Sitemap
A list of all the posts and pages found on the site. For you robots out there is an XML version available for digesting as well.
Pages
Posts
portfolio
publications
Online modification of goal-directed control in human reaching movements
Published in Journal of Neurophysiology, 2021
This work demonstrates that the control strategies used to perform reaching movements are adjusted online when the structure of the target changes during movement.
Recommended citation: De Comite, et al. (2021). "Online modification of goal-directed control in human reaching movements. " Journal of Neurophysiology 1. 125(5).
Download Paper
Reward-dependent selection of feedback gains impacts rapid motor decisions
Published in eNeuro, 2022
This work demonstrates the impact of target reward on feedback control and highlights the competition between movement vigor and flexibility
Recommended citation: De Comite, et al. (2022). "Reward-dependent selection of feedback gains impacts rapid motor decisions." eNeuro. 9(2).
Download Paper
Continuous tracking of task parameters tunes reaching control online
Published in eNeuro, 2022
This work unveils the existence of a continuous and online transformation of task-related parameters into suitable reaching control policies
Recommended citation: De Comite, et al. (2022). "Continuous tracking of task parameters tunes reaching control online." eNeuro 1. 9(4).
Download Paper
Continuous evaluation of cost-to-go for flexible reaching control and online decisions
Published in PLOS Computational Biology, 2023
This modeling work point towards the continuous evaluation of the cost-to-go during reaching to update control online and make efficient decisions about movement goal.
Recommended citation: De Comite, et al. (2023). "Continuous evaluation of the cost-to-go for flexible reaching control and online decisions." PLOS Computational Biology 1. 19(9).
Download Paper
Foot placement control underlies stable locomotion across species
Published in bioRxiv, 2024
This work discovers signatures of stabilizing control across species and reveals how different neuromechanical embodiments achieve a shared functional goal: goot placement control.
Recommended citation: De Comite and Seethapathi. (2024). "Foot placement control underlies stable locomotion across species. " bioRxiv.
Download Paper