| Neuroscience of Rule-Guided Behavior |
| | Competing Responses Based on Conditional Rules |
| | Ventrolateral and Medial Frontal Contributions |
| | Time Course of Executive Processes |
| | Posterior Frontolateral Cortex |
| | Flexible Cognitive Control |
| | Flexible Cognitive Control |
| | Cognitive Control in Cued Task-Switching |
| | Building Blocks of Rule Representation |
| | Ventrolateral Prefrontal Cortex |
| | Neuroscience of Rule-Guided Behavior |
| | >>Note: A fundamental question facing neuroscience is how complex behavior is controlled. This book brings together a number of leading cognitive and systems neuroscientists focusing on this question. Presenting a wide range of methods and approaches, these researchers provide novel insights into the neuronal mechanisms that support rule-guided behavior. |
| | Selection between Competing Responses Based on Conditional Rules |
| | Single Neuron Activity Underlying Behavior-Guiding Rules |
| | Neural Representations Used to Specify Action |
| | Maintenance of Task Rules |
| | Implementation of Task Rules |
| | The Neurophysiology of Abstract Response Strategies |
| | Abstraction of Mental Representations |
| | Theoretical Considerations |
| | Neuroscience of Rule-Guided Behavior |
| | >>Note: A fundamental question facing neuroscience is how complex behavior is controlled. This book brings together a number of leading cognitive and systems neuroscientists focusing on this question. Presenting a wide range of methods and approaches, these researchers provide novel insights into the neuronal mechanisms that support rule-guided behavior. |
| | Ventrolateral and Medial Frontal Contributions |
| | Primary Motor Cortices in Rule-Based Motor Behavior |
| | The Role of the Posterior Frontolateral Cortex in Task-Related Control |
| | Time Course of Executive Processes |
| | Data from the Event-Related Optical Signal |
| | Neuroscience of Rule-Guided Behavior |
| | >>Note: A fundamental question facing neuroscience is how complex behavior is controlled. This book brings together a number of leading cognitive and systems neuroscientists focusing on this question. Presenting a wide range of methods and approaches, these researchers provide novel insights into the neuronal mechanisms that support rule-guided behavior. |
| | Building Blocks of Rule Representation |
| | Ventrolateral Prefrontal Cortex and Controlling Memory to Inform Action |
| | Exploring the Roles of the... |
| | How Interactions between the Frontal Cortex and Basal Ganglia May Build Abstract |
| | Complex Rules from Concrete |
| | The Development of Rule Use in Childhood |
| | Neuroscience of Rule-Guided Behavior |
| | >>Note: A fundamental question facing neuroscience is how complex behavior is controlled. This book brings together a number of leading cognitive and systems neuroscientists focusing on this question. Presenting a wide range of methods and approaches, these researchers provide novel insights into the neuronal mechanisms that support rule-guided behavior. |
| | Task-Switching in Human and Nonhuman Primates |
| | Understanding Rule Encoding |
| | Control from Behavior to Single Neurons |
| | Neural Mechanisms of Cognitive Control in Cued Task-Switching |
| | Dopaminergic and Serotonergic Modulation of Two Distinct Forms of Flexible Cognitive Control |
| | Dopaminergic Modulation of Flexible Cognitive Control |
| | Neuroscience of Rule-Guided Behavior |
| | >>Note: A fundamental question facing neuroscience is how complex behavior is controlled. This book brings together a number of leading cognitive and systems neuroscientists focusing on this question. Presenting a wide range of methods and approaches, these researchers provide novel insights into the neuronal mechanisms that support rule-guided behavior. |
| |