Título
Distributed Continuous-Time Fault Estimation Control for Multiple Devices in IoT Networks
Autor(es)
Palabras clave
Linear feedback control systems
Data handling
Algorithm design and analysis
Predictive maintenance
Nonlinear control systems
Fault tolerant systems
IoT
Fecha de publicación
2019
Editor
IEEE
Citación
Casado-Vara, R., Novais, P., Gil, A. B., Prieto, J., & Corchado, J. M. (2019). Distributed Continuous-Time Fault Estimation Control for Multiple Devices in IoT Networks. IEEE Access, 7, 11972-11984. https://doi.org/10.1109/ACCESS.2019.2892905
Resumen
[EN] This paper investigates distributed continuous-time fault estimation for multiple devices in the Internet-of-Things (IoT) networks by using a hybrid between cooperative control and state prediction techniques. First, a mode-dependent intermediate temperature matrix is designed, which constructs an intermediate estimator to estimate faulty temperature values obtained by the IoT network. Second, the continuous-time Markov chains transition matrix and output temperatures and the sufficient conditions of stability for auto-correct error of the IoT network temperatures are considered. Moreover, faulty devices are replaced by virtual devices to ensure continuous and robust monitoring of the IoT network, preventing in this way false data collection. Finally, the efficiency of the presented approach is verified with the results obtained in the conducted case study.
URI
DOI
10.1109/ACCESS.2019.2892905
Versión del editor
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