Modeling and fault diagnosis of flat inland navigation canals

Modeling and fault diagnosis of flat inland navigation canals

This article regards the development of an analytical redundancy-based approach for detecting and isolating both sensor and actuator faults in flat inland navigation canals. Inland navigation networks are principally used for transport and are composed of many canalized natural rivers and artificial...

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Veröffentlicht in:Proceedings of the Institution of Mechanical Engineers. Part I, Journal of systems and control engineering Journal of systems and control engineering, 2018-07, Vol.232 (6), p.761-771
Hauptverfasser: Segovia, Pau, Blesa, Joaquim, Horváth, Klaudia, Rajaoarisoa, Lala, Nejjari, Fatiha, Puig, Vicenç, Duviella, Eric
Format: Artikel
Sprache:eng
Schlagworte:
Automàtica i control
Canals
Canals i regadius
Engineering Sciences
Enginyeria civil
Enginyeria hidràulica, marítima i sanitària
Fault detection
fault detection and isolation
Fault diagnosis
Informàtica
Inland navigation
Large-scale systems
Mechanical engineering
modeling
Navegació interior
Navigation
open-flow water networks
Redundancy
Remote control
Telecontrol
Àrees temàtiques de la UPC
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Beschreibung
Zusammenfassung:This article regards the development of an analytical redundancy-based approach for detecting and isolating both sensor and actuator faults in flat inland navigation canals. Inland navigation networks are principally used for transport and are composed of many canalized natural rivers and artificial canals characterized by no slope. These canals are strongly affected by resonance phenomena, which can create waves such that the navigation condition might not be guaranteed. It is, therefore, required to ensure dealing with fault-free measured data and actuators. The proposed approach is based on the integrator delay zero model of the flat inland navigation canal. The proposed method is tested by considering the Cuinchy–Fontinettes navigation reach (in the north of France) to detect and isolate the occurrence of faults in the Cuinchy and Fontinettes level sensors and in the Cuinchy gate.
ISSN:0959-6518
2041-3041
DOI:10.1177/0959651818773187