CONFERENCE SCOPE
The conference aims to bring together the two fields of system design and control together. Today, flexible robotics and compliant mechanism design use nonlinearities which were once considered hindrances to system design to their advantage. In addition, advances in control technology such as nonlinear control, fractional order control are advantageously being used to go beyond classical linear control and therefore increase the applicability of complex mechanisms for robotics and mechatronic systems. In this regard, the 9th International Conference in Control, Mechatronics and Automation solicits original articles in the field of: (But not only limited for the below topics.)
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Track
1: Control Theory and
Applications Adaptive control Co-operative control Delay systems Discrete event systems Fuzzy systems Nonlinear control for motion systems Robust control
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Track
2: Mechatronics and Robotics Compliant mechanism Flexible Manufacturing Technology & System Flexible robotics, Soft robotics High-speed/precision machining Laser Processing Technology Mechatronic system design Nano-scale automation and assembly Precision Manufacturing & Measurement Precision Mechanics & Mechatronics Precision mechanism Precision motion control Smart automation |
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Track
3: Industrial Automation and
Process Control CAD/CAM Integration Technology Complex mechanical-electro-liquid System Factory modeling and simulation Instrumentation systems Mechanical Power Engineering Mechanism and Machine Science Network-based systems Networked control systems Powder Metallurgy/Casting/Sintering/Thermal Engineering/Welding Process automation Process control Quality & Reliability Engineering
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Track
4: Intelligent Systems and
Machine Learning Biomedical instrumentation and applications Computational Mechanics Computer-aided Geometric Design & Simulation Control applications Control engineering education Control of biological systems Design, modeling and control of precision motion systems Dynamics of flexible systems Fractional order system and control Home, laboratory and service automation Hybrid systems Identification and estimation Intelligent automation Intelligent systems Man-machine interactions Neural networks Nonlinear systems Planning, scheduling and coordination System Dynamics and Simulation Vibration analysis and control |