Clonal Amplification of Behavior: A Simple Interpretation of the Effect of Reinforcement Open Access
Calvin, Olivia (Spring 2019)
Abstract
The theory of neuronal group selection (Edelman, 1987) is an account of neural development and dynamics that has been used as the theoretical basis for autonomous agents that are capable of an impressively wide range of adaptive behaviors (e.g., Edelman, 2007; Krichmar & Edelman, 2002; 2005; Krichmar, Nitz, Gally, & Edelman, 2005; Krichmar, Seth, Nitz, Fleischer, & Edelman, 2005; Seth & Edelman, 2007). Edelman’s theory draws parallels between natural selection and the adaptive dynamics of neuronal groups in response to environmental consequences. Critics have focused on the theory’s use of clonal amplification as the reproduction method, which they see as insufficiently adaptive (Crick, 1989; Fernando, Karishma, & Syathmary, 2008; Fernando, Goldstein, & Syathmary, 2010; Fernando, Szathmary, & Husbands, 2012). When comparing Edelman’s theory to the evolutionary theory of behavior dynamics (McDowell, 2004), McDowell argued that the theories differ in their reproduction methods and that a simulation that more purely models the clonal amplification dynamic may assess its viability (2010). This dissertation reports the results of the proposed simulations, which indicate that an implementation of the theory of neuronal group selection using clonal amplification can produce patterns of behavior that are quantitatively and qualitatively like humans and animals in operantly reinforcing environments. However, the range of viable parameters is smaller than for the evolutionary theory of behavior dynamics. There are also differences in the patterns of behavior predicted by the two theories that would need to be assessed with human or animal experiments to determine which is the better account.
Table of Contents
TABLE OF CONTENTS
Chapter 1: General Introduction ................................................................................................ 1
1.1. The Matching Law ............................................................................................................... 2
1.2. The Evolutionary Theory of Behavior Dynamics (ETBD) .................................................. 4
1.3. Theory of Neuronal Group Selection (TNGS) ..................................................................... 6
1.4. Practical Importance of Adaptive Models of Behavior ........................................................ 9
1.5. Objective of this Dissertation ............................................................................................. 11
Chapter 2: General Methods ..................................................................................................... 13
2.1. ETBD Creatures ................................................................................................................. 13
2.1.1. Representation of potential behaviors within the ETBD ............................................. 14
2.1.2. Step 3A: Beneficial selection ...................................................................................... 17
2.1.3. Step 4: Reproduction ................................................................................................... 19
2.1.4. Step 5: Variation .......................................................................................................... 20
2.2. Translating the TNGS to the ETBD: Three Algorithmic Variations ................................. 20
2.2.1. Algorithmic variant of step 4: Cloning reproduction .................................................. 23
2.2.2. Algorithmic variation of step 5: Phenotypic variation ................................................ 24
2.2.3. Algorithmic variant of step 3A: Roulette-continuous selection .................................. 26
2.3. Virtual Environments ......................................................................................................... 29
2.4. Apparatus ........................................................................................................................... 32
Chapter 3: ETBD and TNGS Behavior on Concurrent RI RI Schedules ............................. 33
3.1. Matching to Rates of Reinforcement on Single Schedules ................................................ 33
3.2. Methods .............................................................................................................................. 39
3.2.1. Participants .................................................................................................................. 39
3.2.2. Procedures ................................................................................................................... 40
3.2.3. Analyses ...................................................................................................................... 41
3.2.3.1. Data pooling and averaging .................................................................................. 42
3.2.3.2. Weighted ensemble fitting .................................................................................... 42
3.2.3.3. Analytic approach to ensemble fits ....................................................................... 46
3.2.3.4. Changeover profiles .............................................................................................. 48
3.3. Results ................................................................................................................................ 49
3.3.1. Best quantitative law of effect model .......................................................................... 49
3.3.2. Best fitting model parameters ...................................................................................... 51
3.3.2.1. Exponent (a) values .............................................................................................. 51
3.3.2.2. Asymptote (k) values ............................................................................................ 52
3.3.2.3. Rate of the quantitative law of effect’s ascent ...................................................... 53
3.3.3. Quadratic description of changeover profiles.............................................................. 55
3.3.4. Post-hoc analysis of changeover profiles .................................................................... 56
3.4. Discussion .......................................................................................................................... 62
3.4.1. Conformance to the matching law and the quantitative law of effect ......................... 62
3.4.2. Parameter values .......................................................................................................... 64
3.4.3. Changeovers ................................................................................................................ 65
3.4.4. Conclusion ................................................................................................................... 68
Chapter 4: Matching to Rates and Magnitudes of Reinforcement ........................................ 69
4.1. Methods .............................................................................................................................. 71
4.1.1. Participants .................................................................................................................. 71
4.1.2. Procedures ................................................................................................................... 72
4.1.3. Analyses ...................................................................................................................... 72
4.1.3.1. Data pooling and averaging .................................................................................. 73
4.1.3.2. Bivariate matching law equation .......................................................................... 73
4.2. Results ................................................................................................................................ 73
4.3. Discussion .......................................................................................................................... 75
4.3.1. Conclusion ................................................................................................................... 78
Chapter 5: General Discussion .................................................................................................. 79
REFERENCES ............................................................................................................................ 84
EQUATION SUMMARY .......................................................................................................... 96
FIGURES AND TABLES .......................................................................................................... 99
APPENDICES ........................................................................................................................... 135
Appendix A: Experiment 1 Fitting Measures of the Exponential-Bitwise-Bitflip Creature Type ................................................................................................................................................. 136
Appendix B: Experiment 1 Fitting Measures of the Exponential-Clone-Bitflip Creature Type ................................................................................................................................................. 152
Appendix C: Experiment 1 Fitting Measures of the Exponential-Clone-Pheno-Uniform Creature Type .......................................................................................................................... 168
Appendix D: Experiment 1 Fitting Measures of the Exponential-Clone-Pheno-Linear Creature Type ......................................................................................................................................... 184
Appendix E: Experiment 1 Fitting Measures of the Exponential-Clone-Pheno-Exponential Creature Type .......................................................................................................................... 200
Appendix F: Experiment 1 Fitting Measures of the Exponential-Clone-Pheno-Gaussian Creature Type .......................................................................................................................... 216
Appendix G: Experiment 1 Fitting Measures of the Linear-Bitwise-Bitflip Creature Type .. 232
Appendix H: Experiment 1 Fitting Measures of the Linear-Clone-Bitflip Creature Type ..... 248
Appendix I: Experiment 1 Fitting Measures of the Linear-Clone-Pheno-Uniform Creature Type ......................................................................................................................................... 264
Appendix J: Experiment 1 Fitting Measures of the Linear-Clone-Pheno-Linear Creature Type ................................................................................................................................................. 280
Appendix K: Experiment 1 Fitting Measures of the Linear-Clone-Pheno-Exponential Creature Type ......................................................................................................................................... 296
Appendix L: Experiment 1 Fitting Measures of the Linear-Clone-Pheno-Gaussian Creature Type ......................................................................................................................................... 312
Appendix M: Experiment 2 Bivariate Matching Fitting Measures ......................................... 328
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