Contents Volume 15:1 March 1992 Thompson, E., Palacios, A. & Varela, F. J. Ways of coloring: Comparative color vision as a case study for cognitive science Open Peer Commentary Lia, B. Ontogeny and ontology: Ontophyletics Akins, K. A. & Lamping, J. More than mere coloring: and enactive focal vision The art of spectral vision Maier, E. & Burkhardt, D. In search of common Averill, E. W. A limited objectivism defended features of animals’ color vision systems Backhaus, W. & Menzel, R. Conclusions from color and the constraints of environment vision of insects Maloney, L. T. A mathematical framework Ben-Ze’ev, A. Problems with explaining for biological color vision the perceptual environment Matthen, M. Color vision: Content versus experience Broackes, J. Nonreductionism, content Mausfeld, R. J., Niederée, R. M. & Heyer, K. D. and evolutionary explanation ew — On possible perceptual worlds and how they shape Clark, A. Reductionism and subjectivism defined their environments and defended McGilvray, J. A. Colors really are only in the head Dannemiller, J. L. Color is as color does Neumeyer, C. On perceived colors Davidoff, J. What is a colour space? Reeves, A. Areas of ignorance and confusion in color Dennett, D. C. Hitting the nail on the head science Feldman, J. A. Enactivist vision Shepard, R. N. What in the world determines Finkelstein, M. A. Psychophysical modeling: The link the structure of color space? between objectivism and subjectivism Skarda, C. A. Ecological subjectivism? Gouras, P. Multivariant color vision Steele, K. M. Confusing structure and function Hardin, C. L. Color for pigeons and philosophers Stoerig, P. & Cowey, A. Wavelength processing Hilbert, D. Comparative color vision and colour experience and the objectivity of color van Brakel, J. The ethnocentricity of colour Hurlbert, A. The view of a computational animal B& Wagemans, J. & de Weert, C. M. M. Ways Jacobs, G. H. Data and interpretation in comparative of coloring the ecological approach color vision Kinnear, P. R. Color enactivism: A return to Kant? Kondrashev, S. L. Ethological and ecological aspects Authors’ Response of color vision Thompson, E., Palacios, A. & Varela, F. J. Levine, J. Objectivism-subjectivism: A false dilemma? On the ways to color Kenrick, D. T. & Keefe, R. C. Age preferences in mates reflect sex differences in human reproductive strategies Open Peer Commentary Harpending, H. Age differences between mates Alley, T. R. Perceived age, physical attractiveness and in southern African pastoralists sex differences in preferred mates’ ages Levinger, G. & Kirkpatrick, L. A. Biological versus Bayer, B. M. On the separation of reproduction social psychological bases of mate selection from mating preferences Lippa, R. On building bridges between social Borkenau, P. Age preferences: The crucial studies psychology and evolutionary biology have yet to be done Mealey, L. Individual differences in reproductive Broude, G. J. The May-September algorithm meets tactics: Cuing, assessment and facultative strategies the 20th century actuarial table Moffatt, C. A. & Nelson, R. J. May/December Byrne, D. & Kelley, K. Differential age preferences: romance: Adaptive significance non probabilis est The need to test evolutionary versus alternative Rajecki, D. W. & Rasmussen, J. L. Personal ads conceptualizations as deviant and unsatisfactory: Support Crawford, C. Sex differences in age preferences for evolutionary hypotheses for mates: Primary and secondary predictions Rushton, J. P. Age similarity is genetic similarity from evolutionary theory Russell, P. A. The evolutionary model is synthetic Dewsbury, D. A. Continuing a long tradition not heuristic Dupré, J. Arbitrariness and bias in evolutionary Schoen, R. Marital choice and reproductive strategies speculation Simpson, J. A. Half a theory and half the data for half Funder, D. C. Toward a nonarbitrary social the people? psychology Sloman, S. A. & Sloman, L. What does evolution tell Glenn, N. D. Toward a more complete integration us about age preferences? of evolutionary and other perspectives on age Stephan, W. G. Sexual motivation, patriarchy preferences in mates and compatibility Grammer, K. Variations on a theme: Age dependent Stevens, G. Mortality and age-specific patterns mate selection in humans of marriage Symons, D. What do men want? Wallen, K. Evolutionary hypothesis testing: Thornhill, N. W. & Thornhill, P. A. A. The