Search results for "INVERSE KINEMATICS"

showing 10 items of 25 documents

Inverse Kinematics for a 7 DOF Robotic Arm Using the Redundancy Circle and ANFIS Models

2014

In this paper we have presented a method to solve the inverse kinematics problem of a redundant robotic arm with seven degrees of freedom and a human like workspace based on mathematical equations, ANFIS implementation and Simulink models. For better visualization of the kinematics simulation a CAD model that mimics the real robotic arm was created into SolidWorks® and then the CAD parts were converted into SimMechanics model.

321 kinematic structureAdaptive neuro fuzzy inference systemEngineeringInverse kinematicsbusiness.industryCADGeneral MedicineKinematicsWorkspaceComputer Science::RoboticsControl theoryRedundancy (engineering)businessRobotic armAstrophysics::Galaxy AstrophysicsSimulationApplied Mechanics and Materials
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Another Approach for Redundancy Resolution of a 7 DOF Robotic Arm

2015

In this paper we have presented a method to solve the inverse kinematics problem of a redundant robotic arm with seven degrees of freedom and a human like workspace based on mathematical equations, Fuzzy Logic implementation and Simulink models. For better visualization of the kinematics simulation a CAD model that mimics the real robotic arm was created into SolidWorks® and then the CAD parts were converted into SimMechanics model.

321 kinematic structureEngineeringInverse kinematicsbusiness.industryControl engineeringCADGeneral MedicineWorkspaceKinematicsFuzzy logicComputer Science::RoboticsRedundancy (engineering)businessRobotic armAstrophysics::Galaxy AstrophysicsSimulationApplied Mechanics and Materials
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The inverse kinematics solutions of a 7 DOF robotic arm using Fuzzy Logic

2012

This paper focuses on modeling resolving and simulations of the inverse kinematics of an anthropomorphic redundant robotic structure with seven degrees of freedom and a workspace similar to human arm. Also the kinematical model and the kinematics equations of the robotic arm are presented. A method of resolving the redundancy of seven degrees of freedom robotic arm is presented using Fuzzy Logic toolbox from MATLAB®.

321 kinematic structureRobot kinematicsInverse kinematicsComputer scienceControl engineeringKinematicsFuzzy control systemWorkspaceFuzzy logicComputer Science::RoboticsControl theoryKinematics equationsRobotic armAstrophysics::Galaxy Astrophysics2012 7th IEEE Conference on Industrial Electronics and Applications (ICIEA)
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Inverse kinematics of a 7 DOF manipulator using Adaptive Neuro-Fuzzy Inference Systems

2012

This paper was carried out objectively to explore and describe the inverse kinematics solutions of an anthropomorphic redundant robotic structure with seven degrees of freedom and human like workspace. Traditional inverse kinematics methods can have an unacceptably slow pace for the today's extremely redundant systems. The presented method uses the Adaptive Neuro-Fuzzy Inference Systems (ANFIS) editor and the Fuzzy Logic toolbox from MATLAB® which allow the investigation of various kinematical suitable solutions. ANFIS supports the determination of one degree of freedom, remaining therefore only six undetermined degrees. For better understanding of the simulations a CAD model that mimics th…

Adaptive neuro fuzzy inference systemNeuro-fuzzyInverse kinematicsControl theoryComputer scienceDegrees of freedom (statistics)Control engineeringCADWorkspaceFuzzy logicRobotic arm2012 12th International Conference on Control Automation Robotics & Vision (ICARCV)
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Adaptive neuro-fuzzy inference system for kinematics solutions of redundant robots

2016

This written paper presents aspects concerning the implementation of the Adaptive Neuro-Fuzzy Inference System (ANFIS) in the resolution of a redundant serial robot kinematics. The kinematics solutions are divided into two categories: direct kinematics solutions and inverse kinematics solutions. To be able to control a robot the most important solutions are the ones for the inverse kinematics since one knows the position and the final orientation of the end effector and needs to determine the relative displacement or movements into the robot couplings. To obtain the optimal solutions for the inverse kinematics of a redundant robot the mathematical equations were based onto the redundancy ci…

Adaptive neuro fuzzy inference systemRobot kinematicsEngineeringInverse kinematicsbusiness.industryKinematicsRobot end effectorlaw.inventionRobot controlComputer Science::RoboticslawKinematics equationsControl theoryRobotbusinessComputingMethodologies_COMPUTERGRAPHICS2016 6th International Conference on Computers Communications and Control (ICCCC)
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Kinematic calibration method for a 5-DOF Gantry-Tau parallel kinematic machine

2013

In this paper a new step-wise approach to kinematic calibration of a 5-DOF Gantry-Tau parallel kinematic machine (PKM) is presented. The approach can be adapted to the modular design of the PKM and the calibration could easily perform part of the assembly instructions for the machine. By using measurements from a laser tracker and least-squares estimates of polynomial functions, a typical accuracy of about 20 micrometer was achieved for the base actuators. The remaining set of 30 general parameters for the hexapod link structure and spherical joint connections were successfully estimated using the Complex search-based evolutionary algorithm.

