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Accommodation

• Shrikant Bharadwaj: Neural adjustments to image blur. Nature Neuroscience, 2002.
• Vivian Choh: EVER 2004 practice talk
• Shrikant Bharadwaj: Mechanical considerations in myopia. Greene, in T. Grosvenor and M. Flom eds. Refractive Anomalies ?Research and clinical applications.
• Cliff Schor: A pulse-step model of accommodation in the ageing eye. UCB Oxyopia talk
• Kai Yin-Lew: Stimulating human accommodation without changes in focus. Weiss, Seidemann, & Schaeffel, Ophthalmic & Physiological Optics, 2004
• Yibin Tian: Monochromatic aberrations provide an odd-error cue to focus direction. Wilson, Decker & Roorda, Journal of Optical Society of America, 2002.
• Janice Tarrant: Depth-of-focus of the human eye in the near retinal periphery. Wang & Ciuffreda, Vision Research, 2004.
• Chris Wildsoet: Effects of refractive error on detection acuity and resolution acuity in peripheral vision. Wang, Thibos & Bradley, Investigative Ophthalmology & Visual Science, 1997.
• James Su: Involvement of mechanical stretch in the gelatinolytic activity of the fibrous sclera of chicks, in vitro. Fujikura, Seko, Tokoro, Mochizuke, Shimokawa. Japanese Journal of Ophthalmology, 2002.
• Larry Thrower: Connexins are mechanosensitive. Bao, Sachs & Dahl. American Journal of Physiology-Cell Physiology, 2004.
• Ethan Rossi: Accommodation as a function of age and the linearity of the response dynamics. Heron & Charman. Vision Research, 2004.
• Varuna Padmanabhan:Effects of dopamine antagonists in human eye accommodation. Yeung, Hung, Lin, Yang & Chiou. Journal of Ocular Pharmacology and Therapeutics, 2001.
• Shrikant Bharadwaj: Depth-dependent blur adaptation. Battaglia, Jacobs & Aslin, Vision Research, 2004.
• Yibin Tian: Aniso-accommodation as a possible factor in myopia development. Charman, Ophthalmic & Physiological Optics, 2004 and Increased accommodation following adaptation to image blur in myopes. Vera-Diaz, Gwiazda, Thorn & Held. Journal of Vision, 2004
• Kai-Yin Lew: Pharmacology of accommodative adaptation. Gilmartin, in O. Franzen, H. Richter and L. Stark eds. Accommodation and Vergence Mechanisms. 2000.
• Cliff Schor: Oculomotor functions and late-onset myopia. Jiang & Morse. Ophthalmic & Physiological Optics, 1999.
• Vivian Choh: Prey capture and accommodation in the sandlance, Limnichthyes fasciatus (Creediidae; Teleostei). Pettigrew, Collin, Fritsches. Journal of Comparative Physiology, 2000.

Motor control

• Tere: A neural model of saccadic eye movement control explains task-specific adaptation. pan>Gancarzand Grossber, VR 1999.
• Cliff: A computational model of depth perception based on headcentric disparity. Erkelens and van Ee, VR 1997.
• Jim: Discharge of monkey nucleus reticularis tegmenti pontis neurons changes during saccades adaptation. Takeichi, Kaneko and Fuchs, JNP 2005.
• Kai: Perisaccadic mislocalization without saccadic eye movements. Ostendorf et al. Neuroscience, 2006.
• Julia: Differential effects of the Muller-Lyer illusion on reflexive and voluntary saccades. J.Vision, 2003.
• Carmel: A sensory source for motor variation, Leslie C. Osborne, Stephen G. Lisberger and William Bialek, Nature, 2005.
• Vestibular perception and action employ qualitatively different mechanisms I. Frequency response of VOR and perceptual responses during translation and tilt, Merfeld et al., JNP 2005
• Shrikant: Postsaccadic target blanking prevents saccadic suppression of image displacement. VR, 1996.