preferred Consistency is not enough age of a potential mate reflects evolved male sexual psychology Authors’ Response Townsend, J. M. Measuring the magnitude of sex differences Kenrick, D. T. & Keefe, R. C. Sex differences in age van den Berghe, P. L. Wanting and getting ain't preference: Universal reality or ephemeral the same construction? van Noordwijk, A. J. & Shykoff, J. A. Accounting for age preferences in sexual selection Cheney, D. L. & Seyfarth, R. M. Précis of How monkeys see the world Open Peer Commentary Happé, F. & Frith, U. How autistics see the world Allen, C. Monkeys mind Harcourt, A. H. “How monkeys see the world.” Armstrong, D. M. Monkeys and consciousness Why monkeys? Baron-Cohen, S. How monkeys do things Mealey, L. Are monkeys nomothetic or idiographic? with “words” Noble, W. & Davidson, I. What are mental states? Boesch, C. New elements of a theory of mind in wild Owings, D. H. Calls as labels: An intriguing theme, chimpanzees but one with limitations Burghardt, G. M. Looking inside monkey minds: Perloe, S. I. Exploring the “boundary” between Milestone or millstone the minds of monkeys and humans Cords, M. Social versus ecological intelligence Povinelli, D. J. & deBlois, S. On (not) attributing Dewsbury, D. A. Surplusage, audience effects mental states to monkeys: First, know thyself and George John Romanes Ridley, R. M. How do monkeys remember the world? Dittrich, W. H. Is the monkeys’ world scientifically Schull, J. & Smith, J. D. Knowing thyself, knowing impenetrable? the other: They're not the same Dugatkin, L. A. & Clark, A. B. Of monkeys, Snowdon, C. T. The sounds of silence mechanisms and the modular mind Tomasello, M. Cognitive ethology comes of age Figueredo, A. J. Animal mentality: Canons Visalberghi, E. Is lack of understanding of cause-effect to the right of them, canons to the left of them. . . relationships a suitable basis for interpreting Furth, H. G. Theory of society, yes, theory monkeys’ failures in attribution? of mind, no Whiten, A. Mind reading, pretence and imitation Galdikas, B. Social and nonsocial intelligence in monkeys and apes in orangutans Glotzbach, P. A. Perception theory and the attribution of mental states Authors’ Response Gouzoules, H. In this best of all possible Cheney, D. L. & Seyfarth, R. M. Characterizing monkey worlds? the mind of another species Volume 15:2 June 1992 Contents Dennett, D. C. & Kinsbourne, M. Time and the observer: The where and when of consciousness in the brain Open Peer Commentary McDermott, D. Little “me” Antony, M. V. The where and when of what? Reingold, E. M. Conscious versus unconscious Aronson, J., Dietrich, E. & Way, E. Throwing processes: Are they qualitatively different? the conscious baby out with the Cartesian bath Rollins, M. Content and conformation: Isomorphism in the neural sway water Baars, B. J. & Fehling, M. Consciousness Rosenthal, D. M. Time and consciousness is associated with central as well as distributed Roskies, A. L. & Wood, C. C. Cinema 1-2-Many processes of the Mind Block, N. Begging the question against phenomenal Shepard, R. N. Mental representation: Always delayed but not always ephemeral consciousness Bridgeman, B. What is consciousness for, anyway? Teghtsoonian, R. In defense of the pineal gland Clark, A. Experiential facts? Treisman, M. Does the perception of temporal Damasio, A. R. The selfless consciousness sequence throw light on consciousness? Farah, M. J. The distributed pineal gland Van Gulick, R. Time for more alternatives Glymour, B., Grush, R., Hardcastle, V. G., Velmans, M. Is consciousness integrated? Keeley, B., Ramsey, J., Shagrir, O. & Watson, E. Warren, R. M. Global pattern perception &EB8E BE The Cartesian Theater stance and temporal order judgments Gregson, R. A. M. Nothing is instantaneous, Wasserman, G. S. The psychoanatomy even in sensation of consciousness: Neural integration occurs Hurley, S. L. Some mistakes about consciousness in single cells BE and their motivation Young, A. Closing the Cartesian Theatre Jeannerod, M. The where in the brain determines the when in the mind Editorial Commentary Libet, B. Models of conscious timing and the experimental evidence Lloyd, D. Toward an identity theory of consciousness Authors’ Response Lycan, W. G. UnCartesian materialism and Lockean Dennett, D. C. & Kinsbourne, M. Escape introspection from the Cartesian Theater Golani, I. A mobility gradient in