Abstract
The appearance of coverage holes in the network leads to transmission links being disconnected, thereby resulting in decreasing the accuracy of data. Timely detection of the coverage holes can effectively improve the quality of network service. Compared with other coverage hole detection algorithms, the algorithms based on the Rips complex have advantages of high detection accuracy without node location information, but with high complexity. This paper proposes an efficient coverage hole detection algorithm based on the simplified Rips complex to solve the problem of high complexity. First, Turan’s theorem is combined with the concept of the degree and clustering coefficient in a complex network to classify the nodes; furthermore, redundant node determination rules are designed to sleep redundant nodes. Second, according to the concept of the complete graph, redundant edge deletion rules are designed to delete redundant edges. On the basis of the above two steps, the Rips complex is simplified efficiently. Finally, from the perspective of the loop, boundary loop filtering and reduction rules are designed to achieve coverage hole detection in wireless sensor networks. Compared with the HBA and tree-based coverage hole detection algorithm, simulation results show that the proposed hole detection algorithm has lower complexity and higher accuracy and the detection accuracy of the hole area is up to 99.03%.
Highlights
The Internet of things is deeply applied to social life in the form of smart cities and Internet of Vehicles
As an underlying technology of the Internet of things, wireless sensor networks (WSNs) consist of numerous sensor nodes deployed in the monitoring area for comprehensively sensing, acquiring, and transmitting information about objects, which is suitable for intelligent transportation [1], event detection [2], environmental monitoring [3], etc
High detection accuracy is guaranteed by considering irregularities of the shape of the coverage holes, and more accurate information is provided for repairing the coverage holes, but the specific location information of each node must be known in this method
Summary
As an underlying technology of the Internet of things, wireless sensor networks (WSNs) consist of numerous sensor nodes deployed in the monitoring area for comprehensively sensing, acquiring, and transmitting information about objects, which is suitable for intelligent transportation [1], event detection [2], environmental monitoring [3], etc These practical applications have high requirements for the service quality of WSNs. The coverage rate is an important metric for evaluating WSNs’ service quality [4], and many scholars have contributed to its improvement and optimization. This paper proposes an efficient coverage hole detection algorithm based on the simplified Rips complex which belongs to the topology method.
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
