Back close

Development of a Real-time, Process Control Method Based on Neural Network Model Using Feedback of Weld Pool Geometric Parameters Measured by a Vision-based Technique and Experimental Verification for Automated Arc Welding Processes

Start Date: Monday, Feb 26,2007

End Date: Saturday, Mar 31,2012

School: School of Engineering

Project Incharge:Dr. Ilagovan S.
Funded by:All India Council for Technical Education (AICTE)
Development of a Real-time, Process Control Method Based on Neural Network Model Using Feedback of Weld Pool Geometric Parameters Measured by a Vision-based Technique and Experimental Verification for Automated Arc Welding Processes

The funded amount received from AICTE under Research Promotion Scheme (RPS) will be utilized to create facility with a vision system and a tri-axial manipulator in the Welding Research Lab. Research in the area of controlling the welding process with a feed-back of weld pool geometry has been of interest lately as a way to improve the quality and the consistency. In this study, weld pool geometry will be measured using a vision system for various sets of welding parameters and correlated to weld quality. Experimental data will be collected under various welding conditions such as current and travel speed for this purpose. A real-time controller based on neural network model to regulate welding parameters will be developed.

Related Projects

Advanced Threat Collection Platforms
Advanced Threat Collection Platforms
Development of a Real-Time Wireless Sensor Network for Landslide Monitoring
Development of a Real-Time Wireless Sensor Network for Landslide Monitoring
Automated Traffic Sign Recognition System For Indian Roads
Automated Traffic Sign Recognition System For Indian Roads
Detection and Prevention of Advanced Persistent Threat (APT) Activitiesin Heterogeneous Networks using SIEM and Deep Learning
Detection and Prevention of Advanced Persistent Threat (APT) Activitiesin Heterogeneous Networks using SIEM and Deep Learning
Analysis and Evaluation of Multilayer Shear Damped Viscoelastic Treatments for Launch Vehicle Applications
Analysis and Evaluation of Multilayer Shear Damped Viscoelastic Treatments for Launch Vehicle Applications
Admissions Apply Now