Laurent Madelain

Davison, M., Cowie, S., Vullings, C., & Madelain, L. (2020). Modeling the effects of location on choice: Saccadic latencies. Online: New Zealand Association for Behaviour Analysis. (Original work published 2020)
View
López-Moliner, J., Vullings, C., Madelain, L., & van Beers, R. J. (2019). Prediction and final temporal errors are used for trial-to-trial motor corrections. Scientific Reports, 9(19230), 1-15. https://doi.org/10.1038/s41598-019-55560-6 (Original work published 2019)
View
Vullings, C., & Madelain, L. (2018). Classical conditioning of saccadic latencies using gap and overlap paradigms. Vision Sciences Society. St. Pete Beach, USA. (Original work published 2018)
View
Vullings, C., & Madelain, L. (2016). Reinforcement contingencies affect the allocation of saccades in time. Forum Annuel Du Groupement De Recherche Vision. Toulouse, France. (Original work published 2016)
View
Vullings, C., Harwood, M. R., & Madelain, L. (2017). Reinforcement can reduce the size- latency phenomenon. Forum Annuel Du Groupement De Recherche Vision. Lille, France. (Original work published 2017)
View
Vullings, C., & Madelain, L. (2017). Control of saccadic latencies in a concurrent interval reinforcement schedule. Association For Behavior Analysis International. Paris, France. (Original work published 2017)
View
Vullings, C., & Madelain, L. (2018). One can choose one’s own saccadic reaction times. Association For Behavior Analysis International. San Diego, USA. (Original work published 2018)
View
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. (Original work published 2017)
View
Vullings, C., & Madelain, L. (2017). Contextual control of saccadic reaction times using a latency-contingent paradigm. European Conference On Visual Perception. Berlin, Germany. (Original work published 2017)
View
López-Moliner, J., Vullings, C., Madelain, L., & van Beers, R. J. (2018). Different ways for correcting for previous temporal errors in interception tasks. Vision Sciences Society. St. Pete Beach, USA. (Original work published 2018)
View