Living machines

Herausgeber: Prescott, Tony J.

• Gebundenes Buch

Produktbeschreibung

Contemporary research in the field of robotics attempts to harness the versatility and sustainability of living organisms with the hope of rendering a renewable, adaptable, and robust class of technology that can facilitate self-repairing, social, and moral-even conscious-machines. This landmark volume surveys this flourishing area of research.

Produktdetails

• Verlag: Oxford University Press
• Seitenzahl: 654
• Erscheinungstermin: 23. August 2012
• Englisch
• Abmessung: 260mm x 183mm x 39mm
• Gewicht: 1400g
• ISBN-13: 9780199674923
• ISBN-10: 0199674922
• Artikelnr.: 50905688

Autorenporträt

Tony Prescott is Professor of Cognitive Robotics at the University of Sheffield, UK, and Director of Sheffield Robotics, a cross-disciplinary research institute with over one hundred and fifty researchers (www.sheffieldrobotics.ac.uk). His background mixes psychology, neuroethology, and brain theory with robotics and artificial intelligence, and his research aims at answering questions about human nature by creating synthetic entities with capacities such as perception, memory, emotion, and sense of self. He is the co-creator of the mammal-like robots Scratchbot and Shrewbot, and is the co-founder of the UK company Consequential Robotics (www.consequentialrobotics.com ) that is developing assistive and companion robots including the animal-like robot 'pet' MiRo. He co-founded the International Living Machines conference series and also writes and speaks on societal and ethical issues in technology and the brain sciences. Nathan Lepora is a Senior Lecturer in Engineering Mathematicss at the University of Bristol, UK, and leads the Tactile Robotics Theme at Bristol Robotics Laboratory. His research interests span robotics, neuroscience, and biomimetics, focusing on the design of novel 3D-printed dexterous tactile robotic hands and sensors that can intelligently perceive, explore, and manipulate their environment. His team's research is supported by EPSRC and a Leverhulme Leadership Award, has won several international awards in robotics, and is on display in the Science Museum, London. He has authored over 60 academic publications, edited several proceedings, including three Living Machines conference volumes, and also written eight books for children on science and technology. Paul Verschure is a research professor with the Catalan Institute of Advanced Studies and Director of the Neuroengineering program at the Catalan Institute for Bioengineering. Paul trained in Psychology and his scientific aim is to find a unified theory of mind and brain using synthetic methods and to apply it to quality of life enhancing technologies. He has advanced a theory of mind and brain, Distributed Adaptive Control, which has led to a novel neurorehabilitation approach called the Rehabilitation Gaming System (eodyne.com). He also explores new methods for the exploration of complex data (brainx3.com) that is being tested on data from the human brain. Complementary to his science, Paul has developed and deployed over 25 art installations (http://specs.upf.edu/installations) from interactive spaces to BCI orchestras, robot Theremin soloists and virtual/augmented reality installations and tools for the holocaust memorial sites (futurememoryfoundation.org).

