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SDN-based space-based information network multi-controller efficacy-losing backup method

An information network and multi-controller technology, which is applied in the field of SDN-based space-based information network multi-controller failure backup, can solve the problems of poor network invulnerability and long delay

Active Publication Date: 2018-05-25
DALIAN UNIV
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Problems solved by technology

[0004] At present, some researchers have proposed a space-based information network based on a single SDN controller, in which the controller is placed on the ground, and the calculation and configuration of the entire route is generated by the ground station (GS) and the network operation control center ( NOCC) execution, once the controller of this network fails, the entire network will be in a state of collapse, and the network’s invulnerability is not good
Some researchers have also proposed a failover method for failover and neighbor controller takeover. Although this method can improve the invulnerability of the entire network, it will lead to excessive delays.

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Embodiment Construction

[0070] The present invention will be further described below in conjunction with the accompanying drawings.

[0071] The present invention first constructs a SDN-based space-based information network failure backup architecture diagram, such as figure 1 As shown, the GEO / MEO / LEO three-layer satellite network model is adopted. The high-orbit satellite GEO is used as the main controller to manage the MEO as a common controller, and the MEO is in charge of the LEO as a switch through the OpenFlow protocol. As the application layer, the ground base station is connected to GEO through the northbound interface. SDN has the following three characteristics: programmable, separation of control plane and data plane, and centralized control model for network transient state management. Such as figure 2 shown, based on figure 1 The failure detection and recovery design of the architecture improves the bandwidth utilization of inter-satellite links, makes up for the disadvantage of del...

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Abstract

The invention discloses an SDN-based space-based information network multi-controller efficacy-losing backup method. The method comprises the following steps of constructing an SDN-based space-based information network multi-controller efficacy-losing backup framework; designing an efficacy-losing detecting mechanism; recovering a controller election algorithm based on faults of a Paxos algorithm.The SDN core technology is applied to a space-based information network, and therefore the structure of network equipment is simplified, a satellite just needs to achieve the simple forwarding and hardware configuring functions, and therefore the defect that satellite nodes are complex in design and high in manufacturing cost is overcome. The SDN-based space-based information network can achieveoverall resource distribution and overall optimization, and the resource utilization rate is increased. By adopting the multi-controller framework, the expansibility of the space-based information network can be improved, and therefore the flexible and efficient network configuration and management are achieved. In addition, centralized management has the overall view of all nodes in the whole network, the state of the satellite nodes can be grasped, and the network destroy resistance is improved.

Description

technical field [0001] The present invention relates to a software-defined space-based information network (Software Defined Space-based Information Network, referred to as SDSIN), in particular to an SDN-based space-based information network multi-controller failure backup method. Background technique [0002] The space-based information network has time-varying topology, which will lead to frequent switching of the on-off state of the inter-satellite link. In addition, satellite nodes will also fail due to attacks or other reasons, resulting in performance problems in the space-based information network. These factors will greatly reduce the invulnerability of space-based information networks. In recent years, the emergence of some new technologies has greatly promoted the development of space-based information networks, such as on-board processing (On-board Processing, OBP), inter-satellite link (Inter-satellite Link, ISL), etc., these technologies are better It solves ...

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): H04B7/185H04L29/08
CPCH04B7/1851H04B7/18519H04L67/1001
Inventor 杨力杨旭潘成胜石怀峰
Owner DALIAN UNIV
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