• Peiyi: Immediate post-saccadic information mediates space constancy. Deubel, Bridgeman, Schneider, VR, 1998.
• Sangita: Coding of intention in parietal cortex. Snyder, Batista, Andersen. Nature, 1997; and, Changes in motor plan, without a change in the spatial locus of attention, modulates activity in parietal cortex, JNP 1998
• Tere: Direct visuomotor transformations for reaching.Buneo, Jarvis, Batista, Andersen, Nature, 2002.
• Zhi-lei:Optic ataxia errors depend on remapped, not viewed target location.Khan et al., Nature Neuroscience, 2005.
• Kai: Motor awareness without perceptual awareness. Johnson, Haggard. Neuropsychologia, 2005.
• Carmel :Postsaccadic visual references generate presaccadic compression of space. Lappe, Awater, Krekelberg, Nature, 2000.
• Dhanraj: The updating of the representation of visual space in parietal cortex by intended eye movements. Duhamel, Colby, Glodberg, Science, 1992
• Chris: Short latency ocular following in man. Gellman, Carl, Miles, Visual Neuroscience, 1990.
• Cliff: Perception can influence the vergence responses associated with open-loop gaze shifts in 3D.
• Sheliga and Miles, J Vis, 2003
• Jim: Saccadic gain modification: visual error drives motor adaptation.
• Wallman and Fuchs, JNP, 1998
• Sangita:Saccadic eye movements cause compression of time as well as space. Morrone, Ross, Burr, Nature Neuroscience, 2005.
• Tere: Effect of saccadic adaptation on localization of visual targets. Awater, Burr, Lappe, Morrone, Goldberg, JNP 2005.
• Zhi-lei: Vergence eye movements in response to binocular disparity without depth perception.Masson, Busettini,and Miles, Nature, 1997 and also: Short latency disparity vergence responses and their dependence on a prior saccadic eye movement. JNP. 1996.
• Shrikant: Detection of the depth order of defocused images.Nguyen, Howard, Allison, VR 2005
• Kai:How does action resist visual illusion? Uncorrected oculomotor information does not account for accurate pointing in peripersonal space.Bernardis, Knox, Bruno, EBR, 2005.
• Pogen: Oculo-manual coordination control: respective role of visual and non-visual information in ocular tracking of self-moved targets.Vercher, Quaccia, Gauthier, EBR, 1995
• Carmel : Signals that modulate gain control for smooth pursuit eye movements in monkeys.Carey & Lisberger, JNP, 2003.
• Dhanraj: Binocular eye movements caused by perception of 3D structure from motion. Ringach, Hawken & Shapley, 1996.
• Tere: Saccades exhibit abrupt transition between reactive and predictive, predictive saccade sequences have long-term correlations.Shelhamer and Joiner, JNP, 2003.
• Cliff:Vergence target selection in rhesus monkeys: behavior and modeling.Dearworth Davison, Li, Gamlin, Vis Res, 2005.
• Jim: Gain adaptation of exogenous shifts of visual attention. McFaden, Khan, Wallman.Vision Research, 2002.
• Shrikant: Effect of mean reaction time on saccadic responses to two-step stimuli with horizontal and vertical components.Lisberger, Fuchs, King, Evinger
• Kai:  Stereopsis outweighs gravity in the control of the eyes. Misslisch, Tweed and Hess.
• Pogen:  Influence of visual, vestibular, cervical, and somatosensory tilt informationon ocular rotation and perception of the horizontal.  de Graaf et al.
• Carmel :  Auditory receptive fields in primate superior colliculus shift with changes in eye position. Jay and >Sparks .  Auditory saccades from different eye positions in the monkey: impolications for coordinate transformations.  Metzger et al. 
• Anna: Saccades to somatosensory targets. III.  Eye position dependent somatosensory activity in primate super colliculus.  Groh and >Sparks .  JNP, 1996
• Tere:  Multisensory interaction in saccadic reaction time: a time-window-of- integration model.  Colonius and Diederich.