the organization of vertebrate movement: The perception of movement through symbolic language Open Peer Commentary Klopfer, P. H. Structure and function in the CNS Allen, C. Why Eshkol-Wachman behavioral notation Leyhausen, P. Animal motility: Gestalt or piecemeal is not enough assembly? Barlow, G. W. Is the mobility gradient suitable Lyon, M. Somewhere in time — temporal factors for general application? in vertebrate movement analysis Beck, C. H. M. The environment modulates MacKay, W. A. Joint torque precedes the kinematic the mobility gradient, temporally if not sequentially end result Bekoff, M. Description and explanation: A plea Masters, R. D. Time-based objective coding for plurality and human nonverbal behavior Byers, J. A. The mobility gradient: Useful, general, Newtson, D. Human observation and human action falsifiable? Pellis, S. M. The yin and yang of behavioral analysis Cools, A. R. Striatal structures, dopamine Powers, W. T. Testing for controlled variables and the mobility gradient model Rebec, G. V. From psychopharmacology Eaton, R. C. Eshkol-Wachman movement notation to neuropsychopharmacology: Adapting behavioral and the evolution of locomotor patterns terminology to neural events in vertebrates Schleidt, W. M. Describing behavior: A new label Eilam, D. The mobility gradient from a comparative for an old wine? phylogenetic perspective Thom, R. Sensorimotor reference frames Fagen, R. Moving beyond words and physiological attractors Faulkes, Z. & Paul, D. H. Connecting invertebrate Todt, D. & Hultsch, H. Birdsong: Variations behavior, neurophysiology and evolution that follow rules with Eshkol-Wachman movement notation Whishaw, I. Q. What are voluntary movements Fentress, J. C. Alternative taxonomies in movement: made of? Not only possible but critical Goldberg, G. Dynamical systems theory and the mobility gradient: Information, homology Author’s Response and self-similar structure Golani, I. The natural geometry of a behavioral Harries, J. G. Shapes of behaviour homology Flanders, M., Helms Tillery, S. I. & Soechting, J. F. Early stages in a sensorimotor transformation Open Peer Commentary Grobstein, P. Central spatial representations Alexander, G. E. For effective sensorimotor and mapping the sensorimotor interface: How early processing must there be explicit representations is early, how late is late, and what difference and reconciliation of differing frames of reference? does it all make anyhow? Arbib, M. A. Schemas, grasping, tensors Hasan, Z. Are errors in final position destined before and avoidance the movement begins? Bennett, D. J. & Loeb, E. P. Apparent Hayward, V. Physical modeling applies approximations in sensorimotor transformations to physiology, too Holding, D. H. Information decay during response are due to errors in pointing Berkinblit, M., Fookson, O., Adamovich, S. & delay Poizner, H. Two paradoxes of pointing Kalish, M. Limitations on what reaching can tell us Bloedel, J. R. Coordinate transformation and limb about sensorimotor transformations movements: There may be more complexity Lacquaniti, F. Coordinate transformations in postural than meets the eye control Blouin, J., Teasdale, N., Bard, C. & Fleury, M. Massone, L. L. E. Coordinate transformations: The mapping of visual space is a function Some basic questions of the structure of the visual field McCollum, G. Invariants of the second transformation Bookstein, F. L. Error analysis, regression expressed in activation ranges and coordinate systems Neilson, P. D. Coordinate transformations or dynamic Bracewell, R. M. Sensorimotor transformations models? for saccades in the primate posterior parietal cortex Ostry, D. J., Flanagan, J. R. & Sergio, L. E. Bullock, D., Greve, D. & Guenther, F. Do reaches Coordinate transformations in orofacial movements in the dark shed sufficient light on internal Powers, W. T. S-O-R: Wrong model for pointing representations? Trevelyan, J. P. Approximations might lead to errors Burnod, Y. & Caminiti, R. Cortical mechanisms of in brain science visuomotor transformations underlying arm Wann, J. Reaching the point where you have to move a head movements to visual targets Cruse, H. & Dean, J. What do pointing errors really Worringham, C. J. & Dennis, R. G. Distance errors: tell us about internal coordinate transformations? Pointing to the range effect Gandevia, S. C. Kinesthesia and unique solutions Zipser, D. Systematic, idiosyncratic