Behavioral and Brain Sciences

Volume 20 : Issue 2

Table of Contents

• Are there nontrivial constraints on colour categorization? 
  B. A. C. Saunders and J. van Brakel
  Page 167-179
• Constraining color categories: The problem of the baby and the bath water 
  I. Abramov and J. Gordon
  Page 179-180
• Selective vision 
  Marc H. Bornstein
  Page 180-181
• Semantics versus pragmatics in colour categorization 
  Nick Braisby and Bradley Franks
  Page 181-182
• When science fails, can technology enforce color categories? 
  Michael H. Brill
  Page 182-183
• Could we take lime, purple, orange, and teal as unique hues? 
  Justin Broackes
  Page 183-184
• Unique hues 
  Alex Byrne and David R. Hilbert
  Page 184-185
• Empirical evidence for constraints on colour categorisation 
  Jules Davidoff and Debi Roberson
  Page 185-186
• Colour-cognition is more universal than colour-language 
  I. R. L. Davies
  Page 186-187
• Colour categorization and the space between perception and language 
  Don Dedrick
  Page 187-188
• Cultural beliefs as nontrivial constraints on categorization: Evidence from colors and odors 
  Dani;egrave;le Dubois
  Page 188-188
• Mad about hue 
  Jeffrey Foss
  Page 189-189
• Cultural practice and perception 
  Angus Gellatly
  Page 189-190
• Color-order systems: A guide for the perplexed 
  C. L. Hardin
  Page 190-191
• Logic, physics, physiology, and topology of color 
  H. M. Hubey
  Page 191-194
• What Saunders and van Brakel chose to ignore in color and cognition research 
  Kimberly A. Jameson
  Page 195-196
• Science ; imperialism: There are nontrivial constraints on color naming 
  Paul Kay and Brent Berlin
  Page 196-201
• Ethnographic evidence of unique hues and elemental colors 
  Robert E. MacLaury
  Page 202-203
• Why bother about opponency? Our theoretical ideas on elementary colour coding have changed our language of experience 
  Rainer J. Mausfeld
  Page 203-203
• A monochrome view of colour 
  I. C. McManus
  Page 204-204
• Over the rainbow: The classification of unique hues 
  David L. Miller
  Page 204-205
• Is there no cross-cultural evidence in colour categories of psychological laws, only of cultural rules? 
  Ype H. Poortinga and Fons J. R. Van de Vijver
  Page 205-206
• Trichromacy and the neural basis of color discrimination 
  Peter W. Ross
  Page 206-207
• The irrelevance of the psychophysical argument 
  Carl Simpson
  Page 207-207
• Four-dimensional color space 
  E. N. Sokolov
  Page 207-208
• Universal colour perception versus contingent colour naming: A paradox? 
  Noud W. H. van Kruysbergen, Anna M. T. Bosman and Charles de Weert
  Page 209-210
• Ekphrasis in colour categorisation: Time for research, or time for revolution? 
  Darren Van Laar
  Page 210-210
• Hue opponency: A constraint on colour categorization known from experience and experiment 
  John S. Werner and Michelle L. Bieber
  Page 210-211
• Color categories and biology: Considerations from molecular genetics, neurobiology, and evolutionary theory 
  Stephen L. Zegura
  Page 211-212
• Colour: An exosomatic organ? 
  B. A. C. Saunders and J. van Brakel
  Page 212-220
• The detection and generation of sequences as a key to cerebellar function: Experiments and theory 
  Valentino Braitenberg, Detlef Heck and Fahad Sultan
  Page 229-245
• Microcomplexes: The basic unit of the cerebellar role in adaptive motor control 
  Michael A. Arbib and Jacob Spoelstra
  Page 245-246
• Anatomical substrates for cerebellar computational units and cerebellar magnification factors 
  Jan G. Bjaalie and Per Brodal
  Page 246-247
• What do parallel fibers do? 
  James M. Bower
  Page 247-247
• Cerebellar Purkinje units ; basic functional elements of movement control 
  Gilbert A. Chauvet
  Page 247-248
• Prediction and preparation: Anticipatory role of the cerebellum in diverse neurobehavioral functions 
  Eric Courchesne
  Page 248-249
• Origin of error signals during cerebellar learning of motor sequences 
  Michel Dufoss;eacute;, Arthur Kaladjian and Philippe Grandguillaume
  Page 249-250
• Cerebellar involvement in movement timing on a variety of timescales 
  Jeffrey S. Grethe and Richard F. Thompson
  Page 250-251
• Is the tidal wave necessary? Is it likely? 
  Martin Garwicz and Gert Andersson
  Page 250-250
• Patterns of organisation in the cerebellum and the control of timing 
  R. J. Harvey
  Page 251-252
• Anatomical structure alone cannot predict function 
  Dieter Jaeger and Erik De Schutter
  Page 252-253
• Path space integrals for modeling experimental measurements of cerebellar functioning 
  Endre E. Kadar, Robert E. Shaw and M. T. Turvey
  Page 253-254
• Branching of cerebellar parallel fibres can assist the convergence of mossy fibre input sequences that are temporally and spatially dispersed 
