Advanced Robotics

General Data
Academic program	Incoming Exchange Student Courses			Module Manager(s) : GIBERT Guillaume
EC Type : Lectures	Advanced Robotics (LIIExp07EAdvRobotics)
Tutorials : 12h00 Lab Work : 12h00 Lectures : 12h00 Individual work : 24h00 Total duration: 60h00	Status Obligatoire	Period Semester 7_Robotic And Automation	Teaching language : English

General objectives
By the end of this course, students will be able to: 1. Control simple robotic architectures (either mobile or arm) 2. Understand the stakes of robotics in terms of industry and society 3. Choose the adequate robotic solution for the context 4. Perform a full kinematic analysis of any robotic system 5. Perform a full dynamic analysis of any robotic system 6. Learn to program a robotic system (mobile and arm) using ROS (Robotic Operating System) 7. Avoid singularities by computing the numerical Jacobian 8. Develop good programming practices (documentation, test, git/gitflow)

General objectives

By the end of this course, students will be able to:
1. Control simple robotic architectures (either mobile or arm)
2. Understand the stakes of robotics in terms of industry and society
3. Choose the adequate robotic solution for the context
4. Perform a full kinematic analysis of any robotic system
5. Perform a full dynamic analysis of any robotic system
6. Learn to program a robotic system (mobile and arm) using ROS (Robotic Operating System)
7. Avoid singularities by computing the numerical Jacobian
8. Develop good programming practices (documentation, test, git/gitflow)

Content
-Numerical Jacobian, singularity avoidance -Trajectory and path planning for robot arms -Performance evaluation : accuracy, precision, load, repeatability, workspace -Dynamics of a robot arm (inertia, Coriolis) -Visual servoing -Programming a robotic arm and a mobile robot

Corequis
-Introduction to Robotics -Sensing & perception -Signal processing -Control theory 1

Bibliographie
Essential resources: None Recommended resources: Corke P. (2011) Robotics, Vision and Control. Springer Tracts in Advanced Robotics, vol 73. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-642-20144-8_15 Springer Handbook of Robotics, Sciliano B, Khatib O., Springer International Publishing Robotics: Theory and Industrial Applications, 2nd Edition, Ross L. T., Fardo S W, Masterson J. W., Towers R. L., Goodheart-Willcox; 2 edition (April 14, 2010)

Bibliographie

Essential resources: None
Recommended resources:
Corke P. (2011) Robotics, Vision and Control. Springer Tracts in Advanced Robotics, vol 73. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-642-20144-8_15
Springer Handbook of Robotics, Sciliano B, Khatib O., Springer International Publishing
Robotics: Theory and Industrial Applications, 2nd Edition, Ross L. T., Fardo S W, Masterson J. W., Towers R. L., Goodheart-Willcox; 2 edition (April 14, 2010)