reaching errors for control of multijoint movements Goodale, M. A. & Servos, P. Now you see it, now you don’t: How delaying an action system can transform a theory Authors’ Response Gordon, J., Ghilardi, M. F. & Ghez, C. In reaching, Soechting, J. F., Helms Tillery, S. I. & Flanders, M. the task is to move the hand to a target In the dark about pointing: What’s the point? Thornhill, R. & Thornhill, N. W. The evolutionary psychology of men’s coercive sexuality Open Peer Commentary Ghiselin, M. T. Genetics, functional anatomy Akins, K. A. & Windham, M. E. Just science? and coercive behavior Allgeier, E. R. & Wiederman, M. W. Evidence Gladue, B. A. Evolution, biosocial behavior for an evolved adaptation to rape? Not yet and coercive sexuality Archer, J. Mating tactics are complex and involve Gowaty, P. A. What if within-sex variation is greater females too than between-sex variation? Bayer, B. M. & Steele, R. S. The derealization Hartung, J. Getting real about rape of rape Kitcher, P. Loose associations Bixler, R. H. Men: A genetically invariant Langley, T. Empirical criteria for evaluating rape predisposition to rape? as an evolutionary phenomenon Brownmiller, S. & Mehrhof, B. A feminist response Malamuth, N. M. Evolution and laboratory research to rape as an adaptation in men on men’s sexual arousal: What do the data show Dupré, J. Blinded by “science”: How not to think and how can we explain them? about social problems Mazur, A. The evolutionary psychology of rape Eibl-Eibesfeldt, I. Coercive sexuality and dominance and food robbery Figueredo, A. J. Does rape equal sex plus violence? Mealey, L. Alternative adaptive models of rape Freyd, J. J. & Johnson, J. Q. The evolutionary Palmer, C. T. Psychological mechanisms versus psychology of priesthood celibacy behavior: Does the difference really make Futterman, A. & Zirkel, S. Men are not born to rape a difference? Gavey, N. J. & Gray, R. D. Rape: The perfect Pérusse, D. Specific versus general adaptations: adaptationist story Another unnecessary dichotomy? Quinsey, V. L. Individual differences Wilson, M. & Daly, M. What about the evolutionary in the propensity to rape psychology of coerciveness? 403 Russell, P. A. Psychological adaptation: Alternatives and implications Smuts, B. Psychological adaptations, development : and individual differences Authors’ Response Voland, E. Selection for rape or selection for sexual Thornhill, R. & Thornhill, N. W. The study of men’s opportunism? coercive sexuality: What course should it take? 404 Errata Greenfield, P. M. (1991) Language, tools and brain. BBS 14:531—595. Velmans, M. (1991) Is human information processing conscious? BBS 14:651—726. Contents Volume 15:3 September 1992 Allen Newell (1927-1992) Remarks in memoriam by Herbert A. Simon and Zenon W. Pylyshyn Newell, A. Précis of Unified theories of cognition Open Peer Commentary Pléh, C. Unified cognition misses language Bickerton, D. Unified cognitive theory: You can't get Proctor, R. W. & Dutta, A. Unified theories must there from here explain the codependencies among perception, Card, S. K. Reframing the problem of intelligent cognition and action behavior Quiatt, D. Unified psychobiological theory Carlson, R. A. & Detweiler, M. A unified theory Remington, R. W., Shafto, M. G. & Seifert, C. M. for psychologists? How human is SOAR? Carroll, J. M. Toward unified cognitive theory: Schleidt, W. Does the evolutionary perspective offer The path is well worn and the trenches are deep more than constraints? Chipman, S. F. Re-membering cognition Shultz, T. R. Choosing a unifying theory for cognitive Chown, E. & Kaplan, S. Active symbols, limited development storage and the power of natural intelligence Suppes, P. Problem spaces, language Dodwell, P. C. Unified cognitive theory is not and connectionism: Issues for cognition comprehensive Townsend, J. T. Unified theories and theories Frijda, N. H. & Elshout, J. Is Unified theories that mimic each other's predictions of cognition good strategy? Uttal, W. R. On models and mechanisms Goldfarb, L. A cognitive theory without inductive Vere, S. A. A cognitive process shell learning Vicente, K. J. & Kirlik, A. On putting the cart before Hunt, E. & Luce, R. D. SOAR as a world view, the horse: Taking perception seriously not a theory in unified theories of cognition LaPolla, M. V. & Baars, B. J. A psychologically Wetherick, N. E. Cognition and simulation implausible architecture that is always conscious, Winston, M. E. Cartesian vs. Newtonian research always active strategies for cognitive science Lewandowsky, S. Unified cognitive theory: Having one’s apple pie and eating it Author’s Response Michon, J. A. Unifying cognition: Has it all been Newell, A. sOAR as a unified theory of cognition: put together? Issues and explanations Kraemer, G. W. A psychobiological theory of attachment Open Peer Commentary Pérusse, D. Attachment: A view from evolutionary Boccia, M. L. Refining the attachment model 511 biology and behavior genetics Capitanio, J. P. What do attachment objects afford? 