Detecting Shape of Weld Defect Image on X-ray Film by Image Processing Applied Genetic Algorithm
スポンサーリンク
概要
- 論文の詳細を見る
Several types of non-destructive testing methods are used for detecting weld defects. Because the X-ray radiographic testing method is particularly useful in inspecting the inside of a weld metal, it is often used in industry. However, since the number of skilled inspectors for X-ray radiographic testing has been gradually decreasing, recently, several methods to detect weld defects from films automatically have been investigated to improve the quality of the detection results. However, X-ray film images contain much noise, and defect images show very low contrast and various shapes in spite of the same kind of defect. Moreover, boundaries between a defect image and the background are unclear, making it difficult to automate the inspection of X-ray films. If the type of defect image were to be judged by an expert system or a neural network which learns the rules of professional inspectors, the boundaries of the defect image would have to be detected in a manner similar to recognition by a human's (or an inspector's) sense of vision. Therefore, in this study, a new image processing method applied genetic algorithms that were a method of optimization, was constructed and applied to the detection of defect boundaries in detail.
- 一般社団法人日本機械学会の論文
- 2002-06-15
著者
-
SUGA Yasuo
Faculty of Science and Technology, Keio University
-
Suga Yasuo
Faculty Of Science And Technology Department Of Mechanical Engineering Keio University
-
AOKI Kimiya
Department of Information and Computer Sciences, Toyohashi University of Technology
-
Suga Yasuo
Faculty Of Engineering Keio University
-
Aoki Kimiya
Department Of Information And Computer Sciences Toyohashi University Of Technology
関連論文
- Application of Image Processing to Automatic Weld Inspection and Welding Process Control
- Autonomous Mobile Robot System for Monitoring and Control of Penetration during Fixed Pipes Welding
- 419 Autonomous Mobile Robot System for Monitoring and Control of Penetration during Fixed Pipes Welding
- Evaluation of Tensile Strength and Fatigue Strength of 6061 Aluminum Alloy Friction Welded Joint
- The Effect of Cooling Rate on Mechanical Properties of Underwater Wet Welds in Gravity Arc Welding
- On Prevention of Cracks in Underwater Wet Welds by Postweld Heat Treatment : Study on Improving the Mechanical Properties of Underwater Welded Joints (The 2nd Report)
- Detecting Shape of Weld Defect Image on X-ray Film by Image Processing Applied Genetic Algorithm
- Welding of Thin Steel Plates by Hybrid Welding Process Combined TIG Arc with YAG Laser
- 232 Investigation of Welding Penetration Control in TIG Welding of an Aluminum Pipe Using Vision Sensing
- On Underwater Submerged-Arc Welding (The 2nd Report) : Welding of SM41 steel and SM50 steel Using Flux Cored Wire
- On Underwater Submerged-Arc Welding (The 1st Report) : The Feasibility of Underwater Welding by Submerged-Arc Welding Process
- The Effect of Argon Pressure on the TIG Arc Welding
- The Effect of Pressure on Mechanical Properties of Welded Joints : On Gravity Arc Welding under High Pressure Atmosphere
- The Effect of Pressure on Welding Results and Welding Phenomena in Gravity Arc Welding
- Effects of Helium Pressure on Characteristics of TIG Arcs and Mechanical Properties of Welds
- On Formation of Porosity in Underwater Weld Metal (The 1st Report) : Effect of Water Pressure on Formation of Porosity
- Effect of Diffusible Hydrogen on Mechanical Properties of Underwater Welded Joints : Study on Improving the Mechanical Properties of Underwater Welded Joints (The 1st Report)
- On Cooling of Underwater Welds
- Study on Mechanisms of Blowhole Formation by Hydrogen : On Formation of Porosity in Underwater Weld Metal (the 2nd Report)
- Application of Artificial Neural Network to Discrimination of Defect Type in Automatic Radiographic Testing of Welds
- Welding Penetration Control for Aluminum Pipe Welding Using Omnidirectional Vision-based Monitoring of Molten Pool