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Ashley King, D. Bjorklund (2010)
Evolutionary developmental psychology.Psicothema, 22 1
A. Cangelosi, G. Metta, G. Sagerer, S. Nolfi, Chrystopher Nehaniv, K. Fischer, J. Tani, Tony Belpaeme, G. Sandini, F. Nori, L. Fadiga, B. Wrede, K. Rohlfing, E. Tuci, K. Dautenhahn, J. Saunders, Arne Zeschel (2010)
Integration of Action and Language Knowledge: A Roadmap for Developmental RoboticsIEEE Transactions on Autonomous Mental Development, 2
F. Bellas, R. Duro, A. Faíña, Daniel Souto (2010)
Multilevel Darwinist Brain (MDB): Artificial Evolution in a Cognitive Architecture for Real RobotsIEEE Transactions on Autonomous Mental Development, 2
Jun Zhang, Zhi-hui Zhan, Ying Lin, Ni Chen, Yue-jiao Gong, J. Zhong, H. Chung, Yun Li, Yu-hui Shi (2011)
Evolutionary Computation Meets Machine Learning: A SurveyIEEE Computational Intelligence Magazine, 6
M. Hülse, S. McBride, J. Law, Mark Lee (2010)
Integration of Active Vision and Reaching From a Developmental Robotics PerspectiveIEEE Transactions on Autonomous Mental Development, 2
D. Floreano, F. Mondada (1996)
Evolution of homing navigation in a real mobile robotIEEE transactions on systems, man, and cybernetics. Part B, Cybernetics : a publication of the IEEE Systems, Man, and Cybernetics Society, 26 3
H. Ishiguro, T. Minato, Y. Yoshikawa, M. Asada (2011)
Humanoid Platforms for Cognitive Developmental RoboticsInt. J. Humanoid Robotics, 8
Gregory Webster (2007)
Evolutionary Theory in Cognitive Neuroscience: A 20-Year Quantitative Review of Publication TrendsEvolutionary Psychology, 5
B. Baars, N. Gage (2007)
Cognition, Brain, and Consciousness: Introduction to Cognitive Neuroscience
Jean-Baptiste Mouret, S. Doncieux (2012)
Encouraging Behavioral Diversity in Evolutionary Robotics: An Empirical StudyEvolutionary Computation, 20
I. Harvey (2013)
SmartData : privacy meets evolutionary robotics
T. Ziemke, N. Bergfeldt, Gunnar Búason, Tarja Susi, Henrik Svensson (2004)
Evolving cognitive scaffolding and environment adaptation: a new research direction for evolutionary roboticsConnection Science, 16
Sylvain Koos, Jean-Baptiste Mouret, S. Doncieux (2013)
The Transferability Approach: Crossing the Reality Gap in Evolutionary RoboticsIEEE Transactions on Evolutionary Computation, 17
Mark Lee, Q. Meng, Fei Chao (2007)
Staged Competence Learning in Developmental RoboticsAdaptive Behavior, 15
Jianhua Yang, Yabo Liu, Zhaohui Wu, Min Yao (2012)
The Evolution of Cooperative Behaviours in Physically Heterogeneous Multi-robot SystemsInternational Journal of Advanced Robotic Systems, 9
Mark Lee, Q. Meng, Fei Chao (2007)
Developmental learning for autonomous robotsRobotics Auton. Syst., 55
D. Geary (2006)
Evolutionary developmental psychology: Current status and future directionsDevelopmental Review, 26
W. Arthur (2004)
The effect of development on the direction of evolution: toward a twenty‐first century consensusEvolution & Development, 6
I. Harvey, E. Paolo, Rachel Wood, M. Quinn, E. Tuci (2005)
Evolutionary Robotics: A New Scientific Tool for Studying CognitionArtificial Life, 11
T. Weise, R. Chiong, K. Tang (2012)
Evolutionary Optimization: Pitfalls and Booby TrapsJournal of Computer Science and Technology, 27
K. Merrick (2010)
Modeling Behavior Cycles as a Value System for Developmental RobotsAdaptive Behavior, 18
R. Doursat, Hiroki Sayama, Olivier Michel (2013)
A review of morphogenetic engineeringNatural Computing, 12
J. Weng (2004)
Developmental Robotics: Theory and ExperimentsInt. J. Humanoid Robotics, 1
M. Sipper, E. Sanchez, D. Mange, M. Tomassini, A. Pérez-Uribe, A. Stauffer (1997)
A phylogenetic, ontogenetic, and epigenetic view of bio-inspired hardware systemsIEEE Trans. Evol. Comput., 1
T. Elliott, N. Shadbolt (2003)
Developmental robotics: manifesto and applicationPhilosophical Transactions of the Royal Society of London. Series A: Mathematical, Physical and Engineering Sciences, 361
J. Weng, James McClelland, A. Pentland, O. Sporns, I. Stockman, M. Sur, E. Thelen (2001)
Autonomous Mental Development by Robots and AnimalsScience, 291
Jérôme Kodjabachian, Jean-Arcady Meyer (1994)
Development, learning and evolution in animatsProceedings of PerAc '94. From Perception to Action
