Proceedings ArticleDOI
Control and tracking of robotic manipulator using PID controller and hardware in Loop Simulation
J. Senthil Kumar,E. Karthigai Amutha +1 more
- pp 1-3
TLDR
Here, a PID controller is designed so that it attempts to correct the error between a measured process variable and a desired set point by calculating the error and then outputting a corrective action that can adjust the process accordingly.Abstract:
In this fast growing world, automation is one of the key area where engineers put their efforts to improve the comfort level of human. Industrial automation involves the use autonomous robots to do the hazardous tasks. Broadly industrial robots are categorized as Autonomous Unmanned Vehicles and manipulators. Manipulator is a device used to manipulate materials without direct contact mostly aims at replacing the human arm. The control of such manipulators requires position tracking by certain control strategy. The main aim of the control is to ensure that the robot will maintain a desired dynamic behavior. The robot manipulator control using PID controller has a great importance in the Industrial automation. PID control scheme is one of the most general control types and probably the most commonly used. It provides quick response, good control of system stability and low steady-state error. Here, a PID controller is designed so that it attempts to correct the error between a measured process variable and a desired set point by calculating the error and then outputting a corrective action that can adjust the process accordingly. This is illustrated using Hardware in the Loop Simulation for real time simulation.read more
Citations
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Book ChapterDOI
Dynamic Decoupling of Robot Manipulators: A Review with New Examples
TL;DR: The present review considers in detail the aim of this solution, as well as the advantages of the joint application development inclosing mechanical and control solutions.
Proceedings ArticleDOI
Motion simulation of a manipulator robot modeled by a CAD software
Fedi Boujnah,Jilani Knani +1 more
TL;DR: The main objective of this work is to simulate the dynamic behavior of the robot by the PID controller using the design of a manipulator robot with six degrees of freedom GT6A using the CAD design.
Proceedings ArticleDOI
Influence of the motion profile on the performance of a flexible arm
Marouen Mejerbi,Jilani Knani +1 more
TL;DR: In this article, the problem of trajectory generation with a motion profile in joint space is addressed, the motion profile is a mathematical function that affects the performances of the robot such as the optimization of energy, optimization of time and especially the continuity of movement, in robotics we have three problems to solve, modeling, control and trajectory planning, in this work we developed a dynamic model of a flexible arm and used proportional derivative controller so that the robot can follow the desired path then we tested some motion profiles to see the effect of each one of them.
Journal ArticleDOI
Control of modified robotic system for mechanical processing of parts
TL;DR: In this article , the authors focus on the hardware structure of the open industrial robot control system and analyzes design concepts for up-to-date robot manipulator control systems, and present a new control system with control cabinet including modified PID controller, lowvoltage switchgear and protective devices, frequency converters (softstarters) and PLC.
Journal ArticleDOI
Least-energy path planning and oscillation analysis of robotic manipulator using direct collocation with nonlinear programming
TL;DR: This paper demonstrates how Direct Collocation with Nonlinear Programming can be successfully applied to solve robotic path planning problems and cautions the users and designers of the manipulator about the unwanted frequency drift so that they can amend it before the oscillation builds up.
References
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Journal ArticleDOI
Robust stabilization of robotic manipulators by pid controllers
TL;DR: The most simple and the most popular PD, PID or PID-like controllers broadly used in robotics are analyzed in details and new results demonstrating in particular robustness of closed-loop systems with respect to uncertainty in model description are shown.
Journal ArticleDOI
A set of decentralized PID controllers for an n – link robot manipulator
G Leena,Goshaidas Ray +1 more
TL;DR: In this article, a class of stabilizing decentralized proportional integral derivative (PID) controllers for an n-link robot manipulator system is proposed, which is based on the gain-phase margin tester and Kharitonov's theorem that synthesizes a set of PID controllers for the linear model.
Comparison of Robustness of PID Control and Sliding Mode Control of Robotic Manipulator
TL;DR: Simulation study has been done in Matlab/Simulink environment shows that both the controllers are capable to control robot manipulator successfully and shows that Sliding Mode Control (SMC) produce better response compared to PID Control strategy when payload is changed.
Journal ArticleDOI
The efficiency of the inference system knowledge strategy for the position control of a robot manipulator with two degree of freedom
TL;DR: This work presents a new approach for a robot manipulator with two degrees of freedom bas ed on the Fuzzy Logic Controller to ensure the position robot contr ol strategy, the proposed control scheme is based o n nonlinear dynamic model derived using Lagrange-Euler formulation.