• Ahna:  Visual feedback control of hand movements. Saunders and Knill
• Joel: Cortical neural prosthetics. Schwartz.
• Johannas: System identification applied to a visuomotor task: near optimal human performance in a noisy changing task.  Baddeley, Ingram, Miall.
• Ethan: Missing lateral rectus force and absence of medial rectus co-contraction in ocular convergence.  Miller et al.
• Kai:  Consistency of Listing's law and reciprocal innervation with pseudo-inverse control of eye position in 3-D.  Warren, Porrill & Dean.  Biol. Cybern, 2004.
• Tere:  Expansion of visual space after saccadic eye movements.  Cho & Lee, J. Vision. 2003.
• Jim:  Comparison of two methods of producing adaptation of saccade size and and implications for the site of plasticity. Scudder et al., JNP 1998.
• Ahna: The stereoscopic anisotropy affects manual pointing.  Bradshaw et al., Spatial Vision, 2002
• Carmel :  Visual control of reaching movements without vision of the limb.  Prablanc, Pelisson and Goodale, Exp Br Res, 1986.
• Pogen:  Neurons compute internal models of the physical laws of motion. Angelaki et al., Nature, 2004
• Sergei and Landy:
• Cliff:  Changes in oculocentric visual direction induced by the recalibration of saccades. Moidell and Bedell, VR, 1988
• Kai: Separate visual representations for perception and action revealed by saccadic eye movements.  Burr et al., Current Biology, 2001
• Dhanraj: Contribution of signals downstream from adaptation to saccade programming. Tanaka, JNP, 2003.
• Johannas: Role of uncertainty in sensorimotor control.  van Beers, Baraduc and Wolpert, Phil. Trans. R. Soc. Lond, 2002. And: When feeling is more important than seeing in sesorimotor adaptation.  van Beers and Wolpert, Current Biology, 2002.
• Tere: Saccade adaptation in response to altered arm dynamics. Nanayakkar and Shadmehr, JNP, 2003.
• Shrikant: Short term modification of disparity vergence eye movements. Munoz et al., 1999. And: Adaptive changes in dynamic properties of human disparity-induced vergence. IOVS, 2001
• Cliff: Sensory, motor, and combined contexts for context-specific adaptation of saccade gain in humans. Shelhamer and Clendaniel, Neuroscience Letters, 2002.
• Jim: Coding of smooth pursuit in three-dimensional space by frontal cortex. Fukushima et al., Nature 2002
• Pogen: Learning in the oculomotor system: from molecules to behavior. Raymond, Current Biol., 1998. And: Active Reversal of motor memories reveals rules governing memory encoding. Boyden and Raymond, Neuron, 2003
• Sergei: Statistical decision theory and the selection of rapid, goal directed movements. Trommershauser, Maloney and Landy, Optical Soc of America, 2003
• Kai:  Magnetic resonance imaging of human extraocular muscles in convergence.  Demer, Kon and Wright, JNP, 2003.
• Dhanraj: The oculomanual coordination control center takes into account the mechanical properties of the arm.  Scarchilli, Vercher, Exp Brain Res, 1999
• Johannas:
• Cliff:
• Tere:  Illusory shifts in visual direction accompany adaptation of saccadic eye movements. Bahcall and Kowler, Nature, 1999
• Shrikant: The Equilibrium point hypothesis examined by measured arm stiffness during multijoint movement. Gomi and Kawato, Science, 1996
• Jim: Eye-hand coordination: saccades are faster when accompanied by coordinated arm movement. Snyder et al., JNP, 2001. And: Gaze-shift dynamics in two kinds of sequential looking tasks. Epelboim et al., Vis Res, 1997.
• Pogen: Humans use internal models to estimate gravity and linear acceleration. And: This way up: illusions and internal models in the vestibular system. Snyder. Both in Nature, 1999.
• Cliff:  Internal models for motor control and trajectory planning. Kawato. Current Opinion in Neurobiology, 1999