512 Salzen, E. A. Behavioural, aminergic and neural Eiserer, L. A. Levels of explanation in theories systems in attachment of infant attachment 513 Sigman, M. & Siegel, D. J. The interface between Ellis, H. D. A wise child: Face perception by human the psychobiological and cognitive models neonates 514 of attachment Freedman, D. G. The many levels of attachment 515 Svensson, T. H. A psychopharmacologist’s view Insel, T. R. Oxytocin and the neurobiology of attachment of attachment 515 Trevarthen, C. Emotions of human infants Jacobs, B. & Raleigh, M. J. Attachment: How early, and mothers and development of the brain how far? 517 Kagan, J. The meanings of attachment 517 Kovach, J. K. Attachment and the sources of behavioral pathology 518 Mason, W. A. Does function imply structure? 519 Nemeroff, C. B. & Goodman, S. H. A new Author’s Response psychobiological theory of attachment: Kraemer, G. W. Psychobiological attachment theory Primum non nocere 520 (PAT) and psychopathology Lockhead, G. R. Psychophysical scaling: Judgments of attributes or objects? Open Peer Commentary Masin, S. C. Psychophysics and quantitative Algom, D. Perception, apperception perceptual laws and psychophysics Melara, R. D. How important are dimensions Anderson, N. H. Integration psychophysics is not to perception? traditional psychophysics Monahan, J. S. Attributes or objects: A paradigm shift Bolanowski, S. J. Lockhead’s view of scaling: in psychophysics Something's fishy here Niall, K. K. The evident object of inquiry Bonnet, C. Psychophysical scaling within Norwich, K. H. Context effects in the entropic theory an information processing approach? of perception Borg, G. Psychophysical scaling: To describe relations Schneider, B. Should the psychophysical model or to uncover a law? be rejected? Brysbaert, M. Accounting for an old inconsistency Teghtsoonian, R. Selecting one attribute for judgment in the psychophysics of Plateau and Delboeuf is not an act of stupidity Coren, S. Psychophysical scaling: Context and illusion Treisman, M. Do we scale “objects” or isolated Corwin, T. R. The determinants of perceived sensory dimensions? brightness are complicated, but not hopelessly so van Brakel, J. Ceteris paribus laws Dzhafarov, E. N. Can brightness be related Wagner, M. Keeping the bath water along with to luminance by a meaningful function? the baby: Context effects represent a challenge, Eisler, H. Psychophysical invariance, perceptual not a mortal wound, to the body of psychophysics invariance and the physicalistic trap Warren, R. M. Relation of sensory scales to physical Gescheider, G. A. The complexity and importance scales of the psychophysical scaling of sensory attributes Gregory, R. L. Scales falling from the eyes? Gregson, R. A. M. Walking in a psychophysical Author’s Response dustbowl creates a dustcloud Lockhead, G. R. Constancy in a changing world Killeen, P. R. Psychophysics: Plus ca change . . . King, D. L. Context effects: Pervasiveness and analysis Krueger, L. E. Will the real stimulus please Corrigenda step forward? Continuing Commentary: Everill, B. (1991) Humans’ Laming, D. Two categories of contextual variable use of animals: On the horns of a moral dilemma. in perception BBS 14:756. Macmillan, N. A. Covert converging operations MacKay, W. A. Consciousness is king of the neuronal for multidimensional psychophysics processors. Commentary on Velmans, M. (1991) Marks, L. E. The perplexing plurality Is human information processing conscious? of psychophysical processes BBS 14:651-726. Contents Volume 15:4 December 1992 Cordo, P. & Gurfinkel, V. Controversies in neuroscience I: Movement control Bizzi, E., Hogan, N., Mussa-Ivaldi, F. A. & Giszter, S. Does the nervous system use equilibrium-point control to guide single and