Litteratur

(0 = grundläggande, 1 = lättläst, 2 = mellansvår, 3 = svår)

Notera att föreläsningarna täcker nedanstående litteratur. Refererade artiklar, etc. behöver alltså endast läsas vid de tillfällen när du har missat en föreläsning!

Introduktion

(0) Kieras, D. E. (1987). Cognitive modeling. In Shapiro, S. C & Eckroth, D. (eds): Encyclopedia of artificial intelligence, vol 1, 111-115. New York: Wiley

(0) Cognitive Architectures in HCI (SIGCHI'96 discussions)

CPM-GOMS; Model human processor (MHP)

(2) Gary, W. D., John, B. E. & Atwood, M. E. (1993). Project Ernestine: Validating a GOMS analysis for predicting and explaining real-world task performance. Human Computer Interaction, 8, 3, 237-309

(1) Wiesmeyer, M. & Laird, J. (1993). Attentional modeling of object identification and search. In Rosenbloom, P. S., Laird, J. E., & Newell, A. (eds.): The Soar papers, volume 2, chapter 68. Cambridge, MA: MIT Press

Kognitiv neurovetenskap

(1) Kosslyn, S. M. (1994). Image and brain: The resolution of the imagery debate. (excerpt from chapter 2: Carving the system at its joints). Cambridge, MA: MIT Press

(1) Kosslyn, S. M. & Koenig, O. (1992). Wet mind: The new cognitive neuroscience. (chapter 9: Gray matters). New York: The Free Press

(3) McClelland, J. L. (1979). On the time relations of mental processes: An examination of systems of processes in cascade. Psychological Review, 86, 4, 287-330

Interactive activation modeller

(3) McClelland, J. L. & Rumelhart, D. E. (1981). An interactive activation model of context effects in letter perception: Part 1. An account for basic findings. Psychological Review, 88, 5, 375-407

(3) McClelland, J. L. (1979). On the time relations of mental processes: An examination of systems of processes in cascade. Psychological Review, 86, 4, 287-330

(2) En 'interactive activation'-modell för ordförståelse

Kort introduktion till artificiella neurala nätverk

(1) Vanliga frågor och svar (artificiella neurala nätverk: FAQ)

(1) Plunkett, K. & Elman, J. L. (1997). Exercises in rethinking innateness. (chapter 1: Introduction and overview). Cambridge, MA: MIT Press

Modelleringsmetodologi

(1) McClelland, J. L. & Rumelhart, D. E. (1986). Parallel distributed processing: Explorations into the micro-structure of cognition. Volume 1: Foundations. (chapter 1: The appeal of PDP). Cambridge, MA: MIT Press

(2) VanLehn, K. (1991). Architectures for intelligence. (chapters 1-2). Hillsdale, NJ: Erlbaum.

(1) Newell, A. (1990). Unified theories of cognition (chapter 1: Introduction). Cambridge, MA: Harvard University Press

(2) Anderson, J. R. (1993). Rules of the mind (chapter 1: Production systems and the ACT-R theory). Hillsdale, NJ: Erlbaum

(3) Law, A. M. & Kelton, W. D. (1991). Simulation modeling and analysis. (chapter 5: Building valid and credible simulation models). New York: McGraw-Hill

(1) Kieras, D. E. (1985). The why, when, and how of cognitive simulation. Behavior Research Methods, Instrumentation, and Computers, 17, 279-285.

(2) O'Reilly, R. C. (1988). Six principles for biologically based computational models of cortical cognition. Trends in Cognitive Sciences, 2, 11, 455-462

Utnyttja konvergens i modellering

(2) Kosslyn, S. M. (1994). Image and brain: The resolution of the imagery debate (chapter 3: High level vision). Cambridge, MA: MIT Press

(3) Grossberg, S. Mingolla, E. & Ross, W. D. (1994). A natural theory of attentive visual search: Interactions of boundary, surface, spatial, and object representations. Psychological Review, 101,, 470-489 3

Systematiskt utforska alternativ

(0) Full factorial experimental design and analysis

(2) Box, G. E. P., Hunter, W. G., & Hunter, J. S. (1978). Statistics for experimenters: An introduction to design, data analysis, and model building. New York: John Wiley & Sons

(2) Kovordányi, R. (2000). Controlled exploration of alternative mechanisms in cognitive modeling. In Proceedings of the Twenty Second Annual Meeting of the Cognitive Science Society.

EPIC

(2) Kieras, D. E., Meyer, D. E., Ballas, J.A., Lauber, E.J. (1999). Modern computational perspectives on executive mental processes and cognitive control. Where to from here? (EPIC Tech. Rep. No. 12, TR-98/ONR-EPIC-12). Ann Arbor, University of Michigan, Electrical Engineering and Computer Science Department.

Construction & Integration (CI)

Ref: (2) Kintsch, W. (1998). Comprehension: A paradigm for cognition. Cambridge, UK: Cambridge University Press

Ref: (2) Haarmann, H. J., Just M. A., & Carpenter, P. A. (1997). Aphasic sentence comprehension as a resource deficit: A computational approach. Brain and Language, 59, 1, 76-120

Soar

(1) Lehman, J. F., Laird, J., & Rosenbloom, P. S. (1996). A Gentle Introduction to SOAR: An Architecture for Human Cognition.

(1) Rosenbloom, P. S., Laird, J. E., & Newell, A. (1993). The Soar papers. (volume 2, chapter 35: Symbolic architectures for cognition). Cambridge, MA: MIT Press

(2) Soars arkitektur

(0) EPIC-Soar