Gas Leakage Fault Detection of Pneumatic Pipe System Using Neural Networks
スポンサーリンク
概要
- 論文の詳細を見る
This paper is concerned with gas leakage fault detection of a pneumatic pipe system using a neural network filter. In modern plants, the ability to detect and identify gas leakage faults is becoming increasingly important. The main difficulty to detect gas leakage faults by sound signals lies in that the practical plants are usually very noisy. In this research, neural networks are used as nonlinear filters to eliminate noise and raise the signal noise ratio of the sound signal. Neural networks have a self-learning ability. This ability can be utilized to build a self-adaptive nonlinear filter. By learning from practical samples of noise and adjusting coefficients of connection weights of neural networks, a neural network filter can predict the future sample values of noise based on present and previous sample values. The predicted error between predicted values and practical ones constitutes output of the filter. If the predicted error is zero, then there is no leakage. If the predicted error is greater than a certain value, then there is a leakage fault. Through application to practical pneumatic systems, it is verified that nonlinear filters with neural networks was effective in gas leakage detection from noise background.
- 一般社団法人日本機械学会の論文
- 2004-06-15
著者
-
HAYASHI Shoji
Department of Materials Science and Engineering, Nagoya Institute of Technology
-
Hayashi Shoji
Department Of Intelligence Systems Fukui University
-
ZHANG Sheng
Global Engineering Program for International Students, Graduate School of Engineering, Fukui Univers
-
ASAKURA Toshiyuki
Department of Intelligence Systems, Fukui University
-
Asakura Toshiyuki
Department Of Human And Artificial Intelligence Systems Fukui University
-
Asakura Toshiyuki
Department Of Intelligence Systems Fukui University
-
Zhang Sheng
Global Engineering Program For International Students Graduate School Of Engineering Fukui Universit
関連論文
- Synthesis of Iron Carbide by Reaction of Iron Ores with H_2-CO Gas Mixtures Bearing Traces of Sulfur
- Influence of Sulfur Activity on the Reforming Reaction during Production of Iron Carbide with CO-CH_4-H_2-H_2S Mixtures in Fluidized Bed
- Gas Leakage Fault Detection of Pneumatic Pipe System Using Neural Networks
- Influence of Gaseous Sulfur on CO Reduction of Wustite Added with Foreign Oxides
- Production of Iron Carbide from Iron Ores in a Fluidized Bed
- Influence of Gangue Species on Hydrogen Reduction Rate of Liquid Wustite in Gas-conveyed Systems
- Iron Carbide Synthesis by Reaction of Iron Ore with H_4-CH_2 Gas Mixtures Containing Traces of Sulfur
- Simultaneous Synthesis of Iron Carbide and Rutile from Ilmenite Ore by Thermochemical Reactions
- Spider-Robot 8-Leg Cooperative Walking Velocity Control Strategy Based on Environmental Information(Bioengineering)
- Occurrence of Trajectory Chaos and It's Stabilizing Control Due to Dead Time of a Pneumatic Manipulator
- Factors Affecting the Sticking of Fine Iron Ores during Fluidized Bed Reduction.
- Relation between sulfur pressure and sticking of fine lron ores in fluidized bed reduction.
- Effect of coexistence of potassium and sulphur on abnormal swelling during reduction of hematite pellets.
- Cyclic Dimerization of Ethyl 1-Arylethylidenecyanoacetates with Grignard Reagents