Interception
Brenner E, Smeets JBJ (1994) Different frames of reference for position and motion. Naturwissenschaften 81, 30-32. pdf
Smeets JBJ, Brenner E (1995) Prediction of a moving target's position in fast goal-directed action. Biol Cybern 73, 519-528. pdf
Smeets JBJ, Brenner E (1995) Perception and action are based on the same visual information: distinction between position and velocity. J Exp Psychol Hum Percept Perform 21, 19-31. pdf
Brenner E, Smeets JBJ (1996) Hitting moving targets: Co-operative control of 'when' and 'where'. Human Movement Science 15, 39-53. pdf
Smeets JBJ, Brenner E, Trebuchet S, Mestre DR (1996) Is judging time-to-contact based on 'tau'? Perception 25, 583-590. pdf
Brenner E, Smeets JBJ (1997) Fast Responses of the Human Hand to Changes in Target Position. J Mot Behav 29, 297-310. pdf
Brenner E, Smeets JBJ, de Lussanet MH (1998) Hitting moving targets. Continuous control of the acceleration of the hand on the basis of the target's velocity. Experimental Brain Research 122, 467-474. pdf
Brouwer AM, Brenner E, Smeets JBJ (2000) Hitting moving objects. The dependency of hand velocity on the speed of the target. Experimental Brain Research 133, 242-248. pdf
de Lussanet MH, Smeets JBJ, Brenner E (2001) The effect of expectations on hitting moving targets: influence of the preceding target's speed. Experimental Brain Research 137, 246-248. pdf
Brenner E, de Lussanet MH, Smeets JBJ (2002) Independent control of acceleration and direction of the hand when hitting moving targets. Spat Vis 15, 129-140. pdf
Brouwer AM, Brenner E, Smeets JBJ (2002) Hitting moving objects: is target speed used in guiding the hand? Experimental Brain Research 143, 198-211. pdf
de Lussanet MH, Smeets JBJ, Brenner E (2002) Relative damping improves linear mass-spring models of goal-directed movements. Hum Mov Sci 21, 85-100. pdf
de Lussanet MH, Smeets JBJ, Brenner E (2002) The relation between task history and movement strategy. Behav Brain Res 129, 51-59. pdf
Brouwer AM, Middelburg T, Smeets JBJ, Brenner E (2003) Hitting moving targets: a dissociation between the use of the target's speed and direction of motion. Experimental Brain Research 152, 368-375. pdf
de Lussanet MH, Smeets JBJ, Brenner E (2004) The quantitative use of velocity information in fast interception. Experimental Brain Research 157, 181-196. pdf
Brenner E, Smeets JBJ (2005) Intercepting moving targets: why the hand's path depends on the target's velocity. In Human Vision and Electronic Imaging X, edited by B.E.Rogowitz, T.N.Pappas, S.J.Daly. Proc. SPIE-IS&T Electronic Imaging, SPIE Vol. 5666, 374-384. pdf
Brouwer AM, Smeets JBJ, Brenner E (2005) Hitting moving targets: effects of target speed and dimensions on movement time. Experimental Brain Research 165, 28-36. pdf
Brouwer AM, Lopez-Moliner J, Brenner E, Smeets JBJ (2006) Determining whether a ball will land behind or in front of you: not just a combination of expansion and angular velocity. Vision Research 46, 382-391. pdf
Brenner E, Smeets JBJ (2007) Flexibility in intercepting moving objects. Journal of Vision 7, 14. pdf
Brenner E, Smeets JBJ (2009) Sources of variability in interceptive movements. Experimental Brain Research 195, 117-133. pdf
Brenner E, Smeets JBJ (2009) Modifying one's hand's trajectory when a moving target's orientation changes. Experimental Brain Research 196, 375-383. pdf
Brenner E, Smeets JBJ (2010) How well can people judge when something happened? Vision Research 50, 1101-1108. pdf
Brenner E, Smeets JBJ (2010) Intercepting moving objects: do eye movements matter? In: R Nijhawan & B Khurana (eds) Space and time in perception and action. Cambridge University Press. 109-120. pdf
López-Moliner J, Brenner E, Louw S, Smeets JBJ (2010) Catching a gently thrown ball. Experimental Brain Research 206, 409-417. pdf
Brenner E, Smeets JBJ (2011) Continuous visual control of interception. Human Movement Science 30, 475-494. pdf
Schot WD, Brenner E, Smeets JBJ (2011) Grasping and hitting moving objects. Experimental Brain Research 212, 487-496. pdf
Brenner E, van Dam M, Berkhout S, Smeets JBJ (2012) Timing the moment of impact in fast human movements. Acta Psychologica 141, 104-111. pdf
de la Malla C, López-Moliner J, Brenner E (2012) Seeing the last part of a hitting movement is enough to adapt to a temporal delay. Journal of Vision 12(10):4, 1-15. pdf
Brenner E, Canal-Bruland R, van Beers RJ (2013) How the required precision influences the way we intercept a moving object. Experimental Brain Research 230, 207-218. pdf
