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CZECH TECHNICAL UNIVERSITY IN PRAGUE
STUDY PLANS
2023/2024
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Robotics

The course is not on the list Without time-table
Code Completion Credits Range Language
AD3B33ROB Z,ZK 6 14KP+6KL Czech
Garant předmětu:
Lecturer:
Tutor:
Supervisor:
Department of Cybernetics
Synopsis:

Robotics is an integrating discipline designing and exploring machines with high degree of flexibility and autonomy. The subject introduces the discipline. It will briefly present broader context of robotics first and after that will teach students kinematics and statics of robots.

Requirements:

Delivery of all home assignments,

delivery of final report of practical assignment, demonstration of function of practical assignment.

More on:

http://cw.felk.cvut.cz/doku.php/courses/ae3b33rob/start

Syllabus of lectures:

1. Robotics, industrial robot and application areas.

2. Geometry in robotics, terminology, number of degrees of freedom (DOF), structure of the manipulator.

3. Coordinate systems, transformation of coordinates.

4. Kinematics of a serial and paralel robot, joint and Cartesian coordinates, direct and inverse kinematics problems.

5. Representation of rotation and translation in the space.

6. Denavit-Hartenberg convention.

7. Inverse kinematics problem and its solution for the robot with 6 DOF and spherical joint.

8. Differential kinematics. Jacobian of the manipulator.

9. Statics of the robot.

10. Singular states of the robot.

11. Precision and repeatibility of a robot.

12. Actuators and sensors of robots.

13. Analysis of a robotic problem and its solution with a robot.

14. Description and calibration of a mechanical system with complex geometry.

Syllabus of tutorials:

Part of the labs is dedicated to solution of the direct and inverse kinematics of several robots, from simple ones to the 6-DOF robots.

During rest of labs pairs of students solve practical exercise with the robots in the lab.

1. Introduction to laboratory assignments, MATLAB, a-test.

2. Correction of the a-test. MATLAB. Assignment 1: Transformations between Cartesian, cylindrical and spherical coordinates.

3. Transformations of coordinates while migrating between coordinate systems. Assignment 2: Transformation of the Cartesian coordinates.

4. Test 1: Transformation of Cartesian coordinates. Assignment 3: Problem on a real robot.

5. Assignment 4: Direct and inverse kinematics of a planar manipulator.

6. Description of a spatial manipulator in Denavit-Hartenberg notation. Assigment 5: Transformation between Euler angles and the rotation matrix.

7. Test 2: Denavit-Hartenberg notation, solution to direct and inverse kinematics problem for the manipulator with 3 DOFs. Assinment 6: Direct and inverse kinematics problem for the manipulator with 3 DOFs.

8. Solution to direct and inverse kinematics problem for a manipulator with 6 DOFs. Assignment 7: Direct and inverse kinematics problem for a manipulator with 6 DOFs.

9. Solving of the Assignment 3 on a real robot.

10. Solving of the Assignment 3 on a real robot in the open lab.

11. Solving of the Assignment 3 on a real robot in the open lab.

12. Solving of the Assignment 3 on a real robot in the open lab.

13. Solving of the Assignment 3 on a real robot in the open lab.

14. Solving of the Assignment 3 on a real robot in the open lab.

Study Objective:

The goal of the course is to introduce industrial robots and manipulators, their design, kinematics, statics, and control. The course is designed for future experts who will be able to control robot, design its electronics, and consult kinematical design. The ability to implement

geometry of the robot in programming language is emphasized.

Study materials:

H. Asada, J.-J. E. Slotine: Robot Analysis and Control. Wiley-Interscience, 1986.

Note:
Further information:
http://cw.felk.cvut.cz/doku.php/courses/ad3b33rob/start
No time-table has been prepared for this course
The course is a part of the following study plans:
Data valid to 2024-03-27
Aktualizace výše uvedených informací naleznete na adrese https://bilakniha.cvut.cz/en/predmet1215106.html