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Saccade Programmming
Saccade Adapation
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Saccade Programming

Al-Aidroos, N., Fischer, M. H.. Adam, J. J., & Pratt, J. (2008). Structured perceptual arrays and the modulation of Fitts's Law: Examining saccadic eye movements. Journal of Motor Behavior, 40, 155-164.

Al-Aidroos, N. & Pratt, J. (2010). Top-down control in time and space: Evidence from saccadic latencies and trajectories. Visual Cognition, 18, 26-49.

Amlôt, R., Walker, R., Driver, J., & Spence, C. (2003). Multimodal visual-somatosensory integration in saccade generation. Neuropsychologia, 41, 1-15.

Belopolsky, A. V., & Theeuwes, J. (2011). Selection within visual memory representations activates the oculomotor system. Neuropsychologia, 49, 1605-1610.

Bibi, R., & Edelman, J. A. (2009). The influence of motor training on human express saccade production. Journal of Neurophysiology, 102, 3101-3110.

Buonocore, A., & McIntosh, R. D. (2008). Saccadic inhibition underlies the remote distractor effect. Experimental Brain Research, 191, 117-122.

Camalier, C. R., Gotler, A., Murthy, A., Thompson, K. G., Logan, G. D., Palmeri, T. J., & Schall, J. D. (2007). Dynamics of saccade target selection: Race model analysis of double step and search step saccade production in human and macaque. Vision Research, 47, 2187-2211.

Cardoso-Leite, P., & Gorea, A. (2009). Comparison of perceptual and motor decisions via confidence judgements and saccade curvature. Journal of Neurophysiology, 101, 2822-2836.

Colonius, H., & Diederich, A. (2004). Multisensory interaction in saccadic reaction time: A time-window-of-integration model. Journal of Cognitive Neuroscience, 16, 1000-1009.

Collins, T. (2010). Extraretinal signal metrics in multiple-saccade sequences. Journal of Vision, 10(14):7, 1-14,http://www.journalofvision.org/content/10/14/7, doi:10.1167/10.14.7.

Cruickshank, A. G., & McSorley, E. (2009). Involuntary inhibition of movement initiation alters oculomotor competition resolution. Experimental Brain Research, 193, 467-476.

Diederich, A., & Colonius, H. (2007). Why two "distractors" are better than one: Modeling the effect of non-target auditory and tactile stimuli on visual saccadic reaction time. Experimental Brain Research, 179, 43-54.

Diederich, A., & Colonius, H. (2007). Modeling spatial effects in visual-tactile saccadic reaction time. Perception and Psychophysics, 69, 56 - 67.

Diederich, A., & Colonius, H. (2008). Crossmodal interaction in saccadic reaction time: separating multisensory from warning effects in the time window of integration model. Experimental Brain Research, 186, 1-22.

Diederich, A. & Colonius, H. (2008). When a high-intensity "distractor" is better then a low-intensity one: Modeling the effect of an auditory or tactile nontarget stimulus on visual saccadic reaction time. Brain Research, 1242, 219-230.

Diederich, A., Colonius, H., Bockhorst, D., & Tabeling, S. (2003). Visual-tactile spatial interaction in saccade generation. Experimental Brain Research, 148, 328-337.

Doyle, M. C., & Walker, R. (2002). Multisensory interactions in saccade target selection: Curved saccade trajectories. Experimental Brain Research, 142, 116- 130.

Doyle, M., & Walker, R. (2001). Curved saccade trajectories: Voluntary and reflexive saccades curve away from irrelevant distractors. Experimental Brain Research, 139, 333 - 344.

Edelman, J. A., Kristjánsson, Á., & Nakayama, K. (2007). The influence of object-relative visuomotor set on express saccades. Journal of Vision, 7(6):12, 1-13, http://journalofvision.org/7/6/12/, doi:10.1167/7.6.12.

