The ability to perceive and produce movements in the real world with precise timing is critical for survival in animals, including humans. However, research on sensorimotor timing has rarely considered the tight interrelation between perception, action, and cognition. In this review, we present new evidence from behavioral, computational, and neural studies in humans and nonhuman primates, suggesting a pivotal link between sensorimotor control and temporal processing, as well as describing new theoretical frameworks regarding timing in perception and action. We first discuss the link between movement coordination and interval-based timing by addressing how motor training develops accurate spatiotemporal patterns in behavior and influences t...
Our interaction with the environment and each other is inherently time-varying in nature. It is thus...
AbstractWe have identified factors that control precise motor timing by studying learning in smooth ...
Encoding time is universally required for learning and structuring motor and cognitive actions, but ...
The ability to perceive and produce movements in the real world with precise timing is critical for ...
Time is centrally involved in most tasks the brain performs. However, the neurobiological mechanisms...
Timing plays a crucial role in sensorimotor function. However, the neural mechanisms that enable the...
© 2018 Elsevier Inc. Neural mechanisms that support flexible sensorimotor computations are not well ...
Timing can be defined as the ability to perceive temporal sequences and regulate timed behaviors. As...
Understanding how sensory and motor processes are temporally integrated to control behavior in the h...
SummaryTiming plays a crucial role in sensorimotor function. However, the neural mechanisms that ena...
Accurately timing sub-second sensory events is crucial when perceiving our dynamic world. This abili...
Neural mechanisms supporting time perception in continuously changing sensory environments may be re...
Temporal information-processing is critical for adaptive behavior and goal-directed action. It has a...
Several lines of evidence suggest that motoric brain structures may form the core amodal component o...
The ability to accurately determine when to perform actions is a fundamental function of the nervous...
Our interaction with the environment and each other is inherently time-varying in nature. It is thus...
AbstractWe have identified factors that control precise motor timing by studying learning in smooth ...
Encoding time is universally required for learning and structuring motor and cognitive actions, but ...
The ability to perceive and produce movements in the real world with precise timing is critical for ...
Time is centrally involved in most tasks the brain performs. However, the neurobiological mechanisms...
Timing plays a crucial role in sensorimotor function. However, the neural mechanisms that enable the...
© 2018 Elsevier Inc. Neural mechanisms that support flexible sensorimotor computations are not well ...
Timing can be defined as the ability to perceive temporal sequences and regulate timed behaviors. As...
Understanding how sensory and motor processes are temporally integrated to control behavior in the h...
SummaryTiming plays a crucial role in sensorimotor function. However, the neural mechanisms that ena...
Accurately timing sub-second sensory events is crucial when perceiving our dynamic world. This abili...
Neural mechanisms supporting time perception in continuously changing sensory environments may be re...
Temporal information-processing is critical for adaptive behavior and goal-directed action. It has a...
Several lines of evidence suggest that motoric brain structures may form the core amodal component o...
The ability to accurately determine when to perform actions is a fundamental function of the nervous...
Our interaction with the environment and each other is inherently time-varying in nature. It is thus...
AbstractWe have identified factors that control precise motor timing by studying learning in smooth ...
Encoding time is universally required for learning and structuring motor and cognitive actions, but ...