Structure learning in action
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[1] Charles A. Edwards,et al. Acquired equivalence and distinctiveness in matching to sample by pigeons: Mediation by reinforcer-specific expectancies. , 1982 .
[2] Stefano Nolfi,et al. Learning to Adapt to Changing Environments in Evolving Neural Networks , 1996, Adapt. Behav..
[3] P. R. Davidson,et al. Motor learning and prediction in a variable environment , 2003, Current Opinion in Neurobiology.
[4] Gregor Schöner,et al. The uncontrolled manifold concept: identifying control variables for a functional task , 1999, Experimental Brain Research.
[5] E. Bizzi,et al. The construction of movement by the spinal cord , 1999, Nature Neuroscience.
[6] Wray L. Buntine. A Guide to the Literature on Learning Probabilistic Networks from Data , 1996, IEEE Trans. Knowl. Data Eng..
[7] Diana Caine Ba BSc Ma. Memory from A to Z: Keywords, Concepts and Beyond , 2005 .
[8] R. Schmidt. Motor Schema Theory after 27 Years: Reflections and Implications for a New Theory , 2003, Research quarterly for exercise and sport.
[9] F A Mussa-Ivaldi,et al. Adaptive representation of dynamics during learning of a motor task , 1994, The Journal of neuroscience : the official journal of the Society for Neuroscience.
[10] R. K. Thomas,et al. The effects of nucleus basalis magnocellularis lesions in Long-Evans hooded rats on two learning set formation tasks, delayed matching-to-sample learning, and open-field activity. , 2001, Behavioral neuroscience.
[11] Jacob J Bloomberg,et al. Obstacle Avoidance in Novel Visual Environments Improved by Variable Practice Training , 2005, Perceptual and motor skills.
[12] D M Wolpert,et al. The influence of previous experience on predictive motor control , 2001, Neuroreport.
[13] J. Tenenbaum,et al. Theory-based Bayesian models of inductive learning and reasoning , 2006, Trends in Cognitive Sciences.
[14] Andrew J. Bulpitt,et al. A Primer on Learning in Bayesian Networks for Computational Biology , 2007, PLoS Comput. Biol..
[15] F. A. Mussa-Ivaldi,et al. Does the motor control system use multiple models and context switching to cope with a variable environment? , 2002, Experimental Brain Research.
[16] J. Diedrichsen. Optimal Task-Dependent Changes of Bimanual Feedback Control and Adaptation , 2007, Current Biology.
[17] Zoubin Ghahramani,et al. Learning Dynamic Bayesian Networks , 1997, Summer School on Neural Networks.
[18] Konrad Paul Kording,et al. Review TRENDS in Cognitive Sciences Vol.10 No.7 July 2006 Special Issue: Probabilistic models of cognition Bayesian decision theory in sensorimotor control , 2022 .
[19] H. Würbel,et al. Animal neuropsychology: Validation of the Intra-Dimensional Extra-Dimensional set shifting task for mice , 2006, Behavioural Brain Research.
[20] R. Schmidt. A schema theory of discrete motor skill learning. , 1975 .
[21] E A Wasserman,et al. Pigeons show same-different conceptualization after training with complex visual stimuli. , 1995, Journal of experimental psychology. Animal behavior processes.
[22] N. A. Bernshteĭn. The co-ordination and regulation of movements , 1967 .
[23] S. Sloman,et al. The advantage of timely intervention. , 2004, Journal of experimental psychology. Learning, memory, and cognition.
[24] M. Latash,et al. Motor Control Strategies Revealed in the Structure of Motor Variability , 2002, Exercise and sport sciences reviews.
[25] Vladimir Vapnik,et al. Statistical learning theory , 1998 .
[26] Paul R. Schrater,et al. Structure Learning in Human Sequential Decision-Making , 2008, NIPS.
[27] T. Robbins,et al. The effects of intradimensional and extradimensional shifts on visual discrimination learning in humans and non-human primates , 1988, The Quarterly journal of experimental psychology. B, Comparative and physiological psychology.
[28] Otmar Bock,et al. Conditions for interference versus facilitation during sequential sensorimotor adaptation , 2001, Experimental Brain Research.
[29] S. Sastry,et al. Adaptive Control: Stability, Convergence and Robustness , 1989 .
[30] J. Bain,et al. Induction of Relational Schemas: Common Processes in Reasoning and Complex Learning , 1998, Cognitive Psychology.
[31] R A Scheidt,et al. Impedance control and internal model formation when reaching in a randomly varying dynamical environment. , 2001, Journal of neurophysiology.
[32] Nir Friedman,et al. The Bayesian Structural EM Algorithm , 1998, UAI.
[33] Rachael D. Seidler,et al. Older adults can learn to learn new motor skills , 2007, Behavioural Brain Research.
[34] The role of physical identity of the sample and correct comparison stimulus in matching-to-sample paradigms. , 1978, Journal of the experimental analysis of behavior.
[35] J. Tenenbaum,et al. Structure and strength in causal induction , 2005, Cognitive Psychology.
