must be able to estimate the link quality with few or no packets transmitted in the estimation window, (3) the rate adaptation scheme must distinguish losses due to environment from those due to hiddenstation induced collision. Our extensive outdoor experiments show that the existing rate adaptation schemes for 802.11 wireless networks underutilize the link capacity in vehicular environments. In this paper, we design, implement and evaluate CARS, a novel Context-Aware Rate Selection algorithm that makes use of context information (e.g. vehicle speed and distance from neighbor) to systematically address the above challenges, while maximizing the link throughput. Our experimental evaluation in real outdoor vehicular environments with different mobility scenarios shows that CARS adapts to changing link conditions at high vehicular speeds faster than existing rate-adaptation algorithms. Our scheme achieves significantly higher throughput, up to 79%, in all the tested scenarios, and is robust to packet loss due to collisions, improving the throughput by up to 256% in the presence of hidden stations.

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Context-Aware Migratory Services in Ad Hoc Networks

Riva

Nadeem

Borcea

et al. 2007

IEEE Trans. on Mobile Comput.

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Tamer Nadeem

Location-Aware Services over Vehicular Ad-Hoc Networks using Car-to-Car Communication

Trafficview: a scalable traffic monitoring system

A Comparative Study of Data Dissemination Models for VANETs

CARS: Context-Aware Rate Selection for vehicular networks

Context-Aware Migratory Services in Ad Hoc Networks

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