Robot Mechanics, Modelling, and Simulation
2022/2023
Content, progress and pedagogy of the module
Learning objectives
Knowledge
- Fundamental aspects related to robot kinematics
- Methods of how to make spatial description of objects
- Basic methodologies for kinematic modelling of robot manipulators
- Principles for kinematic robot simulation
- Transforming task description to robot movements
Skills
- Apply homogeneous transformation matrices to represent position and orientation of objects
- Setup the direct and inverse kinematics of a robot
- Design simple trajectory planners, including Cartesian and joint interpolators
- Program an industrial robot to carry out various production tasks
- Transform the task space descriptions to robot movements
- Simulate the kinematic behaviour of a robot
Competences
- Must be able to program a robot so that the desired kinematic behaviour is obtained.
- Must be able to simulate the kinematics of a robot
- Must be able to solve simple production tasks with an industrial robot.
Type of instruction
See the general description of the types of instruction described in the introduction to Chapter 3.
Exam
Exams
| Name of exam | Robot Mechanics, Modelling, and Simulation |
| Type of exam | Written or oral exam |
| ECTS | 5 |
| Assessment | 7-point grading scale |
| Type of grading | Internal examination |
| Criteria of assessment | The criteria of assessment are stated in the Examination Policies and Procedures |
Facts about the module
| Danish title | Robot kinematic, modellering og simulering |
| Module code | ESNROBB2K1 |
| Module type | Course |
| Duration | 1 semester |
| Semester | Spring
|
| ECTS | 5 |
| Language of instruction | English |
| Empty-place Scheme | Yes |
| Location of the lecture | Campus Aalborg |
| Responsible for the module |
Organisation
| Study Board | Study Board of Electronics and IT |
| Department | Department of Electronic Systems |
| Faculty | The Technical Faculty of IT and Design |
