Abstract
When an industrial wireless sensor network (WSN) is seriously disturbed and intentionally attacked, sometimes it fails easily, even leading to the paralysis of the entire industrial wireless network. In order to improve the invulnerability of networks, in this paper, the scale-free network in complex networks is taken as the research object, and the industrial WSN with scale-free characteristics is modeled. Based on the advantages of the fireworks algorithm, such as strong searching ability and diversity of population, a so-called fireworks and particle swarm optimization (FW-PSO) algorithm is proposed, which can improve the global search ability and convergence speed effectively. The proposed FW-PSO algorithm is used to optimize the network topology and form a network with the largest natural connectivity, which can effectively promote the ability of network to resist the cascade failure problem. The dynamic invulnerability of the optimized network under highest-degree (HD) attack and lowest-degree (LD) attack strategies, as well as the static invulnerability under random attack, were evaluated respectively. Simulation experiments show that the industrial WSN optimized by FW-PSO can significantly improve the performance of the dynamic and static invulnerabilities compared with the initial network and the networks optimized by the other two existing algorithms.
Highlights
With the development of wireless communication, sensor integration, and MEMS, as well as progress in networking technology, wireless sensor network (WSN) technology and its industrial applications have been greatly improved and expanded, and the industrial WSN is attracting increasing attention [1,2]
Industrial WSN is a kind of ad hoc and cooperative network composed of a large number of industrial sensors and actuator nodes with wireless communication functions in industrial monitoring and control sites [3]
By making appropriate changes to model variables and constraints, the fireworks and particle swarm optimization (FW-PSO) algorithm was applied to this kind of network to find the network topology with the maximum natural connectivity, and the dynamic and static invulnerability of the optimized network were analyzed under different attack strategies
Summary
With the development of wireless communication, sensor integration, and MEMS (microelectro-mechanical systems), as well as progress in networking technology, wireless sensor network (WSN) technology and its industrial applications have been greatly improved and expanded, and the industrial WSN is attracting increasing attention [1,2]. Hu et al [25] presented a regular hexagonal-based clustering scheme (RHCS) and a scale-free topology evolution mechanism (SFTEM) for WSNs, which increased network invulnerability as well as maintaining the energy balance. Some of them only focus on the single node or edge which are attacked and unable to communicate, and some of them only analyze the static connection performance of the network, and do not consider how to construct the topology with strong connectivity and strong invulnerability under the cascading failure of the network. By making appropriate changes to model variables and constraints, the FW-PSO algorithm was applied to this kind of network to find the network topology with the maximum natural connectivity, and the dynamic and static invulnerability of the optimized network were analyzed under different attack strategies.
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