Brenner E, Driesen B, Smeets JBJ (2014) Precise timing when hitting falling balls. Frontiers Human Neuroscience 8, 342. pdf
de la Malla C, López-Moliner J, Brenner E (2014) Dealing with delays does not transfer across sensorimotor tasks. Journal of Vision 14(12):8. pdf
Aivar MP, Brenner E, Smeets JBJ (2015) Hitting a target is fundamentally different from avoiding obstacles. Vision Research 110, 166-178. pdf
Brenner E, Smeets JBJ (2015) How moving backgrounds influence interception. PLoS One 10(3):e0119903. pdf
Brenner E, Smeets JBJ (2015) How people achieve their amazing temporal precision in interception. Journal of Vision 15(3):8. pdf
Brenner E, Abalo I, Estal V, Schootemeijer S, Mahieu Y, Veerkamp K, Zandbergen M, van der Zee T, Smeets JBJ (2016) How can people be so good at intercepting accelerating objects if they are so poor at visually judging acceleration? i-Perception 7, 2041669515624317. pdf
López-Moliner J, Brenner E (2016) Flexible timing of eye movements when catching a ball. Journal of Vision 16(5):13. pdf
Brenner E, Smeets JBJ (2017) Accumulating visual information for action. Progress in Brain Research 236, 75-95. pdf
de la Malla C, Smeets JBJ, Brenner E (2017) Potential Systematic Interception Errors are Avoided When Tracking the Target with One's Eyes. Scientific Reports 7, 10793. pdf
Brenner E, Smeets JBJ (2018) Continuously updating one's predictions underlies successful interception. Journal of Neurophysiology 120, 3257-3274. pdf
Cámara C, de la Malla C, López-Moliner J, Brenner E (2018) Eye movements in interception with delayed visual feedback. Exp Brain Res. 236, 1837-1847. pdf
de Dieuleveult AL, Brouwer AM, Siemonsma PC, Van Erp JBF, Brenner E (2018) Aging and sensitivity to illusory target motion with or without secondary tasks. Multisensory Research 31, 227-249. pdf
de la Malla C, Smeets JBJ, Brenner E (2018) Errors in interception can be predicted from errors in perception. Cortex 98, 49-59 pdf
de la Malla C, Brenner E, de Haan EHF, Smeets JBJ (2019) A visual illusion that influences perception and action through the dorsal pathway. Commun Biol 2:38 pdf
de la Malla C, Rushton S, Clark K, Smeets JBJ, Brenner E (2019) The predictability of a target's motion influences gaze, head and hand movements when trying to intercept it. Journal of Neurophysiology 121, 2416-2427. pdf
Fiehler K, Brenner E, Spering M (2019) Prediction in goal-directed action. Journal of Vision 19(9):10. pdf
Goettker A, Brenner E, Gegenfurtner KR, de la Malla C (2019) Corrective saccades influence velocity judgments and interception. Scientific Reports 9(1):5395 pdf
Mann DL, Nakamoto H, Logt N, Sikkink L, Brenner E (2019) Predictive eye movements when hitting a bouncing ball. Journal of Vision 19(14)28, 1-21. pdf
Nelson JS, Baud-Bovy G, Smeets JBJ, Brenner E (2019) Accuracy of Intercepting Moving Tactile Targets. Perception 48, 685-701 pdf
Cámara C, López-Moliner J, Brenner E, de la Malla C (2020) Looking away from a moving target does not disrupt the way in which the movement toward the target is guided. Journal of Vision 20(5):5 pdf
Crowe EM, Bossard M, Brenner E (2021) Can ongoing movements be guided by allocentric visual information when the target is visible? Journal of Vision 21(1)6, 1-10. pdf
Crowe EM, Bossard M, Karimpur H, Rushton SK, Fiehler K, Brenner E (2021) Further Evidence That People Rely on Egocentric Information to Guide a Cursor to a Visible Target. Perception 50, 904-907. pdf
Crowe EM, Smeets JBJ, Brenner E (2021) The response to background motion: Characteristics of a movement stabilization mechanism. Journal of Vision 21(11)3, 1-15. pdf
Crowe EM, Vellekoop P, van Meteren C, Smeets JBJ, Brenner E (2022) How similar are responses to background motion and target displacements? Experimental Brain Research 240, 2667-2676. pdf
Brenner E, de la Malla C, Smeets JBJ (2023) Tapping on a target: dealing with uncertainty about its position and motion. Experimental Brain Research 241, 81-104. pdf
Brenner E, Smeets JBJ (2023) Continuous use of visual information about the position of the moving hand. Experimental Brain Research 241, 2001-2008 pdf
Crowe EM, Smeets JBJ, Brenner E (2023) Online updating of obstacle positions when intercepting a virtual target. Experimental Brain Research 241, 1811-1820 pdf
Crowe EM, Smeets JBJ, Brenner E (2023) Spatial contextual cues that help predict how a target will accelerate can be used to guide interception. Journal of Vision 23(12):7, 1-8 pdf