COMPGX01 - Robotic Systems Engineering
This database contains the 2017-18 versions of syllabuses. Syllabuses from the 2016-17 session are available here.
Note: Whilst every effort is made to keep the syllabus and assessment records correct, the precise details must be checked with the lecturer(s).
|Taught By||Danail Stoyanov (100%)|
|Aims||The students will gain an introductory overview of robotics and autonomous systems. Technically they will gain an understanding of the concepts and principles of ROS, the underpinning software development environment for robot systems, through a number of example applications, leading to the capability of using ROS for advanced robot control, navigation, sensing and verification.|
Students successfully completing the module should understand:
- This module gives an overview of robotics in practice and research. Topics covered include motion planning, mobile mechanisms, kinematics, inverse kinematics, and sensors. The course will also expose students to some of the contemporary happenings in robotics, which includes current robot lab research, applications, robot contests and robots in the news and in industry. Other specific content in the course includes:
- - Foundations and principles of robotic kinematics including transformations, forward kinematics. inverse kinematics. differential kinematics, manipulability. and basic equations of motion.
- - Implementation of robotic standards within industry
Method of Instruction
The module is delivered through a combination of lectures and lab classes.
The course has the following assessment components:
- Coursework (100%)
To pass this course, students must:
- Obtain an overall pass mark of 50% for all sections combined.
Reading list available via the UCL Library catalogue.