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2019-02-18

2019-02-18

作者: guzuluo | 来源:发表于2019-02-22 19:49 被阅读0次

6CCS3ROS作业代做、代做Matlab程序设计作业、Matlab语言作业代写、代写Robotic Systems作业

Department of Informatics

King’s College London

Robotic Systems: 6CCS3ROS

COURSE WORK 1

FORWARD AND INVERSE KINEMATICS OF THE FANUC 120iB/10L

1. Introduction

The Fanuc ARC Mate 120iB/10L is one of the two models of robot manipulators belonging

to the series ARC Mate 120iB. Both robots in the family are 6R manipulators with decoupled

architecture. The ARC Mate 120iB series is a modular construction, electric servo-driven

family of robots designed for precise, high-speed welding and cutting. Based on their simple

and reliable construction, the ARC Mate 120iB and ARC Mate 120iB/10L provide accurate

and consistent path performance necessary for welding and cutting applications.

The forward and inverse kinematics play an essential role in robot analysis and programming.

It is only through the solution of these two problems that the robot manipulator can be

programmed to move through a trajectory, interact with its surroundings and develop the

required task. The solution of the forward and inverse kinematics problems are especially

simplified when the robot features a decoupled architecture, like in the case of the ARC Mate

120iB/10L robot manipulator.

2. Aim

The aim of this course work is to solve the forward and inverse kinematics for the Fanuc

ARC Mate 120iB/10L robot manipulator using Matlab. These results should be confirmed

using the model for this robot available in the Robotics toolbox (RTB) for Matlab. In addition,

using the functions provided by this toolbox, a program will be created which will allow the

end effector of the robot model to move through various linear displacements. The

dimensions of the robot are provided in this course work sheet

3. Report

Write a report in which you:

Provide a diagram of the robot indicating each of the coordinate systems required for

the analysis. The DH parameters for the robot, using these coordinate systems, should

be listed.

Present the solution for the forward and inverse kinematics problems in symbolic

form.

Provide the code for a Matlab program which is able to solve the forward kinematics

(the input are the values of the joint parameters and the output is the position and

orientation of the end effector) and a program which solves the inverse kinematics

(the input are the position and orientation of the end effector, the output are the values

for the joint parameters).

Prove that the solutions provided by these programs are correct for three different

inputs using the teach command of the RTB in Matlab. (NOTE: in this step consider

that the global coordinate system of the model from the toolbox can be different that

the one you chose).

Using the RTB provide the code for a Matlab program in which the end effector of the

robot manipulator undergoes the following movements starting from the home

position (x = 1.02m, y = 0, z = -1.06): a translation of 0.30 m in x, followed by a

translation of 0.70 m in y and, finally, a translation of 0.64 m in z. For this point use

either ikine() or ikine6s() functions from the RTB to compute the inverse

kinematics of the robot.

4. Report Requirement

The report should be well written and well presented.

o Very few typos/spelling/grammatical errors.

o Use proper figure labels and captions.

o Cite literature used as a basis of report.

o Present your findings in a logical and intelligent way.

The report should touch on the various aspects listed above.

The report should contain 15—20 pages of the main body of the report containing no

more than 10 figures. This page limit does not include title sheet, table of contents,

references or appendices. Additional figures may be presented in Appendices. Please

use Times New Roman, 12 pt. when preparing report, and use 1.5 line spacing.

5. Submission Deadline

28 February

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