SummaryNeurophysiological studies of decision making have primarily focused on decisions about information that is stable over time. However, during natural behavior, animals make decisions in a constantly changing environment. To investigate the neural mechanisms of such dynamic choices, we recorded activity in dorsal premotor (PMd) and primary motor cortex (M1) while monkeys performed a two-choice reaching task in which sensory information about the correct choice was changing within each trial and the decision could be made at any time. During deliberation, activity in both areas did not integrate sensory information but instead tracked it and combined it with a growing urgency signal. Approximately 280 ms before movement onset, PMd acti...
Simple perceptual tasks have laid the groundwork for understanding the neurobiology of decision-maki...
Reward prospect weighs on motor decision processes, enhancing the selection of appropriate actions a...
Both decisionmaking and sensorimotor control require real-time processing of noisy information strea...
SummaryNeurophysiological studies of decision making have primarily focused on decisions about infor...
Recent theoretical models suggest that deciding about actions and executing them are not implemented...
When choosing actions, we can act decisively, vacillate, or suffer momentary indecision. Studying ho...
Decisions about actions typically involve a period of deliberation that ends with the commitment to ...
Decision-making is traditionally described as a cognitive process of deliberation followed by commit...
AbstractThe events linking sensory discrimination to motor action remain unclear. It is not known, f...
Most of our daily decisions are governed by one of two systems: an impulsive system driving instanta...
SummaryWe show that while a primate chooses between two reaching actions, its motor system first rep...
Most of our daily decisions are governed by one of two systems: an impulsive system driving instanta...
In the study of decision making, emphasis is placed on different forms of perceptual integration, wh...
Both decision making and sensorimotor control require real-time processing of noisy information stre...
Both decision making and sensorimotor control require real-time processing of noisy information stre...
Simple perceptual tasks have laid the groundwork for understanding the neurobiology of decision-maki...
Reward prospect weighs on motor decision processes, enhancing the selection of appropriate actions a...
Both decisionmaking and sensorimotor control require real-time processing of noisy information strea...
SummaryNeurophysiological studies of decision making have primarily focused on decisions about infor...
Recent theoretical models suggest that deciding about actions and executing them are not implemented...
When choosing actions, we can act decisively, vacillate, or suffer momentary indecision. Studying ho...
Decisions about actions typically involve a period of deliberation that ends with the commitment to ...
Decision-making is traditionally described as a cognitive process of deliberation followed by commit...
AbstractThe events linking sensory discrimination to motor action remain unclear. It is not known, f...
Most of our daily decisions are governed by one of two systems: an impulsive system driving instanta...
SummaryWe show that while a primate chooses between two reaching actions, its motor system first rep...
Most of our daily decisions are governed by one of two systems: an impulsive system driving instanta...
In the study of decision making, emphasis is placed on different forms of perceptual integration, wh...
Both decision making and sensorimotor control require real-time processing of noisy information stre...
Both decision making and sensorimotor control require real-time processing of noisy information stre...
Simple perceptual tasks have laid the groundwork for understanding the neurobiology of decision-maki...
Reward prospect weighs on motor decision processes, enhancing the selection of appropriate actions a...
Both decisionmaking and sensorimotor control require real-time processing of noisy information strea...