Table of Contents
SECTION I INTRODUCTION
Introduction
Human-Robot Interactions: An Overview
Modes of Interactions
Robot Behavior System
Design Objectives
System Evaluation
Outline of the Book
Framework
Multi-Agent Framework
Agent Behavior Design and Architecture
Conclusion
SECTION II THEORY
Safety during Human-Robot Interactions
Overview
Safety-Oriented Behavior Design
Safe Set Algorithm
Safe Exploration Algorithm
An Integrated Method for Safe Motion Control
Conclusion
Efficiency in Real-Time Motion Planning
Overview
Problem Formulation
Optimization-Based Trajectory Planning
Optimization-Based Speed Profile Planning
Optimization-Based Layered Planning
Conclusion
Imitation: Mimicking Human Behavior
Overview
Imitation for Prediction
Imitation for Action
Conclusion
Dexterity: Analogy Learning to Expand Robot Skill Sets
Overview
Concept of Analogy Learning
Advantages of Analogy Learning
Structure Preserved Registration for Analogy Learning
Experimental Study
Conclusion
Cooperation: Conflict Resolution during Interactions
Overview
Dynamics of Multi-Agent Systems
Cooperation under Information Asymmetry
Conflict Resolution through Communication
Conclusion
SECTION III APPLICATIONS
Human-Robot Co-existence: Space-Sharing Interactions
Overview
Robot Safe Interaction System for Industrial Robots
Robustly-Safe Automated Driving System
Conclusion
Robot Learning from Human: Hierarchical Interactions
Overview
Remote Lead Through Teaching for Implementing Imitation Learning
Robotic Grasping by Analogy Learning
Robotic Motion Re-planning by Analogy Learning
Conclusion
Human-Robot Collaboration: Time-Sharing Interactions
Human-Robot Collaboration in Manufacturing
Safe and Efficient Robot Collaborative System
Experimental Study
Conclusion
SECTION IV CONCLUSION
Vision for Future Robotics and Human-Robot Interactions
Roadmap to the Future
Conclusion of the Book
References
Index