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ACT-R Φ ACT-R WITH A PHYSIOLOGICAL SUBSTRATE Christopher L. Dancy Ph.D. Candidate Applied Cognitive Science Lab The College of Information Sciences and Technology The Pennsylvania State University 1 ACT-R Workshop July 11, 2013 “Science involves confronting our `absolute stupidity'. That kind of stupidity is an existential fact, inherent in our efforts to push our way into the unknown.” – Schwartz, 2008

ACT-R Φ ACT-R with a physiological substrate

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ACT-R Φ ACT-R with a physiological substrate. “Science involves confronting our `absolute stupidity'. That kind of stupidity is an existential fact, inherent in our efforts to push our way into the unknown.” – Schwartz, 2008. Christopher L. Dancy Ph.D. Candidate Applied Cognitive Science Lab - PowerPoint PPT Presentation

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Page 1: ACT-R  Φ ACT-R with a physiological substrate

ACT-R ΦACT-R WITH A PHYSIOLOGICAL SUBSTRATE

Christopher L. Dancy

Ph.D. CandidateApplied Cognitive Science Lab

The College of Information Sciences and TechnologyThe Pennsylvania State University

1

ACT-R Workshop July 11, 2013

“Science involves confronting our `absolute stupidity'. That kind of stupidity is an existential fact, inherent in our efforts to push our way into the unknown.” – Schwartz, 2008

Page 2: ACT-R  Φ ACT-R with a physiological substrate

Ways Physiology can Modulate Cognition and Behavior (some priming…)

2

Appetitive Motivations1,2

Hunger, Thirst, Thermal Balance, etc. Sleep Stress3

Need to void4

1. Panksepp (2012) 2. Mogg et al. (1998)3. Joëls and Baram (2009)4. Tuk et al. (2011)5. Montano et al. (2012)

And these all interact!5

Page 3: ACT-R  Φ ACT-R with a physiological substrate

Biology/Physiology in ACT-R3

Ritter (2007, 2009) – Simulating the effects of stress & caffeine

Page 4: ACT-R  Φ ACT-R with a physiological substrate

Biology/Physiology in ACT-R4

Ritter (2007, 2009) – Simulating the effects of stress & caffeine

Changed parameters to simulate participants in different groups (challenged, threatened, caffeine)

seconds-per-syllable (SYL) base level constant (BLC) activation noise (ANS)

Parameter values were found using GA & were static across the task

Page 5: ACT-R  Φ ACT-R with a physiological substrate

Biology/Physiology in ACT-R5

Gunzelmann (2009, 2012) - Simulating the effects of Fatigue/Sleep deprevation

Page 6: ACT-R  Φ ACT-R with a physiological substrate

Biology/Physiology in ACT-R6

Gunzelmann (2009, 2012) - Simulating the effects of Fatigue/Sleep deprevation Used a model of fatigue (cognitive

throughput or alertness) due to sleep deprevation (CNPA)

Connected model to DM (activation) and Procedural (utility)

Page 7: ACT-R  Φ ACT-R with a physiological substrate

Questions from the two examples

7

How can we make cognition change physiology too (and in real-time)?

How can we combine results? How can we generalize the results?

Page 8: ACT-R  Φ ACT-R with a physiological substrate

HumMod1

8

1. Hester et al., 2011

Page 9: ACT-R  Φ ACT-R with a physiological substrate

Why HumMod?9

Integrative model1 Want to avoid “micro” computational models

of physiology Top-down organization

Provides macroscopic representation of physiology and some underlying functionality

Open-source model (XML) Allows verification, validation, and

modification (if needed) It’s software that works(!!!)

1. Hester et al., 2011

Page 10: ACT-R  Φ ACT-R with a physiological substrate

About HumMod10

Inputs (parameters) Exogenous changes to variables

e.g. Epinephrine pump, IV drip

Modify autonomic nerve activity

“Lifestyle” settings e.g. - Air supply, Exercise, Diet

Page 11: ACT-R  Φ ACT-R with a physiological substrate

About HumMod11

Page 12: ACT-R  Φ ACT-R with a physiological substrate

ACT-R12

1. Anderson et al., 2008

1

Page 13: ACT-R  Φ ACT-R with a physiological substrate

ACT-RΦ : An Extension to ACT-R13

Page 14: ACT-R  Φ ACT-R with a physiological substrate

A Modification of a Subtraction Model1,2

14

2. Dancy et al., Accepted1. Ritter et al., 2009

Page 15: ACT-R  Φ ACT-R with a physiological substrate

Subtraction model results1 (n=200)

15

1. Dancy et al., Accepted

Page 16: ACT-R  Φ ACT-R with a physiological substrate

16

Subtraction model results (n = 1,582,000 OR 2 * 3955 * 200)

1. Dancy et al., Accepted

Page 17: ACT-R  Φ ACT-R with a physiological substrate

17

Subtraction model results (n=200 * 3955 * 2)

