Void traversal for guaranteed delivery in geometric routing

Author

Nesterenko, Mikhail ; Vora, Adnan

Author_Institution

Dept. of Comput. Sci., Kent State Univ., OH

fYear

2005

fDate

7-7 Nov. 2005

Lastpage

715

Abstract

Geometric routing algorithms like GFG (GPSR) are lightweight, scalable algorithms that can be used to route in resource-constrained ad hoc wireless networks. However, such algorithms run on planar graphs only. To efficiently construct a planar graph, they require a unit-disk graph. To make the topology unit-disk, the maximum link length in the network has to be selected conservatively. In practical setting this leads to the designs where the node density is rather high. Moreover, the network diameter of a planar subgraph is greater than the original graph, which leads to longer routes. To remedy this problem, we propose a void traversal algorithm that works on arbitrary geometric graphs. We describe how to use this algorithm for geometric routing with guaranteed delivery and compare its performance with GFG

Keywords

ad hoc networks; graph theory; telecommunication network routing; arbitrary geometric graphs; geometric routing algorithms; planar graphs; resource-constrained ad hoc wireless networks; topology unit-disk; traversal algorithm; unit-disk graph; Algorithm design and analysis; Computer science; Global Positioning System; Intelligent networks; Large-scale systems; Network topology; Routing; Size control; Wireless networks; Wireless sensor networks;

fLanguage

English

Publisher

ieee

Conference_Titel

Mobile Adhoc and Sensor Systems Conference, 2005. IEEE International Conference on

Conference_Location

Washington, DC

Print_ISBN

0-7803-9465-8

Type

conf

DOI

10.1109/MAHSS.2005.1542862

Filename

1542862