multiple joint movements? Gandevia, S. C. & Burke, D. Does the nervous system depend on kinesthetic information to control natural limb movements? McCrea, D. A. Can sense be made of spinal interneuron circuits? Robinson, D. A. Implications of neural networks for how we think about brain function Alexander, G. E., DeLong, M. R. & Crutcher, M. D. Do cortical and basal ganglionic motor areas use “motor programs to control movement? Bloedel, J. R. Functional heterogeneity with structural homogeneity: How does the cerebellum operate? Fetz, E. E. Are movement parameters recognizably coded in the activity of single neurons? Stein, J. F. The representation of egocentric space in the posterior parietal cortex Open Peer Commentary Colby, C. L., Duhamel, J-R. & Goldberg, M. E. Adamovich, S. V. How does the nervous system Posterior parietal cortex and retinocentric space control the equilibrium trajectory? Connolly, C. I. A robotics perspective on motor Agarwal, G. C. Movement control hypotheses: programs and path planning A lesson from history Cordo, P. J. & Bevan, L. Successive approximation Alexander, G. E. Neurophysiology of motor systems: in targeted movement: An alternative hypothesis Coming to grips with connectionism Dawson, M. R. W. FINSTs, tag-assignment Andersen, R. A. & Brotchie, P. R. Spatial maps and the parietal gazetteer versus distributed representations Dean, J. Is equilibrium-point control all there Barmack, N. H., Errico, P. & Fagerson, M. is to coding movement and do insects do it, too? Microzones, topographic maps and cerebellar Dietz, V. Control of natural movements: Interaction “operations” of various neuronal mechanisms Berkinblit, M. B., Sidorova, V. Y., Smetanin, B. N. & Duysens, J. & Gielen, C. C. A. M. Spinal integration: Tkach, T. V. Afferent influence on central From reflexes to perception generators and the integration of proprioceptive Eagleson, R. & Carey, D. P. Connectionist networks input with afferent input from other modalities do not model brain function Beuter, A. Modulation of kinesthetic information can Feldman, A. G. Fundamentals of motor control, be explored with nonlinear dynamics kinesthesia and spinal neurons: In search of a theory Bischof, H. & Pinz, A. J. Artificial versus real neural Flanders, M. & Soechting, J. F. Network magic networks Frolov, A. A. & Biryukova, E. V. Adaptive neural Borrett, D. S., Yeap, T. H. & Kwan, H. C. networks organize muscular activity to generate The nonlinear dynamics of connectionist networks: equilibrium trajectories The basis of motor control ‘ Fuchs, A. F., Ling, L., Kaneko, C. R. S. Bossut, D. F. Implication of neural networks for how & Robinson, F. R. Network simulations we think about brain function and single-neuron behavior: The case for keeping Bower, J. M. Is the cerebellum a motor control the bath water device? Fuster, J. M. Brain systems have a way of reconciling Braitenberg, V. & Preiss], H. Why is the output “opposite” views of neural processing; the motor of the cerebellum inhibitory? system is no exception Bridgeman, B. Taking distributed coding seriously Gandevia, S$. C. How complex is a simple arm Bullock, D. & Contreras-Vidal, J. L. Adaptive movement? behavioral phenotypes enabled by spinal Gilbert, P. F. C. & Yeo, C. H. Cerebellar function: interneuron circuits: Making sense On-line control and learning > the Darwinian way Giszter, S. Spinal movement primitives and motor Burgess, P. R. Equilibrium points and sensory programs: A necessary concept for motor control templates Gnadt, J. W. Area LIP: Three-dimensional space and visual to oculomotor transformation Burke, D. Movement programs in the spinal cord Goodale, M. A. & Jakobson, L. S. Action systems Carey, D. P. & Servos, P. Is “attention” necessary in the posterior parietal cortex for visuomotor transformations? Gordon, A. M. & Inhoff, A. W. Intermittent use Cavallari, P. From neuron to hypothesis of feedback during movement phase transitions Cavanagh, P. R., Simoneau, G. G. & Ulbrecht, J. S. and during the updating of internal models Posture and gait in diabetic distal symmetrical Gottlieb, G. L. Kinematics is only a (good) start polyneuropathy Graziano, M. S. & Gross, C. G. Somatotopically Clark, F. J. How accurately can we perceive organized maps of near visual space exist the positions of our limbs? Grobstein, P. Information processing styles Clarke, T. L. Mathematics is a useful guide to