TY - EJOU AU - Guo, Chao AU - Guo, Juan AU - Yu, Chanjuan AU - Li, Zhaobin AU - Gong, Cheng AU - Waheed, Abdul TI - A Safe and Reliable Routing Mechanism of LEO Satellite Based on SDN T2 - Computers, Materials \& Continua PY - 2020 VL - 64 IS - 1 SN - 1546-2226 AB - Satellite networks have high requirements for security and data processing speed. In order to improve the reliability of the network, software-defined network (SDN) technology is introduced and a central controller is set in the network. Due to the characteristics of global perspective, control data separation, and centralized control of SDN, the idea of SDN is introduced to the design of the satellite network model. As a result, satellite nodes are only responsible for data transmission, while the maintenance of the links and the calculation of routes are implemented by the controller. For the massive LEO satellite network based on SDN, a state evaluation decision routing mechanism is proposed. The designed mechanism monitors the status of the entire network effectively and reduces the on-board load on the satellite network. The best routing decision is made under the comprehensive consideration of the current and historical status of each intersatellite link between Low Earth Orbit (LEO) satellite network nodes. The calculation and storage requirements are controlled within a reasonable range. Based on the curve parameter transmission fuzzy encryption algorithm, a safe and reliable condition assessment decision routing mechanism (CADRM) is designed. It ensures that the personal information of the LEO satellite network can be transmitted safely and effectively. The experimental simulation results show the improvement of network throughput, the reduction of packet loss rate and the enhancing of network reliability. KW - Route KW - LEO satellite KW - SDN KW - state assessment KW - inter-satellite link DO - 10.32604/cmc.2020.09792