MAE 4180

MAE 4180

Course information provided by the Courses of Study 2016-2017.

Creating robots capable of performing complex tasks autonomously requires one to address a variety of different challenges such as sensing, perception, control, planning, mechanical design, and interaction with humans. In recent years many advances have been made toward creating such systems, both in the research community (different robot challenges and competitions) and in industry (industrial, military, and domestic robots). This course gives an overview of the challenges and techniques used for creating autonomous mobile robots. Topics include sensing, localization, mapping, path planning, motion planning, obstacle and collision avoidance, and multi-robot control.

When Offered Spring.

Prerequisites/Corequisites Prerequisite: MATLAB programming experience.

Outcomes
  • Students will understand and implement localization and mapping algorithms using different sensor modalities.
  • Be able to generate a path and the motion for a robot moving around an area with obstacles.
  • Understand the concepts of different approaches for motion planning such as roadmaps, feedback control and sampling based methods.
  • Understand and implement collision avoidance algorithms.
  • Be able to apply the tools learned in the class to physical robots.

View Enrollment Information

Syllabi: none
  •   Regular Academic Session.  Choose one lecture and one laboratory. Combined with: CS 3758MAE 5180

  • 3 Credits Graded

  • 17660 MAE 4180   LEC 001

  • 17661 MAE 4180   LAB 431

  • 17662 MAE 4180   LAB 441

  • 17663 MAE 4180   LAB 451