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Abstract

Prioritizing tasks appropriately is particularly critical when performing multiple tasks concurrently. Although necessary to achieve one's goals or avoid serious consequences, prioritization has not received much attention in the research literature, especially with respect to modeling human performance computationally. A conceptual framework that integrates several motivational theories, empirical studies, and neuroscience research is proposed to guide future studies of dynamic prioritization in multiple-goal contexts. Rooted in control theory, the proposed framework illustrates self-regulation processes in prioritizing tasks and explicitly shows important factors affecting the prioritization process so that empirical results can be integrated into the framework and future studies can be inferred. By illustrating information flow in the self-regulation processes and the brain structures associated with prioritization, the framework should help facilitate development of robust computational models of task prioritization.

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References

Bandura

(1997). Self-efficacy: The exercise of control. New York: Freeman.

Botvinick

M. M.

Braver

T. S.

Carter

C. S.

Barch

D. M.

Cohen

J. D.

(2001). Conflict monitoring and cognitive control Psychological Review, 108, 624–652.

Braver

T. S.

Cohen

J. D.

(2000). On the control of control: The role of dopamine in regulating prefrontal function and working memory In Monsell

Driver

(Eds.). Attention and Performance XVIII, Cambridge, MA: MIT Press.

Byrne

M. D.

Anderson

J. A.

(1997). Enhancing ACT-R's perceptual-motor abilities. Paper presented at the Proceedings of the Nineteenth Annual Conference of the Cognitive Science Society, Stanford University.

Colvin

(1999). Initial identification of factors that affect task prioritization on the flight deck. From http://flightdeck.ie.orst.edu/CTM/study1/study1.html.

Feyen

Liu

(2001). The queueing network-model human processor (QN-MHP): An engineering approach for modeling cognitive performance. Paper presented at the Proceedings of the 45th Annual Conference of the Human Factors and Ergonomics Society.

Freed

(2000). Reactive prioritization. Paper presented at the Proceedings of the 2nd NASA International Workshop on Planning and Scheduling for Space.

Jonsson

Ricks

(1995). Cognitive models of pilot categorization and prioritization of flight-deck information. From http://techreports.larc.nasa.gov/ltrs/PDF/NASA-95–tp3528.pdf.

Kahneman

Tversky

(1979). Prospect theory: An analysis of decision under risk Econometrica, 47(2), 263–291.

10.

Kernan

M. C.

Lord

R. G.

(1990). Effects of valence, expectancies, and goal-performance discrepancies in single and multiple goal environments Journal of Applied Psychology, 75, 194–203.

11.

Klein

H. J.

(1989). An integrated control theory model of work motivation Academy of Management Review, 14, 150–172.

12.

Kushleyeva

Salvucci

D. D.

Lee

F. J.

(2004). Deciding when to switch tasks in time-critical multitasking. Paper presented at the Proceedings of the Sixth International Conference on Cognitive Modeling.

13.

Lehto

M. R.

(1997). Decision making In Salvendy

(Ed.). Handbook of human factors & ergonomics (2nd edition). New York: John Wiley & Sons.

14.

Locke

E. A.

Smith

K. G.

Erez

Chah

Schaffer

(1994). The effects of intra-individual goal conflict on performance. Journal of Management, 20, 67–91.

15.

Meyer

D. E.

Kieras

D. E.

(1997). A computational theory of executive cognitive processes and multiple-task performance. Part 1. Basic mechanisms Psychological Review, 104, 2–65.

16.

Miller

E. K.

Cohen

J. D.

(2001). An integrative theory of prefrontal cortex function Annual Review in Neuroscience, 24, 167–202.

17.

Newell

(1990). Unified theories of cognition. Cambridge, MA: Harvard University Press.

18.

O'Reilly

R. C.

Noelle

D. C.

Braver

T. S.

Cohen

J. D.

(2002) Prefrontal cortex and dynamic categorization tasks: Representational organization and neuromodulatory control. Cerebral Cortex, 246–257.

19.

Powers

W. T.

(1973). Behavior: The control of perception. New York: Aldine DeGruyter.

20.

Salvucci

D. D.

Kushleyeva

Lee

F. J.

(2004). Toward an ACT-R general executive for human multitasking. Paper presented at the Proceedings of the Sixth International Conference on Cognitive Modeling.

21.

Schmidt

(2003). Self-regulation in concurrent multiple-goal contexts: The role of discrepancies, superordinate goal framing, and individual differences on dynamic goal prioritization. Unpublished PhD Dissertation, Michigan State University.

22.

Vancouver

J. B.

(1997). The application of HLM to the analysis of the dynamic interaction of environment, person and behavior Journal of Management, 23, 795–818.

23.

von Neumann

Morgenstern

(1947). Theory of games and economic behavior. Princeton, NJ: Princeton University Press.

24.

Vroom

(1964). Work and motivation. New York: Wiley.

A Conceptual Framework for Dynamic Prioritization in Multiple-Task Scenarios

Abstract

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References