Abstract
As many industrial applications require real-time and reliability communication, a variety of routing graph construction schemes were proposed to satisfy the requirements in Industrial Wireless Sensor Networks (IWSNs). Each device transmits packet through a route which is designated based on the graph. However, as existing studies consider a network consists of static devices only, they cannot cope with the network changes by movement of mobile devices considered important in the recent industrial environment. Thus, the communication requirements cannot be guaranteed because the existing path is broken by the varying network topology. The communication failure could cause critical problems such as malfunctioning equipment. The problem is caused repeatedly by continuous movement of mobile devices, even if a new graph is reconstructed for responding the changed topology. To support mobile devices exploited in various industrial environments, we propose a Hierarchical Routing Graph Construction (HRGC). The HRGC is consisted of two phases for hierarchical graph construction: In first phase, a robust graph called skeleton graph consisting only of static devices is constructed. The skeleton graph is not affected by network topology changes and does not suffer from packet loss. In second phase, the mobile devices are grafted into the skeleton graph for seamless communication. Through the grafting process, the routes are established in advance for mobile device to communicate with nearby static devices in anywhere. The simulation results show that the packet delivery ratio is improved when the graph is constructed through the HRGC.
Highlights
Industrial networks are exploited for various industrial fields such as inventory system [1], monitoring system [2,3], and control system [4,5] based on collected information in order to reduce the cost and improve the productivity [6,7]
The Hierarchical Routing Graph Construction (HRGC) consists of two main parts: (1) a skeleton graph consisting of only static devices and (2) mobile devices that are grafted into the skeleton graph
In this paper, we propose a HRGC for support mobile devices in Industrial Wireless Sensor Networks (IWSNs)
Summary
Industrial networks are exploited for various industrial fields such as inventory system [1], monitoring system [2,3], and control system [4,5] based on collected information in order to reduce the cost and improve the productivity [6,7]. The safety system [8,9] could minimize the damage through the immediate action about the various disaster These systems require information that is collected in a timely manner with high reliability in order to attain efficiency, productivity, automation, etc. As the existing IWSNs focus on alleviating the problem of wired systems, such as wire installation and maintenance cost, they consider a network consisting of static devices only. The existing scheme determines the route of each device for communication based on the network topology for low-delay and high-reliability. The movement of mobile device causes network topology changes, and it requires recalculating of routes. As the movement of mobile device is unpredictable and continuous, it constructs the virtual routes in advance for communication with the mobile device in the static devices which are member of the skeleton graph.
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