Computational and Robotic Models of the Hierarchical Organization of Behavior

Dr. Gianluca Baldassarre is a Researcher at the Institute of Cognitive Sciences and Technologies (ISTC) of the Italian National Research Council (CNR) where he is a member of the Laboratory of Computational Embodied Neuroscience; his research interests include computational embodied neuroscience, psychology, neuroscience, developmental robotics, artificial life, and machine learning. Dr. Marco Mirolli is a Researcher at the Institute of Cognitive Sciences and Technologies (ISTC) of the Italian National Research Council (CNR) where he is a member of the Laboratory of Computational Embodied Neuroscience Laboratory; his research interests lie in the study of behavior through computer simulations, in particular the evolution of communication and language, the role of language as a cognitive tool, the biological bases of motivations and emotions, and the role of intrinsic motivations in cumulative learning.

Chap. 1 - Computational and Robotic Models of the Hierarchical Organization of Behavior: An Overview.- Chap. 2 - Behavioral Hierarchy: Exploration and Representation.- Chap. 3 - Self-organized Functional Hierarchy Through Multiple Timescales: Neurodynamical Accounts for Behavioral Compositionality.- Chap. 4 - Autonomous Representation Learning in a Developing Agent.- Chap. 5 - Hierarchies for Embodied Action Perception.- Chap. 6 - Learning and Coordinating Repertoires of Behaviors with Common Reward: Credit Assignment and Module Activation.- Chap. 7 - Modular, Multimodal Arm Control Models.- Chap. 8 - Generalization and Interference in Human Motor Control.- Chap. 9 - A Developmental Framework for Cumulative Learning Robots.- Chap. 10 - The Hierarchical Accumulation of Knowledge in the Distributed Adaptive Control Architecture.- Chap. 11 - The Hierarchical Organization of Cortical and Basal Ganglia Systems: A Computationally Informed Review and Integrated Hypothesis.- Chap. 12 - Divide and Conquer: Hierarchical Reinforcement Learning and Task Decomposition in Humans.- Chap. 13 - Neural Network Modelling of Hierarchical Motor Function in the Brain.- Chap. 14 - Restoring Purpose in Behavior.