Computer Science::RoboticsHexapodRobot kinematicsRobot calibrationInverse kinematicsControl theoryCalibration (statistics)Laser trackerKinematic diagramComputingMethodologies_IMAGEPROCESSINGANDCOMPUTERVISIONKinematicsMathematics2013 IEEE International Conference on Robotics and Automation
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Dynamic analysis of a five degree of freedom robotic arm using MATLAB-Simulink Simscape

2021

In this paper, a dynamic analysis for a 5 degree of freedom (DOF) robotic arm with serial topology is presented. The dynamic model of the robot is based on importing a tri-dimensional CAD model of the robot into Simulink®-Simscape™-Multibody™. The dynamic model of the robot in Simscape is a necessary and important step in development of the mechanical structure of the robot. The correct choice of the electric motors is made according to the resistant joint torques determined by running the dynamic analysis. One can import complete CAD assemblies, including all masses, inertias, joints, constraints, and tri-dimensional geometries, into the model block. The first step for executing a dynamic …

Electric motorComputer Science::RoboticsInverse kinematicsControl theoryTorqueRobotCADKinematicsTA1-2040Optimal controlEngineering (General). Civil engineering (General)Robotic armMATEC Web of Conferences
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Kinematic Solutions of a 7 DOF Robotic Arm Using Redundancy Circle and Fuzzy Models

2014

In this paper we have presented a method to solve the inverse kinematics problem of a redundant robotic arm with seven degrees of freedom and a human like workspace based on mathematical equations, Fuzzy Logic implementation and Simulink models. For better visualization of the kinematics simulation a CAD model that mimics the real robotic arm was created into SolidWorks® and then the CAD parts were converted into SimMechanics model.

Engineering321 kinematic structureInverse kinematicsbusiness.industryCADControl engineeringGeneral MedicineWorkspaceKinematicsFuzzy logicComputer Science::RoboticsControl theoryRedundancy (engineering)businessRobotic armAstrophysics::Galaxy AstrophysicsApplied Mechanics and Materials
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Dynamic Analysis of a 7 DOF Robot Using Fuzzy Logic for Inverse Kinematics Problem

2019

Abstract In this paper, a dynamic analysis for a redundant, serial robot, with seven degrees of freedom is presented. The dynamic model of the robot is based on importing a tri-dimensional CAD model of the robot into MATLAB®, Simulink®-Simscape™-SimMechanics™. One can import complete CAD assemblies, including all masses, inertias, joints, constraints, and tri-dimensional geometries, into the model. The first step for executing a dynamic analysis is to resolve the Inverse Kinematics (IK) problem for the redundant robot. Because this type of robot has seven degrees of freedom the IK resolution implies an infinite number of solutions. So, to be able to resolve the IK for this kind of robot a F…

Inverse kinematicsComputer science020206 networking & telecommunications02 engineering and technologyOptimal controlFuzzy logicComputer Science::RoboticsControl theory0202 electrical engineering electronic engineering information engineeringGeneral Earth and Planetary SciencesRobotTorque020201 artificial intelligence & image processingGeneral Environmental ScienceProcedia Computer Science
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Measurement and storage of a network of jacobians as a method for the visual positioning of a robot arm

1996

The goal of this paper is to describe a method to position a robot arm at any visible point of a given workspace without an explicit on line use of the analytical form of the transformations between real space and camera coordinates (camera calibration) or between cartesian and joint coordinates (direct or inverse kinematics of the robot arm). The formulation uses a discrete network of points distributed all over the workspace in which a procedure is given to measure certain Jacobian matrices which represent a good local linear approximation to the unknown compound transformation between camera and joint coordinates. This approach is inspired by the biological observation of the vestibulo-o…

Inverse kinematicsRobot calibrationComputer sciencebusiness.industryMechanical EngineeringArm solutionIndustrial and Manufacturing Engineeringlaw.inventionComputer Science::Roboticssymbols.namesakeArtificial IntelligenceControl and Systems EngineeringPosition (vector)lawJacobian matrix and determinantsymbolsComputer visionCartesian coordinate systemArtificial intelligenceElectrical and Electronic EngineeringbusinessRobotic armSoftwareCamera resectioningJournal of Intelligent and Robotic Systems
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