FAULT TOLERANT CONTROL OF THE ELECTRIC PROPULSION FOR AUTONOMOUS SURFACE VEHICLES
Yıl 2016,
Sayı: 05, 15 - 22, 01.04.2016
Hakan Akyıldız
Erhan Türkmen
Kaynakça
- [1] Akyıldız H, Üstün Ö. (2015). Fault-tolerant control of the electric propulsion system for a boat, İstanbul.
- [2] Dailly, C. (1990). Fault monitoring and diagnosis. Computing and Control Engineering Journal, 1(2), 57–62.
- [3] Frank, M, P. & Blanke, M., Fault diagnosis and fault tolerant control. CONTROL SYSTEMS, ROBOTICS AND AUTOMATION – Vol. XVI
- [4] Liu, Q., & Zhu, D., Fault tolerant control of unmanned underwater vehicles with continuous faults : Simulations and experiments. International Journal of Advanced Robotic Systems, Vol. 6, No.4 (2009)
FAULT TOLERANT CONTROL OF THE ELECTRIC PROPULSION FOR AUTONOMOUS SURFACE VEHICLES
Yıl 2016,
Sayı: 05, 15 - 22, 01.04.2016
Hakan Akyıldız
Erhan Türkmen
Öz
The application of a simple design of fault tolerant control FTC methodology to the electric propulsion of autonomous surface vehicle is presented. The existing approaches to fault detection and isolation and fault tolerant control in a general framework of a active fault tolerant control are considered according to design methodologies and applications. FMEA Failure Mode and Effects Analysis is carried out as a fault analysis, precarious parts of propulsion system are found and offered a solutions to risky applications
Kaynakça
- [1] Akyıldız H, Üstün Ö. (2015). Fault-tolerant control of the electric propulsion system for a boat, İstanbul.
- [2] Dailly, C. (1990). Fault monitoring and diagnosis. Computing and Control Engineering Journal, 1(2), 57–62.
- [3] Frank, M, P. & Blanke, M., Fault diagnosis and fault tolerant control. CONTROL SYSTEMS, ROBOTICS AND AUTOMATION – Vol. XVI
- [4] Liu, Q., & Zhu, D., Fault tolerant control of unmanned underwater vehicles with continuous faults : Simulations and experiments. International Journal of Advanced Robotic Systems, Vol. 6, No.4 (2009)