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Vullings, C., & Madelain, L.. (2017). Contextual control of saccadic reaction times using a latency-contingent paradigm. European Conference on Visual Perception. Berlin, Germany: Berlin, Germany.
Vullings, C., & Madelain, L.. (2015). Choice and saccadic latency in a concurrent random interval reinforcement program. Forum annuel du Groupement De Recherche Vision. Grenoble, France: Grenoble, France.
Vullings, C., & Madelain, L.. (2017). Control of saccadic latencies in a concurrent interval reinforcement schedule. Association for Behavior Analysis International. Paris, France: Paris, France.
Vullings, C., & Madelain, L.. (2017). Discriminative control of saccadic reaction times using a latency-contingent visual search task. Society of Quantitative Analysis of Behavior. Denver, USA: Denver, USA.
Vullings, C., Harwood, M. R., & Madelain, L.. (2017). Reinforcement can reduce the size- latency phenomenon. Forum annuel du Groupement De Recherche Vision. Lille, France: Lille, France.
Vullings, C., Harwood, M. R., & Madelain, L.. (2017). Effect of reinforcement on the size-latency phenomenon. Vision Sciences Society. St. Pete Beach, USA: St. Pete Beach, USA.
Vullings, C., & Verghese, P.. (2019). Binocular scotoma mapping and eye movement patterns in central field loss. Gordon Research Conference on Eye Movements. Lewiston, USA: Lewiston, USA.
Vullings, C., & Madelain, L.. (2019). Discriminative control of saccade latencies. Journal Of Vision, 19(16), 1-15. http://doi.org/doi.org/10.1167/19.3.16
Vullings, C., & Madelain, L.. (2016). Reinforcement contingencies affect the allocation of saccades in time. Forum annuel du Groupement De Recherche Vision. Toulouse, France: Toulouse, France.
Vullings, C., & Madelain, L.. (2016). Control of saccadic latencies in a choice paradigm. European Conference on Visual Perception. Barcelona, Spain: Barcelona, Spain.
Vullings, C., & Madelain, L.. (2018). Classical conditioning of saccadic latencies using gap and overlap paradigms. Vision Sciences Society. St. Pete Beach, USA: St. Pete Beach, USA.
Vullings, C., & Madelain, L.. (2016). Saccadic latency and choice in a concurrent random interval reinforcement schedule. Vision Sciences Society. St. Pete Beach, USA: St. Pete Beach, USA.
Vullings, C., & Madelain, L.. (2018). One can choose one’s own saccadic reaction times. Association for Behavior Analysis International. San Diego, USA: San Diego, USA.
Vullings, C., & Madelain, L.. (2018). Control of saccadic latency in a dynamic environment: allocation of saccades in time follows the matching law. Journal Of Neurophysiology, 119, 413-421. http://doi.org/10.1152/jn.00634.2017
Vreven, D., & Verghese, P.. (2002). Integration of speed signals in the direction of motion. Perception & Psychophysics, 64, 996-1007.
Verghese, P., & Nakayama, K.. (1994). Stimulus discriminability in visual search. Vision Research, 34, 2453-67.
Verghese, P., McKee, S. P., & Grzywacz, N. M.. (2000). Stimulus configuration determines the detectability of motion signals in noise. Journal Of The Optical Society Of America. A, Optics, Image Science, And Vision, 17, 1525-34.

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