Enhancement the video quality forwarding Using Receiver-Based Approach(URBA) in Vehicular Ad-Hoc Network

In Vehicular Ad-hoc Networks (VANETs), data routing is a major problem because of its quick change in topology and vehicular high mobility. VANETs are ad hoc wireless mobile networks which play important role in commercial applications and safety of public vehicular communications. The routing protocols that base on vehicular position are attracting much interest because of the availability and advancement of devices equipped with GPS. A major problem with VANETs is the frequent disruptions in the path of vehicles due to the high mobility of the participating vehicles. This can lead to the breaking of established links and result in low throughput, delay in service delivery, less overhead as well as low rate of delivery. In this paper, Using Receiver-Based Approach (URBA) is proposed. The proposed approach (URBA) compared to VANET, incorporates a potential receiver-based strategy which is traditionally better in performance and might achieve less delay in service delivery with a higher rate of delivery.

[1]  Jaehoon Jeong,et al.  TSF: Trajectory-Based Statistical Forwarding for Infrastructure-to-Vehicle Data Delivery in Vehicular Networks , 2010, 2010 IEEE 30th International Conference on Distributed Computing Systems.

[2]  Sherali Zeadally,et al.  Vehicular ad hoc networks (VANETS): status, results, and challenges , 2010, Telecommunication Systems.

[3]  Panagiotis Papadimitratos,et al.  Vehicular communication systems: Enabling technologies, applications, and future outlook on intelligent transportation , 2009, IEEE Communications Magazine.

[4]  Giovanni Pau,et al.  First Responders' Crystal Ball: How to Scry the Emergency from a Remote Vehicle , 2007, 2007 IEEE International Performance, Computing, and Communications Conference.

[5]  Wei Yan,et al.  MI-VANET: A New Mobile Infrastructure Based VANET Architecture for Urban Environment , 2010, 2010 IEEE 72nd Vehicular Technology Conference - Fall.

[6]  Jaehoon Jeong,et al.  Utilizing shared vehicle trajectories for data forwarding in vehicular networks , 2011, 2011 Proceedings IEEE INFOCOM.

[7]  Wei Kuang Lai,et al.  Bus Assisted Connectionless Routing Protocol for Metropolitan VANET , 2011, 2011 Fifth International Conference on Genetic and Evolutionary Computing.

[8]  Cristina Hava Muntean,et al.  Performance analysis of real-time multimedia transmission in 802.11p based multihop hybrid vehicular networks , 2010, IWCMC.

[9]  Prasan Kumar Sahoo,et al.  SVANET: A Smart Vehicular Ad Hoc Network for Efficient Data Transmission with Wireless Sensors , 2014, Sensors.

[10]  Hannes Hartenstein,et al.  A tutorial survey on vehicular ad hoc networks , 2008, IEEE Communications Magazine.

[11]  Mohamed Ould-Khaoua,et al.  An adaptive relay nodes selection scheme for multi-hop broadcast in VANETs , 2016, Comput. Commun..

[12]  Gang Su,et al.  Hybrid LTE-VANETs Based Optimal Radio Access Selection , 2017 .

[13]  Cheng-Fu Chou,et al.  Efficient VANET Unicast Routing Using Historical and Real-Time Traffic Information , 2011, 2011 IEEE 17th International Conference on Parallel and Distributed Systems.

[14]  Jiafu Wan,et al.  A survey on position-based routing for vehicular ad hoc networks , 2015, Telecommunication Systems.

[15]  Anis Laouiti,et al.  Vehicle Ad Hoc networks: applications and related technical issues , 2008, IEEE Communications Surveys & Tutorials.