A new routing algorithm for LEO satellite systems using genetic algorithms

We investigate several routing algorithms used in low Earth orbit (LEO) satellite systems. In the literature, most of the routing algorithms designed for LEO systems are based on minimizing the delay. Only a few of them have taken minimization of the number of handoffs as the objective function. We also classify the routing algorithms in two main categories: dynamic and static. There are some other papers that compare dynamic and static routing algorithms. Most of the studies, on the other hand, use static routing algorithms due to the periodic and predictable nature of LEO satellite systems. Therefore, we also designed a static routing algorithm based on genetic algorithms. The results show that our method performs better than classical methods, from the point of view of both delay and number of handovers.

[1]  Yanghee Choi,et al.  FSA-based link assignment and routing in low-earth orbit satellite networks , 1998 .

[2]  Randy H. Katz,et al.  On distributed, geographic-based packet routing for LEO satellite networks , 2000, Globecom '00 - IEEE. Global Telecommunications Conference. Conference Record (Cat. No.00CH37137).

[4]  M. Werner,et al.  ATM virtual path routing for LEO/MEO satellite networks with intersatellite links , 1996 .

[5]  Halim Zaim Routing in LEO Satellite Networks: An Implementation , 2001 .

[6]  Markus Werner,et al.  A neural network approach to distributed adaptive routing of LEO intersatellite link traffic , 1998, VTC '98. 48th IEEE Vehicular Technology Conference. Pathway to Global Wireless Revolution (Cat. No.98CH36151).

[7]  Victor O. K. Li,et al.  Logical topology-based routing in LEO constellations , 2001, ICC 2001. IEEE International Conference on Communications. Conference Record (Cat. No.01CH37240).