Data Mining for Social Robotics
Toward Autonomously Social Robots
Yasser Mohammad author Toyoaki Nishida author
Format:Hardback
Publisher:Springer International Publishing AG
Published:10th Feb '16
Currently unavailable, and unfortunately no date known when it will be back
This book explores an approach to social robotics based solely on autonomous unsupervised techniques and positions it within a structured exposition of related research in psychology, neuroscience, HRI, and data mining. The authors present an autonomous and developmental approach that allows the robot to learn interactive behavior by imitating humans using algorithms from time-series analysis and machine learning.
The first part provides a comprehensive and structured introduction to time-series analysis, change point discovery, motif discovery and causality analysis focusing on possible applicability to HRI problems. Detailed explanations of all the algorithms involved are provided with open-source implementations in MATLAB enabling the reader to experiment with them. Imitation and simulation are the key technologies used to attain social behavior autonomously in the proposed approach. Part two gives the reader a wide overview of research in these areas in psychology, and ethology. Based on this background, the authors discuss approaches to endow robots with the ability to autonomously learn how to be social.
Data Mining for Social Robots will be essential reading for graduate students and practitioners interested in social and developmental robotics.
“This comprehensive work focuses on human-robot interaction (HRI) using data mining and time series analysis. … In general, this book includes rich knowledge in social robot study using data mining tools. … It’s a nice book for graduate students and practitioners to dive deeper into HRI. Personally, this book led me to rethink the learning processes and interaction manners of humans, which is a rather interesting journey.” (Feng Yu, Computing Reviews, March, 2017)
ISBN: 9783319252308
Dimensions: unknown
Weight: 6328g
328 pages
1st ed. 2015