[36] D. Hultsch,et al. Learning to learn in adulthood. , 1974, Journal of gerontology.
[37] Gregor Schöner,et al. Identifying the control structure of multijoint coordination during pistol shooting , 2000, Experimental Brain Research.
[38] R. Seidler. Multiple Motor Learning Experiences Enhance Motor Adaptability , 2004, Journal of Cognitive Neuroscience.
[39] K. Fujita. Acquisition and transfer of a higher-order conditional discrimination performance in the Japanese monkey , 1983 .
[40] C. P. Duncan. Description of learning to learn in human subjects. , 1960, The American journal of psychology.
[41] G. A. Arutyunyan,et al. Organization of movements on execution by man of an exact postural task , 1970 .
[42] J. Warren. THE COMPARATIVE PSYCHOLOGY OF LEARNING. , 1965, Annual review of psychology.
[43] J Randall Flanagan,et al. Visuomotor rotations of varying size and direction compete for a single internal model in motor working memory. , 2002, Journal of experimental psychology. Human perception and performance.
[44] Sunita Sarawagi. Learning with Graphical Models , 2008 .
[45] E. Todorov. Optimality principles in sensorimotor control , 2004, Nature Neuroscience.
[46] S. Scott. Optimal feedback control and the neural basis of volitional motor control , 2004, Nature Reviews Neuroscience.
[47] J. Pearl. Causality: Models, Reasoning and Inference , 2000 .
[48] Emanuel Todorov,et al. Evidence for the Flexible Sensorimotor Strategies Predicted by Optimal Feedback Control , 2007, The Journal of Neuroscience.
[49] C. Glymour. Learning, prediction and causal Bayes nets , 2003, Trends in Cognitive Sciences.
[50] Roger K. R. Thompson,et al. Categorical perception and conceptual judgments by nonhuman primates: the paleological monkey and the analogical ape , 2000, Cogn. Sci..
[51] Charles Kemp,et al. The discovery of structural form , 2008, Proceedings of the National Academy of Sciences.
[52] Emmanuel Guigon,et al. Computational Motor Control : Redundancy and Invariance , 2007 .
[53] Michael I. Jordan,et al. Optimal feedback control as a theory of motor coordination , 2002, Nature Neuroscience.
[54] Emilio Bizzi,et al. Combinations of muscle synergies in the construction of a natural motor behavior , 2003, Nature Neuroscience.
[55] Judea Pearl,et al. Probabilistic reasoning in intelligent systems - networks of plausible inference , 1991, Morgan Kaufmann series in representation and reasoning.
[56] Gerd Nürnberg,et al. Learning to learn during visual discrimination in group housed dwarf goats (Capra hircus). , 2007, Journal of comparative psychology.
[57] Paola Cesari,et al. Body-goal Variability Mapping in an Aiming Task , 2006, Biological Cybernetics.
[58] David M. Sobel,et al. A theory of causal learning in children: causal maps and Bayes nets. , 2004, Psychological review.
[59] R A Scheidt,et al. Learning to move amid uncertainty. , 2001, Journal of neurophysiology.
[60] Robert A Jacobs,et al. Parameter learning but not structure learning: a Bayesian network model of constraints on early perceptual learning. , 2007, Journal of vision.
[61] B F Sappington,et al. Discrimination learning and concept formation in the Arabian horse. , 1994, Journal of animal science.
[62] W. Ashby,et al. Design for a brain; the origin of adaptive behavior , 2011 .
[63] Zhanna Reznikova,et al. Animal Intelligence: From Individual to Social Cognition , 2007 .
[64] J D Delius,et al. Symmetry: can pigeons conceptualize it? , 1978, Behavioral biology.
[65] G. Lakoff,et al. The Brain's concepts: the role of the Sensory-motor system in conceptual knowledge , 2005, Cognitive neuropsychology.
[66] O. Bock,et al. Acquisition of a sensorimotor skill in younger and older adults. , 2001, Acta physiologica et pharmacologica Bulgarica.
[67] Michael I. Jordan,et al. A Minimal Intervention Principle for Coordinated Movement , 2002, NIPS.
[68] Joanne Lymn,et al. Learning on the move. , 2010, Nursing standard (Royal College of Nursing (Great Britain) : 1987).
[69] Thomas L. Griffiths,et al. Structure Learning in Human Causal Induction , 2000, NIPS.
[70] Dagmar Sternad,et al. Motor learning: changes in the structure of variability in a redundant task. , 2009, Advances in experimental medicine and biology.
[71] K. Kudo,et al. Compensatory Coordination of Release Parameters in a Throwing Task , 2000, Journal of motor behavior.
[72] R. Shillcock,et al. Proceedings of the Twenty-Sixth Annual Conference of the Cognitive Science Society , 1998 .
[73] O. Bock,et al. Mechanisms for sensorimotor adaptation to rotated visual input , 2001, Experimental Brain Research.
[74] J J Bloomberg,et al. Variable practice with lenses improves visuo-motor plasticity. , 2001, Brain research. Cognitive brain research.