1. Dancy et al., Accepted

Page 18: ACT-R  Φ ACT-R with a physiological substrate

18

A Thirsty model

1. Dancy et al., 2013

Page 19: ACT-R  Φ ACT-R with a physiological substrate

19

Thirsty model Results

1. Dancy et al., 2013

0.50.0-0.5-1.0-1.5

10

8

6

4

2

0

Accept Utility

Subj

ectiv

e Th

irst

Reject production rule utility

Decision Osmolarity (sd)

Subj. Thirst (sd)Acceptexperiment Not Reported 8.90(1.7)Accept model 306.37(0.2) 7.94(1.2)Rejectexperiment Not Reported 5.60(1.6)

Rejectmodel 305.86(3.74) 4.82(1.2)

Bothexperiment 310(5.0) 7.30(1.6)

Bothmodel 306.27(1.7) 7.29(1.7)

Page 20: ACT-R  Φ ACT-R with a physiological substrate

DiscussionSome things for which it could be useful

20

Perseveration & Autonomy Do you know what Perseveration is? Do you know what

Perseveration is? Do you know what Perseveration is? Do you know what Perseveration is? Do you know what Perseveration is?

Military Simulations Energy, Fatigue, and Stress (Physical and Mental)

Page 21: ACT-R  Φ ACT-R with a physiological substrate

DiscussionSome Possible Road Blocks

21

Visceral Sensory/Perception Conflict E.g. Hunger and Pain

What direct connections should we make?

SPEED!!! Ease of Use and Visualization

E.g., for 6,000+ variables

Page 22: ACT-R  Φ ACT-R with a physiological substrate

ConclusionA Future for ACT-R (and other architectures)?

22

This approach has several areas of improvement (see last slide) but that’s expected…

How do we use existing literature to develop these connections? Reviews of moderators that acknowledge

multiple levels (e.g., Joëls, 2009; Pankepp, 2012) are helpful.

Experiments that record (& control for) physiological data with psychological data (e.g., Wright, 2012) are helpful.

Page 23: ACT-R  Φ ACT-R with a physiological substrate

Acknowledgements23

ACS Lab @ Penn State Robert Hester Keith Berry Jon Morgan

Page 24: ACT-R  Φ ACT-R with a physiological substrate

References24

Anderson, J. R., Fincham, J. M., Qin, Y., & Stocco, A. (2008). A central circuit of the mind. Trends in Cognitive Sciences, 12(4), 136-143. Dancy, C. L., & Kaulakis, R. (2013). Towards Adding Bottom-Up Homeostatic Affect to ACT-R. In Proceedings of the Twelfth International Conference on Cognitive Modeling:Ottawa, Canada. Dancy, C. L., Ritter, F. E., & Berry, K. (Accepted). Using a cognitive architecture with a physiological substrate to represent effects of psychological stress on cognition. Computational & Mathematical Organization Theory. Gunzelmann, G., Gluck, K. A., Richard Moore Jr, L., & Dinges, D. F. (2012). Diminished access to declarative knowledge with sleep deprivation. Cognitive Systems Research, 13(1), 1-11. Gunzelmann, G., Gross, J. B., Gluck, K. A., & Dinges, D. F. (2009). Sleep deprivation and sustained attention performance: Integrating mathematical and cognitive modeling. Cognitive Science, 33(5), 880-910. Hester, R. L., Brown, A. J., Husband, L., Iliescu, R., Pruett, D., Summers, R., et al. (2011). HumMod: A modeling environment for the simulation of integrative human physiology. Frontiers in Physiology, 2(12). Joëls, M., & Baram, T. Z. (2009). The neuro-symphony of stress. [10.1038/nrn2632]. Nature Review in Neuroscience, 10(6), 459-466. Mogg, K., Bradley, B. P., Hyare, H., & Lee, S. (1998). Selective attention to food-related stimuli in hunger: Are attentional biases specific to emotional and psychopathological states, or are they also found in normal drive states? Behaviour Research and Therapy, 36(2), 227-237. Montano, N., Tobaldini, E., & Porta, A. (2012). The Autonomic Nervous System Stress Challenges and Immunity in Space. In A. Chouker (Ed.), (pp. 71-86): Springer Berlin Heidelberg. Panksepp, J., & Biven, L. (2012). The Archeology of Mind:

Neuroevoloutionary Origins of Human Emotions. New York, NY: W.W. Norton & Company. Ritter, F. E., Kase, S. E., Klein, L. C., Bennett, J., & Schoelles, M. (2009). Fitting a model to behavior tells us what changes cognitively when under stress and with caffeine. In Proceedings of the the Biologically Inspired Cognitive Architectures Symposium at the AAAI Fall Symposium. Keynote presentation, 109-115:Washington, DC. Ritter, F. E., Reifers, A. L., Klein, L. C., & Schoelles, M. J. (2007). Lessons from defining theories of stress. In W. D. Gray (Ed.), Integrated Models of Cognitive Systems (pp. 254-262). New York, NY: OUP. Tuk, M. A., Trampe, D., & Warlop, L. (2011). Inhibitory Spillover. Psychological Science, 22(5), 627-633.Wright, N. D., Hodgson, K., Fleming, S. M., Symmonds, M., Guitart-Masip, M., & Dolan, R. J. (2012). Human responses to unfairness with primary rewards and their biological limits. [10.1038/srep00593]. Scientific Reports, 2.