Humanoid robots are highly sophisticated machines equipped with human-like sensory and motor capabilities. Today we are on the verge of a new era of rapid transformations in both science and engineeringone that brings together technological advancements in a way that will accelerate both neuroscience and robotics. Humanoid Robotics and Neuroscience: Science, Engineering and Society presents the contributions of prominent scientists who explore key aspects of the further potential of these systems.
Topics include:
Neuroscientific research findings on dexterous robotic hand control
Humanoid vision and how understanding the structure of the human eye can lead to improvements in artificial vision
Humanoid locomotion, motor control, and the learning of motor skills
Cognitive elements of humanoid robots, including the neuroscientific aspects of imitation and development
The impact of robots on society and the potential for developing new systems and devices to benefit humans
The use of humanoid robotics can help us develop a greater scientific understanding of humans, leading to the design of better engineered systems and machines for society. This book assembles the work of scientists on the cutting edge of robotic research who demonstrate the vast possibilities in this field of research.
| Series Preface |
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| The Editor |
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| Contributors |
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SECTION I Humanoid Robotics Perspective to Neuroscience |
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Chapter 1 Humanoid Robotics and Neuroscience: Science Engineering, and Society |
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Chapter 2 Humanoid Brain Science |
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SECTION II Emulating the Neuro-Mechanisms with Humanoid Robots |
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Chapter 3 Hands, Dexterity, and the Brain |
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Chapter 4 Stochastic Information Processing that Unifies Recognition and Generation of Motion Patterns: Toward Symbolical Understanding of the Continuous World |
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Chapter 5 Fovea] Vision for Humanoid Robots |
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Chapter 6 Representation and Control of the Task Space in Humans and Humanoid Robots |
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Chapter 7 Humanoid Locomotion and the Brain |
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Chapter 8 Humanoid Motor Control: Dynamics and the Brain |
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SECTION III Leaping Forward: Toward Cognitive |
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Chapter 9 Learning from Examples: Imitation Learning and Emerging Cognition |
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233 | (18) |
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Chapter 10 Toward Language: Vocalization by Cognitive Developmental Robotics |
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251 | (24) |
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| Index |
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Gordon Cheng is the chair, founder, and director of the Institute for Cognitive Systems at the Technical University of Munich. From 20022008, he was the head of the Department of Humanoid Robotics and Computational Neuroscience, ATR Computational Neuroscience Laboratories, Kyoto, Japan. His research interests include humanoid robotics, cognitive systems, neuroengineering, real-time network robot control, brainmachine interfaces, biomimetics of human vision, computational neuroscience of vision, action understanding, humanrobot interaction, active vision, mobile robot navigation, and object-oriented software construction.
Lisainfo e-raamatute kohta