Title :
The integrated routing algorithm for multi-satellites, multi-ground-stations and multi-processing-centers
Author :
Zhen Xu ; Xinhui Meng ; Zijing Cheng
Author_Institution :
Sch. of Electron. & Inf. Eng., Beihang Univ., Beijing, China
Abstract :
The research of routing planning for satellites and ground stations always treats the whole process as two independent parts: transmission from satellites to ground stations and transmission in the ground networks. The separate research causes two problems that the two parts could not connect tightly and the delay is large. In order to solve these problems, the paper designs an integrated routing algorithm that treats the transmission as a whole. The algorithm considers the real-time link cost, calculates the normalization matrix, and searches the best real-time link for transmission. Simulation results show that comparing with the separate optimal solution, the integrated solution reduces the delay of the task sequences while keeping the sum of successful task priority and task success rate almost the same. The integrated routing algorithm improved the performance of routing planning for satellites and ground stations.
Keywords :
artificial satellites; matrix algebra; satellite ground stations; satellite links; telecommunication network planning; telecommunication network routing; ground network; integrated routing algorithm; multiground station; multiprocessing center; multisatellites; normalization matrix; real-time link cost; routing planning; task priority; task sequence delay reduction; task success rate; Delays; Educational institutions; Optimization; Planning; Real-time systems; Routing; Satellites; Dijkstra; real-time link cost; routing planning;
Conference_Titel :
Natural Computation (ICNC), 2013 Ninth International Conference on
Conference_Location :
Shenyang
DOI :
10.1109/ICNC.2013.6818238