  M. Lidierth
  Page 254-254
• Why a sequence mode if synchronization would fit the cerebellum better? 
  William A. MacKay
  Page 255-255
• More precise beam logic implied by cerebellar;motor coherence 
  Gin McCollum
  Page 255-256
• Is the cerebellum essentially a precise pattern matching device? 
  Franz Mechsner and G;uuml;nther Palm
  Page 257-257
• Sequences of sensory predictions 
  R. C. Miall
  Page 258-259
• Is sequence-in/sequence-out a cerebellar mode of operation in cognition too? 
  Marco Molinari and Laura Petrosini
  Page 259-260
• Learning tidal waves versus learning sensorimotor mappings 
  P. Morasso and V. Sanguineti
  Page 260-261
• The propagation of errors in sequences of cerebellar theories 
  Michael G. Paulin
  Page 261-262
• Distribution of activity in the cerebellar cortex resulting from passive limb movement 
  R. E. Poppele and G. Bosco
  Page 262-263
• Stochastic recruitment in parallel fiber activity patterns 
  Patrick D. Roberts
  Page 263-264
• Spatio-temporal constraints of the tidal wave theory 
  Cornelius Schwarz
  Page 264-265
• The cerebellum and the physics of movement 
  Helge Topka and Johannes Dichgans
  Page 266-266
• Detection of input sequences in the cerebellum: Clinical and neuroimaging aspects 
  P. Trillenberg and K. Wessel
  Page 267-267
• Waiting for the ultimate theory of the cerebellum 
  Valentino Braitenberg, Detlef Heck and Fahad Sultan
  Page 267-271
• Speed/accuracy trade-offs in target-directed movements 
  R;eacute;jean Plamondon and Adel M. Alimi
  Page 279-303
• Dynamics of trajectory formation and speed/accuracy trade-offs 
  Reinoud J. Bootsma and Denis Mottet
  Page 303-304
• Visual control of target-directed movements 
  Romeo Chua and Digby Elliott
  Page 304-306
• Speed/accuracy relations: The kinetic;kinematic link and predictions for rapid timing tasks 
  Les G. Carlton and Yeou-Teh Liu
  Page 304-304
• Are speed/accuracy trade-offs caused by neuromotor noise, or not? 
  Willem P. De Jong and Gerard P. Van Galen
  Page 306-307
• Kinematic theory: From numerical fitting to data interpretation 
  Michel Desmurget, Claude Prablanc and Yves Rossetti
  Page 307-308
• Neural models of reaching 
  Stephen Grossberg
  Page 310-310
• Where in the world is the speed/accuracy trade-off? 
  P. A. Hancock and Willem B. Verwey
  Page 310-311
• Individual data and clear assumptions about movement 
  Jan E. Holly
  Page 313-314
• Flawed kinematic models cannot provide insight into the nature of motor variability 
  Mark L. Latash and Gregor Sch;ouml;ner
  Page 314-315
• Segregation of agonist and antagonist systems minimizes the benefits of polarity 
  William A. MacKay
  Page 315-316
• Separating A and W effects: Pointing to targets on computer displays 
  Christine L. MacKenzie and Evan D. Graham
  Page 316-318
• Kinematic models cannot provide insight into motor control 
  Arnold B. Mitnitski
  Page 318-319
• Movement dynamics in speed/accuracy trade-off 
  P. Morasso and V. Sanguineti
  Page 319-319
• Predicting relationships between speed and accuracy of targetting movements is important 
  James G. Phillips, Mark A. Bellgrove and John L. Bradshaw
  Page 319-320
• Speed/accuracy trade-offs in rapid simultaneous and sequential actions: Evidence for carryover effects 
  David E. Sherwood
  Page 320-320
• Do we need an encompassing speed/accuracy trade-off theory? 
  Arnold J. W. M. Thomassen and Ruud G. J. Meulenbroek
  Page 322-323
• Modeling movement variability in space and time 
  Dagmar Sternad and Karl M. Newell
  Page 322-322
• Distance versus position information in the control of aiming movements 
  P. C. W. van Wieringen and P. J. Beek
  Page 323-324
• The kinematic theory: A new window to study and analyze simple and complex human movements 
  R;eacute;jean Plamondon
  Page 325-343
• Can one explanation serve two laws? 
  Howard N. Zelaznik and Robert W. Proctor
  Page 325-325
• How far beyond modularity? 
  Luca Bonatti
  Page 351-353
• Putting knowledge to work 
  Derek Browne
  Page 353-354
• Beyond representational redescription 
  Fiona Spensley
  Page 354-355
• Promissory notes, genetic clocks, and epigenetic outcomes 
  Annette Karmiloff-Smith
  Page 355-359
• Selective associations and associative learning: Multiple mechanisms, multiple measures 
  Bruce Cuthbert
  Page 361-362
• No convincing evidence for a biological preparedness explanation of phobias 
  Peter J. de Jong and Harald Merckelbach
  Page 362-363
• The merits of an experimentally testable model of phobias 
  Graham C. L. Davey
  Page 363-364
• Psychology without brains 
  Justin Leiber
  Page 366-367
• The teleological science of self-control 
  Howard Rachlin
  Page 367-369