Robotics: Locomotion Engineering

edX Robotics: Locomotion Engineering

Platform
edX
Provider
University of Pennsylvania
Effort
8 to 10 hours per week
Length
12 weeks
Language
English
Credentials
Paid Certificate Available
Part of
MicroMasters Program: Robotics
Course Link
Overview
How do robots climb stairs, traverse shifting sand and navigate through hilly and rocky terrain?

This course, part of the Robotics MicroMasters program, will teach you how to think about complex mobility challenges that arise when robots are deployed in unstructured human and natural environments.

You will learn how to design and program the sequence of energetic interactions that must occur between sensors and mechanical actuators in order to ensure stable mobility. We will expose you to underlying and still actively developing concepts, while providing you with practical examples and projects.

What you'll learn
  • The design and analysis of agile, bioinspired, sensorimotor systems
  • How to develop simplified models of complex dynamic systems
  • Ways to utilize simplified models to achieve dynamical mobility tasks
Syllabus
Week 1: Big-Picture Motivation
Week 2: A Linear Time Invariant Mechanical System
Week 3: A Nonlinear Time Invariant Mechanical System
Week 4: Project #1: A Brachiating Robot
Week 5: Qualitative Theory of Dynamical Systems
Week 6: First Locomotion Model
Week 7: A Vertical Hopping Controller
Week 8: Project #2: From Bouncing Ball to Stable Hopper
Week 9: The Spring Loaded Inverted Pendulum (SLIP)
Week 10: Stepping Control of Fore-aft Speed
Week 11: Project #3: Anchoring SLIP in Multi-Jointed Mechanisms
Week 12: Project #4: A Running Controller for the Jerboa Robot

Taught by
Dan Koditschek
Author
edX
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