Caching strategies in on-demand routing protocols for wireless ad hoc networks

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Caching strategies in on-demand routing protocols for wireless ad hoc networks

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International Conference on Mobile Computing and Networking archive
Proceedings of the 6th annual international conference on Mobile computing and networking table of contents

Boston, Massachusetts, United States

Pages: 231 - 242

Year of Publication: 2000

ISBN:1-58113-197-6

Authors

Yih-Chun Hu	Computer Science Department, Carnegie Mellon University, Pittsburgh, PA
David B. Johnson	Computer Science Department, Carnegie Mellon University, Pittsburgh, PA

Sponsors

SIGCOMM: ACM Special Interest Group on Data Communication
SIGMOBILE: ACM Special Interest Group on Mobility of Systems, Users, Data and Computing
IEICE : Inst of Electronics, Info & Communication Engineers
IFIP WG 6.3 : IFIP WG 6.3
SIGMETRICS: ACM Special Interest Group on Measurement and Evaluation

Publisher

ACM New York, NY, USA

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Downloads (6 Weeks): 10, Downloads (12 Months): 92, Citation Count: 49

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ABSTRACT

An on-demand routing protocol for wireless and hoc networks is one that searches for and attempts to discover a route to some destination node only when a sending node originates a data packet addressed to that node. In order to avoid the need for such a route discovery to be performed before each data packet is sent, such routing protocols must cache routes previously discovered. This paper presents an analysis of the effects of different design choices for this caching in on-demand routing protocols in wireless ad hoc networks, dividing the problem into choices of cache structure, cache capacity, and cache timeout. Our analysis is based on the Dynamic Source Routing protocol (DSR), which operates entirely on-demand. Using detailed simulations of wireless ad hoc networks of 50 mobile nodes, we studied a large number of different caching algorithms that utilize a range of design choices, and simulated each cache primarily over a set of 50 different movement scenarios drawn from 5 different types of mobility models. We also define a set of new mobility metrics that allow accurate characterization of the relative difficulty that a given movement scenario presents to an ad hoc network routing protocol, and we analyze each mobility metric's ability to predict the actual difficulty in terms of routing overhead experienced by the routing protocol across the scenarios in our study.

REFERENCES

Note: OCR errors may be found in this Reference List extracted from the full text article. ACM has opted to expose the complete List rather than only correct and linked references.

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