CORDIS Project
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This project explores the neural mechanisms behind anticipatory movements in stomatopods, focusing on their striking behavior. It aims to uncover how visual information is processed for rapid movement execution, contributing to our understanding of sensorimotor control in predatory species.
Controlling how the body is propelled through space is paramount for survival of most animals.
Many species, including humans, use feedback from their visual and proprioceptive systems to correct or confirm body movements.
However, feedback is limited to events that form part of the past.
For many high performance behaviors, such as catching a fast incoming ball, the appropriate movement must be 1. anticipated from a short observation period and 2. actuated without sensory feedback.
Understandi…
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