International Journal of Man-Machine Studies
Probabilistic fault localization in communication systems using belief networks
IEEE/ACM Transactions on Networking (TON)
Diagnosing mobile ad-hoc networks: two distributed comparison-based self-diagnosis protocols
Proceedings of the 4th ACM international workshop on Mobility management and wireless access
Bearing fault detection using artificial neural networks and genetic algorithm
EURASIP Journal on Applied Signal Processing
Code-Centric RFID System Based on Software Agent Intelligence
IEEE Intelligent Systems
A 2G-RFID-based e-healthcare system
IEEE Wireless Communications
Mobile Networks and Applications
IEEE Transactions on Network and Service Management
Fault management in wireless sensor networks
IEEE Wireless Communications
SNMP GetPrev: an efficient way to browse large MIB tables
IEEE Journal on Selected Areas in Communications
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Internet of things (IoT) points out an inspiring road towards intelligent world of real-time information collection and interaction among people and entities. It may provide various applications by connecting all the existing communication networks. To ensure the reliability of end-to-end transmission in the hierarchical environments, fault management is of great importance. Current relative algorithms are designed for specific network, not suited to these complex conditions. Meanwhile, the utilization of existing facilities should be considered for implementation feasibility. In this paper, we propose a layered fault management scheme for IoT with uniform fault managing procedure control and separate layer functions. Flexible and effective monitoring model would be set in selected observing points around the networks. Advanced fuzzy cognitive maps (FCM) is adopted to realize integrated evaluation and prediction of the possible fault. The observing points could adjust the weighting rule in the model to suit the practical network condition and work independently. After further confirmation among neighbor points, fault recovery therapy could be handed over to the corresponding network with existing counter-measures. The proposed design suits well to the efficiency and feasibility requirements of IoT. Simulation results further prove its desirable behavior.