(2011)
Author manuscript, published in "Journal of Intelligent & Robotic Systems (2011)" Journal of Intelligent and Robotic Systems manuscript No. (will be inserted by the editor) Speciation in Behavioral Space for Evolutionary Robotics
J. Kober, J. Bagnell, Jan Peters (2013)
Reinforcement learning in robotics: A surveyThe International Journal of Robotics Research, 32
M. Asada, K. Macdorman, H. Ishiguro, Y. Kuniyoshi (2001)
Cognitive developmental robotics as a new paradigm for the design of humanoid robotsRobotics Auton. Syst., 37
S. Nolfi, D. Floreano (2000)
Evolutionary Robotics: The Biology,Intelligence,and Technology
A. Stoytchev (2009)
Some Basic Principles of Developmental RoboticsIEEE Transactions on Autonomous Mental Development, 1
Yaochu Jin, Y. Meng (2011)
Morphogenetic Robotics: An Emerging New Field in Developmental RoboticsIEEE Transactions on Systems, Man, and Cybernetics, Part C (Applications and Reviews), 41
K. Jong (2007)
Evolutionary computation - a unified approach
Yaochu Jin, Y. Meng (2011)
Morphogenetic Robotics - An Evolutionary Developmental Approach to Morphological and Neural Self-Organization of Robotic Systems
Mohamed Abdessemed, A. Bilami (2010)
Evolutionary research of optimal strategies for exclusive positioned clustering in simulated environment of collective roboticsRobotics Auton. Syst., 58
Jean-Arcady Meyer, P. Husbands, I. Harvey (1998)
Evolutionary Robotics: A Survey of Applications and Problems
D. Vernon, G. Metta, G. Sandini (2007)
A Survey of Artificial Cognitive Systems: Implications for the Autonomous Development of Mental Capabilities in Computational AgentsIEEE Transactions on Evolutionary Computation, 11
P. Holland (1999)
The future of evolutionary developmental biologyNature, 402
Yilu Zhang, J. Weng (2007)
Task Transfer by a Developmental RobotIEEE Transactions on Evolutionary Computation, 11
G. Croon, L. O'Connor, C. Nicol, D. Izzo (2013)
Evolutionary robotics approach to odor source localizationNeurocomputing, 121
G. Parker (2000)
Co-evolving model parameters for anytime learning in evolutionary roboticsRobotics Auton. Syst., 33
I. Harvey, P. Husbands, D. Cliff, A. Thompson, N. Jakobi (1997)
Evolutionary robotics: the Sussex approachRobotics Auton. Syst., 20
M. Li, Minghai Yao (2013)
Cognitive Developmental Grasp Robots: From Infant Development to Computational ModelingAdvanced Materials Research, 706-708
R. Watson, S. Ficici, J. Pollack (2002)
Embodied Evolution: Distributing an evolutionary algorithm in a population of robotsRobotics Auton. Syst., 39
M. Mucientes, D. Moreno, Alberto Bugarín-Diz, S. Barro (2006)
Evolutionary learning of a fuzzy controller for wall-following behavior in mobile roboticsSoft Computing, 10
S. Platek, J. Keenan, T. Shackelford (2006)
Evolutionary Cognitive Neuroscience
J. Zagal, Javier Ruiz-del-Solar (2007)
Combining Simulation and Reality in Evolutionary RoboticsJournal of Intelligent and Robotic Systems, 50
A. Nelson, E. Grant (2006)
Developmental Analysis in Evolutionary Robotics2006 IEEE Mountain Workshop on Adaptive and Learning Systems
S. Nolfi (1997)
Evolving non-trivial behaviors on real robots: A garbage collecting robotRobotics Auton. Syst., 22
H. Kitano (2002)
Computational systems biologyNature, 420
D. Floreano, J. Urzelai (2000)
Evolutionary robots with on-line self-organization and behavioral fitnessNeural networks : the official journal of the International Neural Network Society, 13 4-5
M. Lungarella, G. Metta, R. Pfeifer, G. Sandini (2003)
Developmental robotics: a surveyConnection Science, 15
C. Lyon, Yo Sato, J. Saunders, Chrystopher Nehaniv (2009)
What is Needed for a Robot to Acquire Grammar? Some Underlying Primitive Mechanisms for the Synthesis of Linguistic AbilityIEEE Transactions on Autonomous Mental Development, 1
J. Weng, Wey-Shiuan Hwang (2006)
From neural networks to the brain: autonomous mental developmentIEEE Computational Intelligence Magazine, 1
P. Vargas, E. Paolo, I. Harvey, P. Husbands (2014)
The Horizons of Evolutionary Robotics
A. Nelson, E. Grant (2006)
Using direct competition to select for competent controllers in evolutionary roboticsRobotics Auton. Syst., 54
M. Mucientes, J. Alcalá-Fdez, R. Alcalá, J. Casillas (2010)