Inhaltsangabe

* Section I: Roadmaps
* 1: Tony J. Prescott and Paul F. M. J. Verschure: Living Machines: an
Introduction
* 2: Paul F. M. J. Verschure and Tony J. Prescott: A Living Machines
Approach to the Sciences of Mind and Brain
* 3: Nathan F. Lepora, Paul Verschure, and Tony J. Prescott: A Roadmap
for Living Machines
* Section II: Life
* 4: Tony J. Prescott: Life
* 5: Stuart P. Wilson: Self-Organization
* 6: I. A. Ieropoulos, P. Ledezma, G. Scandroglio, C. Melhuish, and J.
Greenman: Energy and Metabolism
* 7: Matthew S. Moses and Gregory S. Chirikjian: Reproduction
* 8: Tony J. Prescott and Leah Krubitzer: Evo-devo
* 9: Barbara Mazzolai: Growth and tropism
* 10: Julian Vincent: Biomimetic Materials
* 11: Josh Bongard: Modeling Self and Others
* 12: Terrence W. Deacon: Towards a general theory of evolution
* Section III: Building Blocks
* 13: Nathan F. Lepora: Building blocks
* 14: Piotr Dudek: Vision
* 15: Leslie S. Smith: Audition
* 16: Nathan F. Lepora: Touch
* 17: Tim C. Pearce: Chemosensation
* 18: Minoru Asada: Proprioception and Body Schema
* 19: Frédéric Boyer and Vincent Lebastard: Electric Sensing for
Underwater Navigation
* 20: Iain A. Anderson and Benjamin M. O'Brien: Muscles
* 21: Allen Selverston: Rhythms and Oscillations
* 22: Changhyun Pang, Chanseok Lee, Hoon-Eui Jeong, and Kahp-Yang Suh:
Skin and Dry Adhesion
* Section IV: Capabilities
* 23: Paul F.M.J. Verschure: Capabilities
* 24: Holk Cruse and Malte Schilling: Pattern Generation
* 25: Joel Z. Leibo and Tomaso Poggio: Perception
* 26: Ivan Herreros: Learning and Control
* 27: Ben Mitchinson: Attention and Orienting
* 28: Nathan F. Lepora: Decision Making
* 29: Ugur Murat Erdem, Nicholas Roy, John Joseph Leonard, and Michael
E. Hasselmo: Spatial and Episodic Memory
* 30: Mark R. Cutkosky: Reach, Grasp, and Manipulate
* 31: Hartmut Witte, Martin S. Fischer, Holger Preuschoft, Danja Voges,
Cornelius Schilling, and Auke Jan Ijspeert: Quadruped Locomotion
* 32: Anders Hedenström: Flight
* 33: Robert H. Wortham and Joanna J. Bryson: Communication
* 34: Vicky Vouloutsi and Paul F. M. J Verschure: Emotions and
Self-Regulation
* 35: Paul F.M.J. Verschure: The Architecture of Mind and Brain
* 36: Paul F.M.J. Verschure: A Chronology of Distributed Adaptive
Control
* 37: Anil K. Seth: Consciousness
* Section V: Living machines
* 38: Tony J. Prescott: Biomimetic Systems
* 39: Christof Mast, Friederike Möller, Moritz Kreysing, Severin
Schink, Benedikt Obermayer, Ulrich Gerland, and Dieter Braun: Towards
Living Nanomachines
* 40: Akio Ishiguro and Takuya Umedachi: From Slime Moulds to
Deformable Bodies
* 41: Barry Trimmer: Soft-bodied Terrestrial Invertebrates and Robots
* 42: Roger D. Quinn and Roy E. Ritzmann: Applying Principles and
Mechanisms Learned from Insects to Robotics
* 43: Stefano Nolfi: Co-operation in Collective Systems
* 44: Maarja Kruusmaa: From Aquatic Animals to Robot Swimmers
* 45: Tony J. Prescott: Mammals and Mammal-like Robots
* 46: Wolfgang Send: Winged artifacts
* 47: Giorgio Metta and Roberto Cingolani: Humans and Humanoids
* Section VI: Biohybrid Systems
* 48: Nathan F. Lepora: Biohybrid Systems
* 49: Girijesh Prasad: Brain-machine interfaces
* 50: Stefano Vassanelli: Implantable Neural Interfaces
* 51: Joseph Ayers: Biohybrid Robots are Synthetic Biology Systems
* 52: Toshio Fukuda, Masahiro Nakajima, Masaru Takeuchi, and Yasuhisa
Hasegawa: Micro and Nanotechnology for Living Machines
* 53: Sliman J. Bensmaia: Biohybrid Touch Interfaces
* 54: Torsten Lehmann and André van Schaik: Implantable Hearing
Interfaces
* 55: Dong Song and Theodore W. Berger: Hippocampal Memory Prostheses
* Section VII: Perspectives
* 56: Michael Szollosy: Perspectives
* 57: James Hughes: Human Augmentation and the Age of the Transhuman
* 58: Charles Lenay and Matthieu Tixier: From Sensory Substitution to
Perceptual Supplementation
* 59: Belén Rubio Ballester: Neurorehabilitation
* 60: Abigail Millings and Emily C. Collins: Human Relationships with
Living Machines
* 61: Michael Szollosy: Living Machines in our Cultural Imagination
* 62: Hannah Maslen and Julian Savulescu: The Ethics of Virtual Reality
and Telepresence
* 63: David J. Gunkel: Can Machines have Rights?
* 64: Anna Mura and Tony J. Prescott: A Sketch of the Education
Landscape in Biomimetic and Biohybrid Systems
* 65: José Halloy: Sustainability of Living Machines