TY - GEN
T1 - Metrical routing using ad-hoc networks in hierarchical environment
AU - Ben-Asher, Yosi
AU - Feldman, Moran
AU - Feldman, Sharoni
AU - Gurfil, Pini
PY - 2006
Y1 - 2006
N2 - The need to rapidly deploy military forces in unknown areas without the ability to use existing ground-based communication infrastructure requires the use of ad-hoc communication networks. Transmission limitations motivates the use of a hierarchal routing mechanism that enables each soldier to communicate with distant soldiers using intermediate powerful nodes that hover within the transmission radius. Our research combines various types of transmitters, including short-range personal transmitters, vehicle-mounted transmitters, helicopters and a geostationary Earth-orbit (GEO) satellite. Each of these entities possesses a different communication range, velocity, and altitude. We consider the various tradeoffs rising from such a heterogeneous theater, and compare two ad-hoc protocols - AODV, which is based on dynamic updates of local cached routing tables, and MRA, which is based on dynamic updates of virtual coordinates. Our results show that for the MRA algorithm one "flat" network is sufficient, and there is no need to use clustering methods. We further show that the GEO satellite constitutes a ubiquitous mediator that contributes to the connectivity and stability of the network.
AB - The need to rapidly deploy military forces in unknown areas without the ability to use existing ground-based communication infrastructure requires the use of ad-hoc communication networks. Transmission limitations motivates the use of a hierarchal routing mechanism that enables each soldier to communicate with distant soldiers using intermediate powerful nodes that hover within the transmission radius. Our research combines various types of transmitters, including short-range personal transmitters, vehicle-mounted transmitters, helicopters and a geostationary Earth-orbit (GEO) satellite. Each of these entities possesses a different communication range, velocity, and altitude. We consider the various tradeoffs rising from such a heterogeneous theater, and compare two ad-hoc protocols - AODV, which is based on dynamic updates of local cached routing tables, and MRA, which is based on dynamic updates of virtual coordinates. Our results show that for the MRA algorithm one "flat" network is sufficient, and there is no need to use clustering methods. We further show that the GEO satellite constitutes a ubiquitous mediator that contributes to the connectivity and stability of the network.
UR - http://www.scopus.com/inward/record.url?scp=47849095954&partnerID=8YFLogxK
U2 - 10.1109/ITRE.2006.381535
DO - 10.1109/ITRE.2006.381535
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AN - SCOPUS:47849095954
SN - 1424408598
SN - 9781424408597
T3 - ITRE 2006 - 4th International Conference on Information Technology: Research and Education, Proceedings
SP - 61
EP - 68
BT - ITRE 2006 - 4th International Conference on Information Technology
PB - IEEE Computer Society
T2 - ITRE 2006 - 4th International Conference on Information Technology: Research and Education
Y2 - 17 October 2006 through 18 October 2006
ER -