A .NET framework for an integrated fault diagnosis and failure prognosis architecture

Chen C.; Brown D.; Sconyers C.; Vachtsevanos G.; Zhang B.; Orchard, M.E.

Keywords: systems, energy, performance, framework, fault, diagnosis, physics, component, requirements, velocity, networks, light, extraction, failure, prognosis, faults, particle, data, architecture, dc, theory, estimation, software, nonlinear, filtering, net, motors, processing, bayesian, characteristics, engineering, High, feature, generic, platforms, Inherent, Brushless, Winding

Abstract

This paper presents a .NET framework as the integrating software platform linking all constituent modules of the fault diagnosis and failure prognosis architecture. The inherent characteristics of the .NET framework provide the proposed system with a generic architecture for fault diagnosis and failure prognosis for a variety of applications. Functioning as data processing, feature extraction, fault diagnosis and failure prognosis, the corresponding modules in the system are built as .NET components that are developed separately and independently in any of the .NET languages. With the use of Bayesian estimation theory, a generic particle-filtering-based framework is integrated in the system for fault diagnosis and failure prognosis. The system is tested in two different applications - bearing spalling fault diagnosis and failure prognosis and brushless DC motor turn-to-turn winding fault diagnosis. The results suggest that the system is capable of meeting performance requirements specified by both the developer and the user for a variety of engineering systems. © 2010 IEEE.

Más información

Título de la Revista: 1604-2004: SUPERNOVAE AS COSMOLOGICAL LIGHTHOUSES
Editorial: ASTRONOMICAL SOC PACIFIC
Fecha de publicación: 2010
Página de inicio: 36
Página final: 41
URL: http://www.scopus.com/inward/record.url?eid=2-s2.0-78649557700&partnerID=q2rCbXpz