Edelman, J. A., & Xu, K. Z. (2009). The inhibition of voluntary saccadic eye movement commands by abrupt visual onsets. Journal of Neurophysiology, 101, 1222-1234.

Engbert, R., & Krügel, A. (2010). Readers use bayesian estimation for eye movement control. Psychological Science, 21, 366-371.

Etchells, P. J., Benton, C. P., Ludwig, C. J. H., & Gilchrist, I. D. (2010). The target velocity integration function for saccades. Journal of Vision, 10(6):7, 1-14, http://www.journalofvision.org/content/10/6/7, doi:10.1167/10.6.7.

Etchells, P. J., Benton, C. P., Ludwig, C. J. H., & Gilchrist, I. D. (2011). Testing a simplified method for measuring velocity integration in saccades using a manipulation of target contrast. Frontiers in Psychology, 2:115. doi: 10.3389/fpsyg.2011.00115.

Farrell, S., Ludwig, C. J. H., Ellis, L. A., & Gilchrist, I. D. (2010). Influence of environmental statistics on inhibition of saccadic return. PNAS, 107, 929-934.

Fecteau, J. H., Au, C., Armstrong, I. T., & Munoz, D. P. (2004) Sensory biases produce the alternation advantage found in sequential saccadic eye movement tasks. Experimental Brain Research, 159, 84-91.

Hermens, F., Sumner, P., & Walker, R. (2010). Inhibition of masked primes as revealed by saccade curvature. Vision Research, 50, 46-56.

Hermens, F., & Walker, R. (2010). The influence of onsets and offsets on saccade programming. i-Perception, 1, 83-94.

Hermens, F., & Walker, R. (2010). Gaze and arrow distractors influence saccade trajectories similarly. The Quarterly Journal of Experimental Psychology, 63, 2120-2140.

Laidlaw, K. E. W., & Kingstone, A. (2010). The time course of vertical, horizontal and oblique saccade trajectories: Evidence for greater distractor interference during vertical saccades. Vision Research, 50, 829-837.

Lappe-Osthege, M., Talamo, S., Helmchen, C., & Sprenger, A. (2010). Overestimation of saccadic peak velocity recorded by electro-oculography compared to video-oculography and scleral search coil. Clinical Neurophysiology, 121, 1786-1787.

Ludwig, C. J. H., Farrell, S., Ellis, L. A., & Gilchrist, I. D. (2009). The mechanism underlying inhibition of saccadic return. Cognitive Psychology, 59, 180-202.

Ludwig, C. J. H., & Gilchrist, I. D. (2002). Measuring saccade curvature: A curve-fitting approach. Behavior Research Methods, Instruments & Computers, 34, 618-624.

McSorley, E., Cruickshank, A. G., & Inman, L. A. (2009). The development of the spatial extent of oculomotor inhibition. Brain Research, 1298, 92-98.

McSorley, E., & Cruickshank, A. G. (2010). Evidence that indirect inhibition of saccade initiation improves saccade accuracy. i-Perception, 1, 73-82.

McSorley, E., Haggard, P., & Walker, R. (2004). Distractor modulation of saccade trajectories: Spatial separation and symmetry effects. Experimental Brain Research, 155, 320-333.

McSorley, E., Haggard, P., & Walker, R. (2005). Spatial and temporal aspects of oculomotor inhibition as revealed by saccade trajectories. Vision Research, 45, 2492-2499.

McSorley, E., Haggard, P., & Walker, R. (2006). Time-course of oculomotor inhibition revealed by saccade trajectory modulation. Journal of Neurophysiology, 96, 1420-1424.

Michels, L., & Lappe, M. (204). Contrast dependency of saccadic compression and suppression. Vision Research, 44, 2327-2336.

Milstein, D. M., & Dorris, M. C. (2007). The influence of expected value on saccadic preparation. Journal of Neuroscience, 27, 4810 - 4818.

