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Fig. 1. Reward-based, free-choice task and monkey's performance

Fig. 1. Reward-based, free-choice task and monkey's performance.

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Fig. 1. Reward-based, free-choice task and monkey's performance

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  1. Fig. 1. Reward-based, free-choice task and monkey's performance Fig. 1. Reward-based, free-choice task and monkey's performance. (A) Time chart of events that occurred during the task. (B) Diagram of large-reward probabilities for left, P(r | a = L), and right handle turn, P(r | a = R), in five types of trial blocks. (C) Representative record of individual choices in the five blocks of trials. Red and blue vertical lines indicate individual choices of trials (long line: large-reward trial, short line: small-reward trial, crosses: error trials with no reward). The light blue trace in the middle indicates the probability of a left-turn choice (PL, running average of last 10 choices). (D) Average curves of PL (solid line) and its 95% confidence interval (shaded band) in five trial blocks in monkey RO. Data of 977, 306, 282, 277, and 242 blocks are shown for 50-50, 10-50, 50-10, 50-90, and 90-50 blocks, respectively. Color code is the same as in (B). K. Samejima et al., Science 310, 1337 -1340 (2005)

  2. Fig. 2. Three representative reward-value coding neurons in the striatum K. Samejima et al., Science 310, 1337 -1340 (2005) Fig. 2. Three representative reward-value coding neurons in the striatum. (A) A left–action value (QL-type) neuron in the anterior striatum. Average discharge rates during 10-50 and 90-50 blocks (left panel) and during 50-10 and 50-90 blocks (right panel) are shown. (B) Three-dimensional bar graph of average magnitudes and standard deviation of activity during delay period [shaded period in (A)]. Floor gradient shows the regression surface of neuronal activity by large-reward probability after left and right turns. (C and D) A right–action value (QR-type) neuron in anterior putamen. (E and F) A differential–action value (  Q and m-type) neuron with correlation also to action choice. The average activity curves in (A), (C), and (E) are smoothed with a Gaussian kernel (   = 50 ms). Double and single asterisks indicate significant difference at P < 0.001 and P < 0.01 in Mann-Whitney U test, respectively.

  3. Fig. 3. Multiple regression analysis of neuronal activity with regressor of action value. (A) A scatter plot of partial regression coefficients of action values for left turn (QL) and right turn (QR). Blue circles, QL-type; red circles, QR-type; green squares,  Q-type; magenta triangles, V-type; crosses, m-type. Dark dots indicate neurons with no significant t-values for either regressor. Interrupted lines indicate levels of significant QL and QR slopes at P = 0.05 (t = ±1.97, 140 degrees of freedom). Open symbols indicate the neurons that also have significant regression coefficient of animals' choice, reaction time, or movement time. Letters a, b, and c indicate the example neurons in Fig. 2; A and B, C and D, and E and F, respectively. (B) Pie chart of neurons categorized into the four main types (QL, QR,  Q, and m) and three subtypes (  Q and m, QL and m, and QR and m).

  4. Fig. 4. Prediction of action choices and multiple regression analysis of neuronal activity by action values based on a reinforcement learning model K. Samejima et al., Science 310, 1337 -1340 (2005) Published by AAAS

  5. Fig. 1. (A) Frontoparallel magnetic resonance (MR) image of the brain of monkey F FOR MORE ON OFC IN PRIMATE: CHECK THIS OUT!! M. R. Roesch et al., Science 304, 307 -310 (2004) Published by AAAS

  6. Fig. 2. (A) Sequence of events in the reward-penalty task M. R. Roesch et al., Science 304, 307 -310 (2004) Published by AAAS

  7. Fig. 3. Neuronal activity in OF reflects the value conveyed by the incentive cues M. R. Roesch et al., Science 304, 307 -310 (2004) Published by AAAS

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