Robust Ad Hoc Routing for Lossy Wireless Environment

Random loss in wireless ad hoc networks derives from two main causes: lossy wireless links and node mobility. Packet loss and link breakage can dramatically degrade the performance of any network protocol thus making routing in mobile ad hoc networks extremely challenging. In this study we focus on applications that exhibit mobility and random packet loss. Possible scenarios include search and rescue, urban homeland defense, small unit battlefield operations, and car to car network gaming. We explore the robustness of the routing solutions in regards to speed (up to vehicular ranges), random packet loss, and traffic load. Traditional routing protocol candidates are proactive, reactive and location-assisted (i.e., geographic) such as OLSR, AODV and GPSR. However, the performances of each protocol varies significantly with mobility and random loss shown in the paper. In our approach we seek to a hybrid solution AODV-DFR (AODV with Directional Forward Routing) that combines the positive aspects of previously proposed schemes. AODV-DFR utilizes the positive features of both proactive and reactive routing schemes, in addition, it borrows the greedy forwarding concept found in geo-routing. This allows for AODV-DFR to automatically find good candidates for packet forwarding in case of route breakage. Greedy forwarding here takes the form of "directional forwarding". Each node keeps a gradient direction toward the destination. This direction is dynamically refreshed based on periodic, proactive updates issued by the destination. Simulation studies show that AODV-DFR outperforms conventional protocols and previous hybrid routing solutions across a wide range of network characteristics.

[1]  A. Girotra,et al.  Performance Analysis of the IEEE 802 . 11 Distributed Coordination Function , 2005 .

[2]  Atsushi Iwata,et al.  Scalable routing strategies for ad hoc wireless networks , 1999, IEEE J. Sel. Areas Commun..

[3]  Mario Gerla,et al.  Fisheye State Routing in Mobile Ad Hoc Networks , 2000, ICDCS Workshop on Wireless Networks and Mobile Computing.

[4]  Hannes Hartenstein,et al.  Stochastic Properties of the Random Waypoint Mobility Model , 2004, Wirel. Networks.

[5]  Mario Gerla,et al.  TCP Performance over Geo-routing for High Mobile Ad Hoc Networks , 2006 .

[6]  Charles E. Perkins,et al.  Ad-hoc on-demand distance vector routing , 1999, Proceedings WMCSA'99. Second IEEE Workshop on Mobile Computing Systems and Applications.

[7]  Brad Karp,et al.  Greedy Perimeter Stateless Routing for Wireless Networks , 2000 .

[8]  Paolo Santi,et al.  The Node Distribution of the Random Waypoint Mobility Model for Wireless Ad Hoc Networks , 2003, IEEE Trans. Mob. Comput..

[9]  Brad Karp,et al.  GPSR: greedy perimeter stateless routing for wireless networks , 2000, MobiCom '00.

[10]  Rajendra V. Boppana,et al.  An adaptive distance vector routing algorithm for mobile, ad hoc networks , 2001, Proceedings IEEE INFOCOM 2001. Conference on Computer Communications. Twentieth Annual Joint Conference of the IEEE Computer and Communications Society (Cat. No.01CH37213).

[11]  Zygmunt J. Haas,et al.  The zone routing protocol (zrp) for ad hoc networks" intemet draft , 2002 .

[12]  David A. Maltz,et al.  Dynamic Source Routing in Ad Hoc Wireless Networks , 1994, Mobidata.

[13]  Emin Gün Sirer,et al.  SHARP: a hybrid adaptive routing protocol for mobile ad hoc networks , 2003, MobiHoc '03.

[14]  Charles E. Perkins,et al.  Highly Dynamic Destination-Sequenced Distance-Vector Routing (DSDV) for mobile computers , 1994, SIGCOMM.

[15]  Hari Balakrishnan,et al.  6th ACM/IEEE International Conference on on Mobile Computing and Networking (ACM MOBICOM ’00) The Cricket Location-Support System , 2022 .

[16]  Xin Yu,et al.  Improving TCP performance over mobile ad hoc networks by exploiting cross-layer information awareness , 2004, MobiCom '04.

[17]  A. M. Abdullah,et al.  Wireless lan medium access control (mac) and physical layer (phy) specifications , 1997 .

[18]  Fred L. Templin,et al.  Topology Dissemination Based on Reverse-Path Forwarding (TBRPF) , 2004, RFC.

[19]  Philippe Jacquet,et al.  Optimized Link State Routing Protocol (OLSR) , 2003, RFC.

[20]  Charles E. Perkins,et al.  Highly dynamic Destination-Sequenced Distance-Vector routing (DSDV) for mobile computers , 1994, SIGCOMM.

[21]  Ivan Stojmenovic,et al.  Routing with Guaranteed Delivery in Ad Hoc Wireless Networks , 1999, DIALM '99.

[22]  David R. Karger,et al.  A scalable location service for geographic ad hoc routing , 2000, MobiCom '00.

[23]  Scott Shenker,et al.  Geographic routing without location information , 2003, MobiCom '03.