Montagnini, A., & Chelazzi, L. (2005). The urgency to look: Prompt saccades to the benefit of perception. Vision Research, 45, 3391-3401.

Montagnini, A., & Chelazzi, L. (2009). Dynamic interaction between "Go" and "Stop" signals in the saccadic eye movement system: New evidence against the functional independence of the underlying neural mechanisms. Vision Research, 49, 1316-1328.

Morel, P., Deneve, S., & Baraduc, P. (2011). Optimal and suboptimal use of postsaccadic vision in sequences of saccades. Journal of Neuroscience, 31, 10039-10049.

Mulckhuyse, M., Van der Stigchel, S., & Theeuwes, J. (2009). Early and late modulation of saccade deviations by target distractor similarity. Journal of Neurophysiology, 102, 1451-1458.

Nummenmaa, L., & Hietanen, J. K. (2006). Gaze distractors influence saccadic curvature: Evidence for the role of the oculomotor system in gaze-cued orienting. Vision Research, 46, 3674-3680.

Pannasch, S., Dornhoefer, S. M., Unema, P. J. A., & Velichkovsky, B. M. (2001). The omnipresent prolongation of visual fixations: Saccades are inhibited by changes in situation and in subject's activity. Vision Research, 41, 3345-51.

Pratt, J., Shen, J., & Adam, J. J. (2004). The planning and execution of sequential eye movements: Saccades do not show the one target advantage. Human Movement Science, 22, 679-688.

Reingold, E. M., & Stampe, D. M. (2002). Saccadic inhibition in voluntary and reflexive saccades. Journal of Cognitive Neuroscience, 14, 371-388.

Reingold, E. M., & Stampe, D. M. (2004). Saccadic inhibition in reading. Journal of Experimental Psychology: Human Perception and Performance, 30, 194-211.

Richardson, B. A., & Balasubramaniam, R. (2010). The effect of entrainment on the timing of periodic eye movements. Neuroscience Letters, 469, 117-121.

Richardson, B. A., Ratneswaran, A., Lyons, J., & Balasubramaniam, R. (2011). The time course of online trajectory corrections in memory-guided saccades. Experimental Brain Research, 212, 457-469.

Rolfs, M., & Vitu, F. (2007). On the limited role of target onset in the gap task: Support for the motor-preparation hypothesis. Journal of Vision, 7(10):7, 1-20, http://journalofvision.org/7/10/7/, doi:10.1167/7.10.7.

Shadmehr, R., Orban de Xivry, J. J., Xu-Wilson, M., & Shih, T.-Y. (2010). Temporal discounting of reward and the cost of time in motor control. Journal of Neuroscience, 30, 10507-10516.

Smeets, J. B. J., & Hooge, I. T. C. (2003). Nature of variability in saccades. Journal of Neurophysiology, 90, 12-20.

Stritzke, M., Trommershäuser, J., & Gegenfurtner, K. (2009). Effects of salience and reward information during saccadic decisions under risk. Journal of the Optical Society of America A, 26, B1-B13.

Tatler, B. W., Baddeley, R. J., & Vincent, B. T. (2006). The long and the short of it: spatial statistics at fixation vary with saccade amplitude and task. Vision Research, 46, 1857-1862.

Trottier, L. & Pratt, J. (2005) Visual processing of targets can reduce saccadic latencies. Vision Research, 45, 1349-1354.

Turatto, M., & Betta, E. (2006). Redundant visual signals boost saccade execution. Psychonomic Bulletin & Review, 13, 928-932.

van Beers, R. J. (2007). The sources of variability in saccadic eye movements. Journal of Neuroscience, 27, 8757-8770.

Van der Stigchel, S. (2010). The search for oculomotor inhibition: Interactions with working memory. Experimental Psychology, 57, 429-435.

Van der Stigchel, S., Mulckhuyse, M., & Theeuwes, J. (2009). Eye can't see it: The interference of subliminal distractors on saccade metrics. Vision Research, 49, 2104-2109.

