ECE 56900 - Introduction to Robotic SystemsLecture Hours: 3 Credits: 3
Normally Offered: Each Fall
ECE 38200 or 48300
The topics to be covered include: basic components of robotic systems; selection of coordinate frames; homogeneous transformations; solutions to kinematic equations; velocity and force/torque relations; manipulator dynamics in Lagrange's formulation; digital simulation of manipulator motion; motion planning; obstacle avoidance; controller design using the computed torque method; and classical controllers for manipulators.
- Fundamentals for Control of Robotic Manipulators, A.J. Koivo, J. Wiley & Sons, Inc., 1989, ISBN No. 0-471-85714-9.
Recommended Text(s): None.
|1||1. Introduction A. Uses of robotic manipulators (0.5) B. Components of robotic systems (0.5)|
|3||2. Kinematics of Manipulators A. Selection of coordinate frames (0.5) B. Transformation matrices (1.5) C. Calculation of inverse solutions (1.0)|
|2||3. Velocities, Forces, Torques in Joint and Base Coordinates A. Differential motion (1) B. Velocity relations (0.5) C. Determination of forces, torques in a manipulator (0.5)|
|2||4. Dynamic Modelling A. Lagrange's energy expressions for a manipulator (1) B. Lagrange's equation of motion (1) C. Digital simulation of manipulator model|
|2||5. Trajectory Planning A. Joint trajectory (1) B. Cartesian path (1)|
|1.5||6. Path Control of Manipulator A. Classical system design (0.5) B. PID-controller design (0.5) C. Force-torque control (0.5)|
|2||7. Special Topics|