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Optimised sensor selection for control: a Hardware-in-the-loop realization on FPGA for an EMS system

Deliparaschos, K .M., Michail, K., Tzafestas, S. G. and Zolotas, Argyrios (2013) Optimised sensor selection for control: a Hardware-in-the-loop realization on FPGA for an EMS system. In: Control and Fault-Tolerant Systems (SysTol), 2013 Conference on, 9-11 October 2013, Nice, France.

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Optimised sensor selection for control: a Hardware-in-the-loop realization on FPGA for an EMS system
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Item Type:Conference or Workshop contribution (Paper)
Item Status:Live Archive

Abstract

This paper presents a Hardware-in-the-loop (HIL) approach on a Field Programmable Gate Array (denoted as FPGA-in-the-loop and abbreviated as FIL) for the optimised sensor selection task of controlling a MAGnetic LEVitation (MAGLEV) system. A recently proposed systematic framework for optimised sensor selection for control and fault tolerance is developed in 1. The framework was validated using realistic simulations on an electromagnetic suspension system. In this work, the sensor selection framework for control, and practical validation of the controller on FPGA (via HIL concept) applied on an electromagnetic suspension are considered.

Keywords:electromagnetic devices, fault tolerant control, field programmable gate arrays, magnetic levitation, magnetic variables control, suspensions (mechanical components), EMS system, FPGA-in-the-Ioop, HIL approach, MAGLEV system, electromagnetic suspension system, fault tolerance, field programmable gate array, hardware-in-the-ioop approach, hardware-in-the-loop realization, magnetic levitation system, optimised sensor selection framework, Computer aided software engineering, Software packages, Suspensions
Subjects:H Engineering > H660 Control Systems
H Engineering > H100 General Engineering
Divisions:College of Science > School of Engineering
ID Code:15030
Deposited On:24 Sep 2014 09:44

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