Van der Stigchel, S., de Vries, J. P., Bethlehem, R., & Theeuwes, J. (2011). A global effect of capture saccades. Experimental Brain Research, 210, 57-65.

Vernet, M., Yang, Q., Gruselle, M., Trams, M., & Kapoula, Z. (2009). Switching between gap and overlap pro-saccades: cost or benefit? Experimental Brain Research, 197, 49-58.

Walker, R., & McSorley, E., (2006) The parallel programming of voluntary and reflexive saccades. Vision Research, 46, 2082-2093.

Walker, R. M., McSorley, E., & Haggard, P. (2006). The control of saccade trajectories: direction of curvature depends upon prior knowledge of target location and saccade latency. Perception & Psychophysics, 68, 129-138.

West, G., Welsh, T., and Pratt, J. (2009). Saccadic trajectories receive online correction: Evidence for a feedback-based system of oculomotor control. Journal of Motor Behavior, 41, 117-126.

White, B. J., Gegenfurtner, K. R., & Kerzel, D. (2005). Effects of structured nontarget stimuli on saccadic latency. Journal of Neurophysiology, 93, 3214-3223.

White, B. J., Kerzel, D., & Gegenfurtner, K. R. (2006). The spatio-temporal tuning of the mechanisms in the control of saccadic eye movements. Vision Research, 46, 3886-3897.

White, B. J., Stritzke, M., & Gegenfurtner, K. R. (2008). Saccadic facilitation in natural backgrounds. Current Biology, 18, 124-128.

Wu, C.-C., Kwon, O.-S., & Kowler, E. (2010). Fitts's Law and speed/accuracy trade-offs during sequences of saccades: Implications for strategies of saccadic planning. Vision Research, 50, 2142-2157.

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Saccade Adapation

Alahyane, N., Devauchelle, A.-D., Salemme, R., & Pelisson, D. (2008). Spatial transfer of adaptation of scanning voluntary saccades in humans. Neuroreport, 19, 37-41.

Alahyane, N., Fonteille, V., Urquizar, C., Salemme, R., Nighoghossian, N., Pelisson, D., & Tilikete, C. (2008). Separate neural substrates in the human cerebellum for sensory-motor adaptation of reactive and of scanning voluntary saccades. The Cerebellum, 7, 595-601.

Alahyane, N., Koene, A., & Pélisson, D. (2004). Transfer of adaptation from visually guided saccades to averaging saccades elicited by double visual targets. European Journal of Neuroscience, 20. 827-836.

Alahyane, N., & Pelisson, D. (2003). Adaptation of saccadic eye movements: Transfer and specificity. Annals of New York Academy of Sciences, 1004, 69-77.

Alahyane, N., & Pélisson, D. (2004). Eye position specificity of saccadic adaptation. Investigative Ophthalmology and Visual Science, 45, 123-130.

Alahyane, N., & Pelisson, D. (2005). Retention of saccadic adaptation in humans. Annals of the New York Academy of Sciences, 1039, 558-562.

Alahyane, N., & Pelisson, D. (2005). Long-lasting modifications of saccadic eye movements following adaptation induced in the double-step target paradigm. Learning and Memory, 12, 433-443.

Alahyane, N., Salemme, R., Urquizar, C., Cotti, J., Guillaume, A., Vercher, J.-L., & Pélisson, D. (2007). Oculomotor plasticity: Are mechanisms of adaptation for reactive and voluntary saccades separate? Brain Research, 1135, 107-121.

Bonnetblanc, F., & Baraduc, P. (2007). Saccadic adaptation without retinal postsaccadic error. Neuroreport, 18, 1399-1402.

Collins, T., Doré-Mazars, K., & Lappe, M. (2007). Motor space structures perceptual space: Evidence from human saccadic adaptation. Brain Research, 1172, 32-39.

