Research on Anti-Slip Differential Control for Two-Motor Independent Driven Vehicle
p.615
p.615
Frame Work of LV-UTHM: An ISO 14649 Based Open Control System for CNC Milling Machine
p.619
p.619
The Research of Oil Pressure Fluctuation Influence to Rolling Mill Control Precision
p.624
p.624
A New Formation Maintenance Technique for Particle Diversity in RBPF-SLAM
p.629
p.629
A Framework Design of Automatic Fault Diagnosis System
p.635
p.635
Synthesis of Parallel Manipulator with Single DOF
p.639
p.639
Design of the Lower Extremity Rehabilitation Robot Communication System
p.644
p.644
A Survey on Robot Teaching: Categorization and Brief Review
p.648
p.648
Dynamics Simulation of Multi-Mechanism Operation Parameterization Bridge Crane Modeling Based on Rigid-Flexible Coupling System
p.659
p.659
A Framework Design of Automatic Fault Diagnosis System
Abstract:
To resolve a lasting suitable cabin environment for the astronauts, this paper proposes an effective framework design for automatic fault diagnosis system. This framework can implement a real-time online diagnosis and decision support for fault, and carry out an early diagnosis for weak fault. Finally, this paper achieves an online automatic fault diagnosis system by using neural networks self-learning characteristics and expert knowledge. In two-men-two-days simulated manned space flight test, the software of diagnosis system framework worked well, which has been assessed and verified comprehensively.
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Info:
Periodical:
Applied Mechanics and Materials (Volume 330)
Pages:
635-638
Citation:
Online since:
June 2013
Authors:
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