brain and strategies: Directed movement, neural function networks, space and individuality Gutman, S. R. & Gottlieb, G. L. Virtual trajectory Pratt, C. A. & Macpherson, J. M. The many disguises as a solution of the inverse dynamic problem of “sense”: The need for multitask studies of Hallett, M. Operations of the motor system multiarticular movements Hamm, T. M. & McCurdy, M. L. Making sense Prochazka, A. A vital clue: Kinesthetic input is greatly of recurrent inhibition: Comparisons of circuit enhanced in sensorimotor “vigilance” organization with function Proctor, R. W. & Franz, E. A. Is the posterior Hasan, Z. Is stiffness the mainspring of posture parietal cortex the site for sensorimotor and movement? transformation? Cross-validation from studies Heuer, H. Computations, neural networks of stimulus-response compatibility and the limits of human understanding Quinlan, P. Real space in the head? Horak, F. B., Shupert, C. & Burleigh, A. Rager, J. E. There is much information in neural Implications for human motor control network unit activations Iansek, R. Converging approaches to the problem Ross, H. E. Command signals and the perception of single-cell recording of force, weight and mass Ingle, D. Spatial short-term memory: Evolutionary Rudomin, P. Presynaptic inhibition and information perspectives and discoveries from split-brain studies transmission in neuronal populations Ioffe, M. E. The necessity of a complex approach Schieppati, M. Selection of task-related motor output in studying brain mechanisms of movement through spinal interneurones Ito, M. Function versus synapse: Still a missing link? Schwarz, G. & Pouget, A. Signals, brains Jaeger, D. Toward an integration of neurophysiology, and explanation performance analysis, connectionism Seltzer, B. An anatomy of parallel distributed and compartmental modeling processing Kalaska, J. F. & Crammond, D. J. Neurophysiological Smeets, J. B. J. What do fast goal-directed movements mechanisms for the planning teach us about equilibrium-point control? of movement and for spatial representations Smith, A. M. Can the inferior olive both excite Kirkwood, P. A. The identification and inhibit Purkinje cells? of corticomotoneuronal connections Stein, J. F. The role of the cerebellum in calibrating Kuo, A. D. & Zajac, F. E. What is the nature feedforward control of the feedforward component in motor control? Stein, R. B. Varying the invariants of movement Kupfermann, I. Neural networks: They do not have Summers, J. J. The demise of the motor program to be complex to be complex Tanji, J. Cortical area-specific activity not yet found? Lacquaniti, F. Reflex control of mechanical interaction Thompson, R. F. The cerebellum and memory in man Tsuda, I. Nonlinear dynamical systems theory Lan, N. & Crago, P. E. Equilibrium-point hypothesis, and engineering neural network: Can each afford minimum effort control strategy plausible interpretation of “how” and “what”? and the triphasic muscle activation pattern Van Gisbergen, J. A. M. & Duysens, J. Coordinate Latash, M. L. Are we able to preserve a motor transformations in sensorimotor control: command in the changing environment? Persisting issues Lemon, R. The meaning for movement of activity Van Ingen Schenau, G. J., Beek, P. J. & Bootsma, R. J. in single cortical output neurons Is position information alone sufficient Levine, D. S. Toward a genuine theoretical for the control of external forces? neuroscience of motor control Winters, J. M. & Mullins, P. Synthesized Loeb, G. E. Past the equilibrium point neural/biochemical models used for realistic Lundberg, A. To what extent are brain commands 3-D tasks are more likely to provide answers for movements mediated by spinal interneurones? MacKay, W. A. & Riehle, A. The single neuron is not for hiding Masson, G. & Pailhous, J. Locomotion, oscillating dynamic systems and stiffness regulation by the basal ganglia McCollum, G. Global organizations: Movement Authors’ Responses and spinal Bizzi, E., Hogan, N., Mussa-Ivaldi, F. A. & Giszter, S. Morasso, P. & Sanguineti, V. Equilibrium point The equilibrium-point framework: A point and self-organization of departure Neilson, P. D. & Neilson, M. D. Adaptive model Gandevia, S. C. & Burke, D. Afferent feedback, theory central programming and motor commands Nichols, T. R. Stiffness regulation revisited McCrea, D. A. 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