To intercept or avoid moving objects successfully, we must compensate for the sensorimotor delays associated with visual processing and motor movement. Although straightforward in the case of constant velocity motion, it is unclear how humans compensate for accelerations, as our visual system is relatively poor at detecting changes in velocity. Work on free-falling objects suggests that we are able to predict the effects of gravity, but this represents the most simple, limiting case in which acceleration is constant and motion linear. Here, we show that an internal model also predicts the effects of complex, varying accelerations when they result from lawful interactions with the environment. Participants timed their responses with the arri...
Baures et al. [Baures, R., Benguigui, N., Amorim, M.-A., & Siegler, I. A. (2007). Intercepting free ...
nternal models of target motion: expected dynamics overrides measured kinematics in timing manual ...
Control of interceptive actions may involve fine interplay between feedback-based and predictive mec...
To intercept or avoid moving objects successfully, we must compensate for the sensorimotor delays as...
Prevailing views on how we time the interception of a moving object assume that the visual inputs ar...
Senot, Patrice, Myrka Zago, Francesco Lacquaniti, and Joseph McIntyre. Anticipating the effects of g...
Intercepting and avoiding collisions with moving objects are fundamental skills in daily life. Antic...
Abstract Prediction is a core function of the human visual system. Contemporary research suggests th...
AbstractBaurès et al. [Baurès, R., Benguigui, N., Amorim, M.-A., & Siegler, I. A. (2007). Intercepti...
Prevailing views on how we time the interception of a moving object assume that the visual inputs ar...
To accurately time motor responses when intercepting falling balls we rely on an internal model of g...
Baures et al. [Baures, R., Benguigui, N., Amorim, M.-A., & Siegler, I. A. (2007). Intercepting free ...
nternal models of target motion: expected dynamics overrides measured kinematics in timing manual ...
Control of interceptive actions may involve fine interplay between feedback-based and predictive mec...
To intercept or avoid moving objects successfully, we must compensate for the sensorimotor delays as...
Prevailing views on how we time the interception of a moving object assume that the visual inputs ar...
Senot, Patrice, Myrka Zago, Francesco Lacquaniti, and Joseph McIntyre. Anticipating the effects of g...
Intercepting and avoiding collisions with moving objects are fundamental skills in daily life. Antic...
Abstract Prediction is a core function of the human visual system. Contemporary research suggests th...
AbstractBaurès et al. [Baurès, R., Benguigui, N., Amorim, M.-A., & Siegler, I. A. (2007). Intercepti...
Prevailing views on how we time the interception of a moving object assume that the visual inputs ar...
To accurately time motor responses when intercepting falling balls we rely on an internal model of g...
Baures et al. [Baures, R., Benguigui, N., Amorim, M.-A., & Siegler, I. A. (2007). Intercepting free ...
nternal models of target motion: expected dynamics overrides measured kinematics in timing manual ...
Control of interceptive actions may involve fine interplay between feedback-based and predictive mec...