Collins, T., Rolfs, M., Deubel, H., & Cavanagh, P. (2009). Post-saccadic location judgments reveal remapping of saccade targets to non-foveal locations. Journal of Vision, 9(5):29, 1-9, http://journalofvision.org/9/5/29/, doi:10.1167/9.5.29.

Collins, T., Heed, T., & Röder, B. (2010). Eye-movement driven changes in the perception of auditory space. Attention, Perception, & Psychophysics, 72, 736-746.

Cotti, J., Guillaume, A., Alahyane, N., Pelisson, D., & Vercher, J. -L. (2007). Adaptation of voluntary saccades, but not of reactive saccades, transfers to hand pointing movements. Journal of Neurophysiology, 98, 602-612.

Cotti, J., Panouilleres, M., Munoz, D. P., Vercher, J. -L., Pelisson, D., & Guillaume, A. (2009). Adaptation of reactive and voluntary saccades: different patterns of adaptation revealed in the antisaccade task. Journal of Physiology, 587, 127 - 138.

Gaveau, V., Alahyane, N., Salemme, R., & Desmurget, M. (2005). Self-generated saccades do not modify the gain of adapted reactive saccades. Experimental Brain Research, 162, 526-531.

Gaveau, V., Martin, O., Prablanc, C., Pélisson, D., Urquizar, C., & Desmurget, M. (2003). On-line modification of saccadic eye movements by retinal signals. Neuroreport, 14, 875-878.

Gaveau, V., Pélisson, D., Blangero, A., Urquizar, C., Prablanc, C., Vighetto, A., & Pisella, L. (2008). Saccade control and eye-hand coordination in optic ataxia. Neuropsychologia, 46, 475-486.

Georg, K., & Lappe, M. (2009). Effects of saccadic adaptation on visual localization before and during saccades. Experimental Brain Research, 192, 9-23.

Havermann, K., & Lappe, M. (2010). The influence of the consistency of post-saccadic visual error on saccadic adaptation. Journal of Neurophysiology, 103, 3302-3310.

Hernandez, T. D., Levitan, C. A., Banks, M. S., & Schor, C. M. (2008). How does saccade adaptation affect visual perception? Journal of Vision, 8(8):3, 1-16, http://journalofvision.org/8/8/3/, doi:10.1167/8.8.3.

Klingenhoefer, S., & Bremmer, F. (2011). Saccadic suppression of displacement in face of saccade adaptation. Vision Research, 51, 881-889.

Krab, L. C., de Goede-Bolder, A., Aarsen, F. K., Moll, H. A., De Zeeuw, C. I., Elgersma, Y., & van der Geest, J. N. (2011). Motor learning in children with Neurofibromatosis Type I. The Cerebellum, 10, 14-21.

Panouillères, M., Urquizar, C., Salemme, R., & Pélisson, D. (2011). Sensory processing of motor inaccuracy depends on previously performed movement and on subsequent motor corrections: A study of the saccadic system. PLoS ONE 6(2): e17329. doi:10.1371/journal.pone.0017329

Panouillères, M., Weiss, T., Urquizar, C., Salemme, R., Munoz, D. P., & Pelisson, D. (2009). Behavioural evidence of separate adaptation mechanisms controlling saccade amplitude lengthening and shortening. Journal of Neurophysiology, 101, 1550-1559.

Rolfs, M., Knapen, T., & Cavanagh, P. (2010). Global saccadic adaptation. Vision Research, 50, 1882-1890.

Schnier, F., Zimmermann, E., & Lappe, M. (2010). Adaptation and mislocalization fields for saccadic outward adaptation in humans. Journal of Eye Movement Research, 3(3):4, 1-18.

Srimal, R., & Curtis, C. E. (2010). Secondary adaptation of memory-guided saccades. Experimental Brain Research, 206, 35-46.

van der Geest, J. N., Haselen, G. C. L.-N., & Frens, M. A. (2006). Saccade adaptation in Williams-Beuren syndrome. Investigative Ophthalmology and Visual Science, 47, 1464-1468.