[75] Joshua B. Tenenbaum,et al. Inferring causal networks from observations and interventions , 2003, Cogn. Sci..
[76] Emanuel Todorov,et al. Structured variability of muscle activations supports the minimal intervention principle of motor control. , 2009, Journal of neurophysiology.
[77] Michael I. Jordan,et al. An internal model for sensorimotor integration. , 1995, Science.
[78] Daniel A. Braun,et al. Learning Optimal Adaptation Strategies in Unpredictable Motor Tasks , 2009, The Journal of Neuroscience.
[79] N. Mackintosh,et al. Intradimensional and extradimensional shifts in spatial learning. , 2003, Journal of experimental psychology. Animal behavior processes.
[80] Daniel A. Braun,et al. Report Motor Task Variation Induces Structural Learning , 2009 .
[81] E A Wasserman,et al. Same-different conceptualization by baboons (Papio papio): the role of entropy. , 2001, Journal of comparative psychology.
[82] J. Tenenbaum,et al. Learning Domain Structures , 2004 .
[83] Xavier Boyen,et al. Discovering the Hidden Structure of Complex Dynamic Systems , 1999, UAI.
[84] Allan M. Schrier,et al. Learning how to learn: The significance and current status of learning set formation , 2006, Primates.
[85] Daniel A. Braun,et al. Motor Task Variation Induces Structural Learning , 2009, Current Biology.
[86] Daniel A. Braun,et al. Optimal Control Predicts Human Performance on Objects with Internal Degrees of Freedom , 2009, PLoS Comput. Biol..
[87] S. Sloman,et al. Time as a guide to cause. , 2006, Journal of experimental psychology. Learning, memory, and cognition.
[88] W. T. Thach,et al. Throwing accuracy in the vertical direction during prism adaptation: not simply timing of ball release. , 2001, Journal of neurophysiology.
[89] B. Pasik-Duncan,et al. Adaptive Control , 1996, IEEE Control Systems.
[90] J. Tenenbaum,et al. Generalization, similarity, and Bayesian inference. , 2001, The Behavioral and brain sciences.
[91] J. Tenenbaum,et al. Structured statistical models of inductive reasoning. , 2009, Psychological review.
[92] Michael R. Waldmann,et al. Seeing versus doing: two modes of accessing causal knowledge. , 2005, Journal of experimental psychology. Learning, memory, and cognition.
[93] Rich Caruana,et al. Inductive Transfer for Bayesian Network Structure Learning , 2007, ICML Unsupervised and Transfer Learning.
[94] H. Harlow,et al. The formation of learning sets. , 1949, Psychological review.
[95] Mark J Wagner,et al. Shared Internal Models for Feedforward and Feedback Control , 2008, The Journal of Neuroscience.
[96] Vladimir M. Zatsiorsky,et al. Do synergies decrease force variability? A study of single-finger and multi-finger force production , 2008, Experimental Brain Research.
[97] Natalie M. Myres,et al. Distinctive Paleo-Indian Migration Routes from Beringia Marked by Two Rare mtDNA Haplogroups , 2009, Current Biology.
[98] Jacob J Bloomberg,et al. Critical features of training that facilitate adaptive generalization of over ground locomotion. , 2009, Gait & posture.
[99] N. Mackintosh,et al. Contextual Conditional Discriminations , 1986 .
[100] J. Shea,et al. Contextual interference effects on the acquisition, retention, and transfer of a motor skill. , 1979 .
[101] E A Wasserman,et al. Entropy detection by pigeons: response to mixed visual displays after same-different discrimination training. , 1997, Journal of experimental psychology. Animal behavior processes.
[102] Ann L. Brown,et al. Preschool children can learn to transfer: Learning to learn and learning from example , 1988, Cognitive Psychology.
[103] B. Bridgeman,et al. Alternating prism exposure causes dual adaptation and generalization to a novel displacement , 1993, Perception & psychophysics.
[104] D Bovet,et al. Judgment of conceptual identity in monkeys , 2001, Psychonomic bulletin & review.
[105] J. Vauclair,et al. Picture recognition in animals and humans , 2000, Behavioural Brain Research.
[106] J. Krakauer,et al. Explaining savings for visuomotor adaptation: linear time-invariant state-space models are not sufficient. , 2008, Journal of neurophysiology.
[107] Edwin V. Bonilla,et al. Proceedings of the Eleventh International Conference on Artificial Intelligence and Statistics, AISTATS 2007, San Juan, Puerto Rico, March 21-24, 2007 , 2007, International Conference on Artificial Intelligence and Statistics.
[108] R. Herrnstein,et al. Complex Visual Concept in the Pigeon , 1964, Science.
[109] D. Rumbaugh,et al. Reference: the linguistic essential. , 1980, Science.
[110] Konrad Paul Kording,et al. Bayesian integration in sensorimotor learning , 2004, Nature.
[111] N. Mackintosh,et al. Intradimensional and extradimensional shift learning by pigeons , 1969 .