A case study for learning behaviors in mobile robotics by evolutionary fuzzy systemsExpert Syst. Appl., 37
B. Duchaine (2008)
Evolutionary Cognitive Neuroscience.Cognitive Neuroscience. Edited bySteven M Platek, Julian Paul Keenan, and Todd K Shackelford. Cambridge (Massachusetts): MIT Press. $65.00. xix + 616 p; ill.; index. ISBN:0‐262‐16241‐5. 2007.The Quarterly Review of Biology, 83
Ting Hu, W. Banzhaf (2010)
Evolvability and Speed of Evolutionary Algorithms in Light of Recent Developments in BiologyJournal of Artificial Evolution and Applications, 2010
B. Hall (2012)
Evolutionary Developmental Biology (Evo-Devo): Past, Present, and FutureEvolution: Education and Outreach, 5
A. Turing (1950)
Computing Machinery and IntelligenceMind, LIX
S. Nolfi (1998)
Evolutionary Robotics: Exploiting the Full Power of Self-organizationConnect. Sci., 10
M. Asada (2013)
Cognitive Developmental Robotics: from Physical Interaction to Social One
Raffaele Bianco, S. Nolfi (2004)
Toward open-ended evolutionary robotics: evolving elementary robotic units able to self-assemble and self-reproduceConnection Science, 16
Y. Katada, K. Ohkura, K. Ueda (2004)
An Approach to Evolutionary Robotics Using a Genetic Algorithm with a Variable Mutation Rate Strategy
Y. Meng, Yuyang Zhang, Yaochu Jin (2011)
Autonomous Self-Reconfiguration of Modular Robots by Evolving a Hierarchical Mechanochemical ModelIEEE Computational Intelligence Magazine, 6
Thomas Bäck, U. Hammel, H. Schwefel (1997)
Evolutionary computation: comments on the history and current stateIEEE Trans. Evol. Comput., 1
K. Tan, L. Wang, Tong-heng Lee, P. Vadakkepat (2004)
Evolvable Hardware in Evolutionary RoboticsAutonomous Robots, 16
This article has been accepted for inclusion in a future issue of this journal. Content is final as presented, with the exception of pagination. IEEE TRANSACTIONS ON EVOLUTIONARY COMPUTATION 1 Intrinsic Motivation Systems for Autonomous Mental Development
Jared Moore (2013)
Applying evolutionary computation to harness passive material properties in robotsProceedings of the 15th annual conference companion on Genetic and evolutionary computation
J. Law, Patricia Shaw, Mark Lee (2013)
A biologically constrained architecture for developmental learning of eye–head gaze control on a humanoid robotAutonomous Robots, 35
M. Asada, K. Hosoda, Y. Kuniyoshi, H. Ishiguro, T. Inui, Y. Yoshikawa, M. Ogino, C. Yoshida (2009)
Cognitive Developmental Robotics: A SurveyIEEE Transactions on Autonomous Mental Development, 1
Clément Moulin-Frier, Pierre-Yves Oudeyer (2013)
Exploration strategies in developmental robotics: A unified probabilistic framework2013 IEEE Third Joint International Conference on Development and Learning and Epigenetic Robotics (ICDL)
A. Nelson, G. Barlow, L. Doitsidis
Article in Press Robotics and Autonomous Systems ( ) – Robotics and Autonomous Systems Fitness Functions in Evolutionary Robotics: a Survey and Analysis
L. Meeden, Deepak Kumar (1998)
TRENDS IN EVOLUTIONARY ROBOTICS
Purpose – This article aims to provide a brief overview of the field now known as “evolutionary developmental robotics (evo-devo-robo)”, which is based on the concept and principles of evolutionary and development principles such as evolutionary developmental psychology, evolutionary developmental biology (evo-devo) and evolutionary cognitive neuroscience. Design/methodology/approach – Evo-devo-robo is a new field bringing together developmental robotics and evolutionary robotics to form a new research area. Basic concepts and the origins of the field are described, and then some basic principles of evo-devo-robo that have been developed so far are discussed. Findings – Finally, some misunderstand concepts and the most promising future research developments in this area are discussed. Originality/value – Basic concepts and the origins of the field are described, and then some basic principles of evo-devo-robo that have been developed so far are discussed. Finally, some misunderstood concepts and the most promising future research developments in this area are discussed.
Industrial Robot: An International Journal – Emerald Publishing
Published: Oct 20, 2014
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