Utilizing an Adaptive Controller (Azadi Controller) for Trajectory Planning of PUMA 560 Robot

Sassan Azadi

doi:10.4028/www.scientific.net/AMR.403-408.4880

Paper Titles

A Novel Fuzzy Adaptive Speed Estimator for Space Vector Modulated DTFC of AC Drives
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Generalized Frequency Domain Robust Tuning of a Family of Fractional Order PI/PID Controllers to Handle Higher Order Process Dynamics
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Effect of Advanced Static VAR Compensator on Control of Power System Load Shedding
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Efficient Object Selection Technique for a Robotized Kitchen
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Utilizing an Adaptive Controller (Azadi Controller) for Trajectory Planning of PUMA 560 Robot
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ATmega8 Based Obstacle Avoiding Helicopter
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Intelligent Agent Integration of On-Board and Off-Board Sensors Systems for Mobile Robot Path Planning
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Robot Dancing: What Makes a Dance?
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To Automate AMF Pinspotter Machine
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HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 403-408Utilizing an Adaptive Controller (Azadi...

Utilizing an Adaptive Controller (Azadi Controller) for Trajectory Planning of PUMA 560 Robot

Abstract:

This research work was devoted to present a novel adaptive controller which uses two negative stable feedbacks with a positive unstable positive feedback. The positive feedback causes the plant to do the break, therefore reaching the desired trajectory with tiny overshoots. However, the two other negative feedback gains controls the plant in two other sides of positive feedback, making the system to be stable, and controlling the steady-state, and transient responses. This controller was performed for PUMA-560 trajectory planning, and a comparison was made with a fuzzy controller. The fuzzy controller parameters were obtained according to the PSO technique. The simulation results shows that the novel adaptive controller, having just three parameters, can perform well, and can be a good substitute for many other controllers for complex systems such as robotic path planning.

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Periodical:

Advanced Materials Research (Volumes 403-408)

Pages:

4880-4887

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.403-408.4880

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Online since:

November 2011

Authors:

Sassan Azadi

Keywords:

Adaptive, Control, Direct, Positive Feedback, Robot, Trajectory

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