DocumentCode
2177195
Title
Optimized Transmission of Loss Tolerant Information Streams for Real-Time Vehicle-to-Vehicle Communications
Author
Bucciol, Paolo ; Zechinelli-Martini, José Luis ; Vargas-Solar, Genoveva
Author_Institution
IEIIT, Italian Nat. Res. Council, Torino, Italy
fYear
2009
fDate
21-25 Sept. 2009
Firstpage
142
Lastpage
145
Abstract
This paper addresses the real-time transmission optimization of loss tolerant information streams over Vehicular Ad Hoc Networks. The proposed FEC and Interleaving Real Time Optimization (FIRO) technique dynamically adapts the two well-known error resilience techniques to the actual channel conditions, according to the stream constraints in terms of maximum allowed packet loss rate and tolerated delay. To increase the quality of the communication, FIRO implements a dynamic feedback mechanism based on periodic RTCP Receiver Reports. Frequency of reports is dynamically adapted based on the accuracy of the estimates. The FEC and Interleaving parameters are updated based on both short- and long-term channel estimates. To evaluate the performance of FIRO in a realistic environment, in this paper the proposed technique is applied to real time vehicle-to-vehicle video streaming. However, FIRO can also be implemented in other scenarios where a loss tolerant information flow is streamed over a lossy channel with real time constraints. Results show that FIRO consistently improves the performance of the received video stream at both network and application layers, thanks to the joint effect of FEC, Interleaving, dynamic parameter update and dynamic update of the inter-arrival frequency of the receiver reports. As a side benefit of the packet-level design, FIRO can be implemented on Off-The-Shelf IEEE 802.11 devices.
Keywords
channel estimation; interleaved codes; mobile computing; optimisation; video streaming; wireless channels; interleaving real time optimization; loss tolerant information streams; optimized transmission; real time vehicle-to-vehicle video streaming; real-time transmission optimization; real-time vehicle-to-vehicle communications; vehicular ad hoc networks; Ad hoc networks; Constraint optimization; Delay effects; Forward error correction; Frequency estimation; Interleaved codes; Propagation losses; Resilience; Streaming media; Vehicle dynamics; Error Resilience; FEC; IEEE 802.11; Interleaving; Real Time; VANET; Wireless communications;
fLanguage
English
Publisher
ieee
Conference_Titel
Computer Science (ENC), 2009 Mexican International Conference on
Conference_Location
Mexico City
Print_ISBN
978-1-4244-5258-3
Type
conf
DOI
10.1109/ENC.2009.26
Filename
5452544
Link To Document