| Preface |
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vii | |
| Acknowledgments |
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xv | |
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1 | (32) |
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1.1 Choosing, Moving, Then Harvesting |
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1 | (2) |
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3 | (10) |
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1.3 Utility of a Movement |
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13 | (7) |
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1.4 Additive versus Multiplicative Interaction of Reward and Effort |
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20 | (1) |
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1.5 Temporal Discounting of Effort |
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21 | (3) |
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1.6 Alternative Representations of Effort |
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24 | (3) |
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1.7 Cognitive Effort versus Movement Effort |
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27 | (6) |
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2 Movements and Decisions in a Normative Framework |
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33 | (44) |
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2.1 Optimal Foraging Theory |
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35 | (8) |
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2.2 Marginal Value Theorem |
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43 | (8) |
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2.3 Optimizing Movement Vigor |
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51 | (5) |
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2.4 Example: Walking Speed |
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56 | (4) |
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2.5 Walking Speed at Various Cities |
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60 | (2) |
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2.6 Foraging with Our Eyes |
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62 | (7) |
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2.7 Salience versus Utility |
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69 | (8) |
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3 Reaction Time and Deliberation |
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77 | (52) |
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3.1 Latency to Start a Movement: The LATER Model |
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80 | (3) |
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3.2 The Variable Threshold Model |
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83 | (1) |
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3.3 Linking Latency and Utility |
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84 | (4) |
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3.4 Reward Modulates Vigor |
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88 | (7) |
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3.5 Effort Modulates Vigor |
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95 | (3) |
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3.6 Rate of Reward Modulates Vigor |
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98 | (3) |
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3.7 Deliberation and Decision-Making |
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101 | (6) |
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3.8 Modulation of Saccade Vigor during Decision-Making |
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107 | (5) |
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3.9 Decision Uncertainty and Vigor of Movements |
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112 | (2) |
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3.10 Between-Subject Differences in Vigor |
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114 | (5) |
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3.11 Decision-Making and Movement Traits of Individuals |
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119 | (10) |
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4 Neural Prelude to a Movement |
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129 | (46) |
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130 | (4) |
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134 | (4) |
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4.3 Bursting to Hold Still |
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138 | (6) |
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4.4 Movement Latency and the Activity in the Fovea-Related Cells |
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144 | (4) |
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4.5 Movement Latency and the Rate of Rise in the Buildup Cells |
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148 | (4) |
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4.6 Reaction Time as an Interaction between Utility of Holding versus Utility of Moving |
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152 | (4) |
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4.7 Salience versus Utility |
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156 | (1) |
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4.8 Effect of Reward on the Colliculus |
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157 | (5) |
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4.9 Reacting Much Earlier |
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162 | (7) |
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4.10 Influencing Decisions with Manipulation of the Colliculus |
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169 | (6) |
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5 Cortical Computation of Utility |
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175 | (56) |
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5.1 Moving without Computation of Utility |
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177 | (2) |
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5.2 Attention and the Effort Cost of Movement |
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179 | (5) |
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5.3 Inhibiting Reflexive Behavior |
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184 | (4) |
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5.4 Activity in the FEF during the Reaction Time Period |
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188 | (5) |
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5.5 FEF and Deciding Where to Direct Gaze |
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193 | (9) |
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5.6 Setting a Threshold to Move: Omnipause Neurons |
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202 | (4) |
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5.7 The Premotor Cortex and the Decision to Reach |
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206 | (6) |
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5.8 Encoding Utility and Salience in the Parietal Cortex |
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212 | (8) |
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5.9 Good-Based versus Action-Based Models of Decision-Making |
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220 | (4) |
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5.10 Deciding When to Leave |
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224 | (7) |
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6 Basal Ganglia and the Motivation to Move |
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231 | (58) |
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6.1 Anatomy of the Basal Ganglia |
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233 | (1) |
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6.2 Substantia Nigra Reticulata |
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234 | (10) |
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244 | (12) |
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6.4 Dopamine and the Pleasure of Moving |
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256 | (22) |
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6.5 Dopamine and the Willingness to Exert Effort |
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278 | (11) |
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7 Serotonin and the Promotion of Sloth |
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289 | (34) |
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7.1 Anatomy of the Serotonergic System |
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290 | (2) |
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7.2 Serotonin and the Average Reward Rate |
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292 | (3) |
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7.3 Serotonin and the Willingness to Wait |
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295 | (11) |
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7.4 Serotonin and Movement Vigor |
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306 | (6) |
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7.5 Serotonin, Dopamine, and the Willingness to Work |
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312 | (4) |
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7.6 Serotonin and Motoneuron Activity |
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316 | (7) |
| Conclusions |
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323 | (6) |
| Appendix A Effective Mass of the Human Arm |
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329 | (2) |
| Appendix B Alternate Forms of Utility |
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331 | (2) |
| Appendix C Algebra of Random Variables |
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333 | (4) |
| References |
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337 | (12) |
| Index |
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349 | |
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