Zimmerman, E., & Lappe, M. (2010). Motor signals in visual localization. Journal of Vision, 10(6):2, 1-11, http://www.journalofvision.org/content/10/6/2, doi:10.1167/10.6.2.

Zimmermann, E., & Lappe, M. (2009). Mislocalization of flashed and stationary visual stimuli after adaptation of reactive and scanning saccades. Journal of Neuroscience, 29, 11055-11064.

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OKN

Blekher, T. M., Yee, R. D., Kirkwood, S. C., Hake, A. M., Stout, J. C., Weaver, M. R., & Foroud, T. M. (2004). Oculomotor control in asymptomatic and recently diagnosed individuals with the genetic marker for Huntington’s disease. Vision Research, 44, 2729-2736.

Harris, L. R., & Smith, A. T. (2000). Interactions between first- and second-order motion revealed by optokinetic nystagmus. Experimental Brain Research, 130, 67-72.

Hine, T. J., Wallis, G., Wood, J. M., & Stavrou, E. P. (2006). Reflexive optokinetic nystagmus in younger and older observers under photopic and mesopic viewing conditions . Investigative Ophthalmology and Visual Science, 47, 5288-5294.

Kaminiarz, A., Königs, K., & Bremmer, F. (2009). The main sequence of human Optokinetic Afternystagmus (OKAN). Journal of Neurophysiology, 101, 2889-2897.

Kaminiarz, A., Königs, K., & Bremmer, F. (2009). Task influences on the dynamic properties of fast eye movements. Journal of Vision, 9(13):1, 1-11, http://journalofvision.org/9/13/1/, doi:10.1167/9.13.1.

Kaminiarz, A., Krekelberg, B., & Bremme, F. (2007). Localization of visual targets during optokinetic eye movements. Vision Research, 47, 869-878.

Kaminiarz, A., Krekelberg, B., & Bremmer, F. (2008). Expansion of visual space during optokinetic afternystagmus (OKAN). Journal of Neurophysiology, 99, 2470-2478.

Kapoula, Z., Yang, Q., Vernet, M., Bonfils, P., & Londero, A. (2010). Eye movement abnormalities in somatic tinnitus: Fixation, smooth pursuit and optokinetic nystagmus. Auris Nasus Larynx, 37, 314-321.

Knapp, C. M., Gottlob, I., McLean, R. J., & Proudlock, F. A. (2008). Horizontal and vertical look and stare optokinetic nystagmus symmetry in healthy adult volunteers. Investigative Ophthalmology & Vision Science, 49, 581 - 588.

Knapp, C. M., Gottlob, I., McLean, R. J., Rafelt, S., & Proudlock, F. A. (2009). Effect of distance upon horizontal and vertical look and stare OKN. Journal of Vision, 9(12):23, 1-9, http://journalofvision.org/9/12/23/, doi:10.1167/9.12.23.

Knapp, C. M., Gottlob, I., McLean, R. J., Rajabally, Y. A., Abbott, R. J., Rafelt, S., & Proudlock, F. A. (2009). Vertical optokinetic nystagmus in Parkinson's disease. Movement Disorders, 24, 1533-1538.

Königs, K., Knöll, J., & Bremmer, F. (2007). Localisation of auditory targets during optokinetic nystagmus. Perception, 36, 1507-1512.

Leopold, D. A., Plettenberg, H. K., & Logothetis, N. K. (2002). Visual processing in the Ketamine-anesthetized monkey: Optokinetic and blood oxygenation level-dependent responses. Experimental Brain Research, 143, 359-372.

Schütz, A. C., Braun, D. I., & Gegenfurtner, K. R. (2009). Chromatic contrast sensitivity during optokinetic nystagmus, visually-enhanced vestibulo-ocular reflex and smooth pursuit eye movements. Journal of Neurophysiology, 101, 2317-2327.

 

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