| ©1990, 1995 | (index) | General contents |
[1] Ackermann, D. (1986). A pilot study on the effects of individualization in man-computer-interaction. In: Mancini, G., Johannsen, G., and Martensen, L. (eds), Analysis, Design and Evaluation of Man-Machine Systems. Pergamon, Oxford.
[2] a b Alengry, P. (1987). The analysis of knowledge representation of nuclear power plant control room operators. In: Bullinger, H.-J. and Shackel, B. (eds), Human-Computer Interaction—INTERACT '87. North-Holland, Amsterdam.
[3] Alty, J. L., Elzer, P., Holst, O., Johannsen, G., and Savory, S. (1986). Literature and user survey of issues related to man-machine interfaces for supervision and control. Internal Report AMU8603/01S, Scottish HCI Centre, Glasgow.
[4] Amarel, S. (1968). On representation of problems of reasoning about actions. In: Michie, D. (ed.), Machine Intelligence 3, ch 10, pp. 131–171. Edinburgh University Press.
[5] Anderson, J. R. (1983). The Architecture of Cognition. Harvard University Press, Cambridge, MA.
[6] a b c d Bainbridge, L. (1981). Verbal reports as evidence of the process operator's knowledge. In: Mamdani, E. H. and Gaines, B. R. (eds), Fuzzy Reasoning and its Applications, pp. 343–368. Academic Press, London.
[7] Bainbridge, L. (1988). Types of representation. In: Goodstein, L. P., Andersen, H. B., and Olsen, S. E. (eds), Tasks, Errors and Mental Models, ch 4. Taylor & Francis, London.
[8] Ball, W. E. (1982). Mathematical model for simulating MCMV manoeuvring and dynamic positioning. Technical report, Hydrodynamics Department AMTE (Haslar), Haslar, Gosport, Hampshire.
[9] a b c d Barnard, P. J. (1987). Cognitive resources and the learning of human-computer dialogs. In: Carroll, J. M. (ed.), Interfacing Thought: Cognitive Aspects of Human-Computer Interaction, ch 6. MIT Press, Cambridge, MA.
[10] Bartlett, F. C. (1932). Remembering. Cambridge University Press, Cambridge, England.
[11] a b Bellotti, V. (1988). Implications of current design practice for the use of HCI techniques. In: Jones, D. M. and Winder, R. (eds), People and Computers IV. Cambridge University Press, Cambridge, England.
[12] a b Bennett, J. L., Lorch, D. J., Kieras, D. E., and Polson, P. G. (1987). Developing a user interface technology for use in industry. In: Bullinger, H.-J. and Shackel, B. (eds), Human-Computer Interaction—INTERACT '87. North-Holland, Amsterdam.
[13] a b Benyon, D. (1987). User models. what's the purpose? In: Cooper, M. and Dodson, D. (eds), Proceedings of the Second Intelligent Interfaces Meeting, London. IEE for the Alvey Directorate.
[14] a b Bignell, V. and Fortune, J. (1984). Understanding Systems Failures. Manchester University Press, Manchester.
[15] a b Blackwell, G. K., Colley, B. A., and Stockel, C. T. (1988). A real-time intelligent system for maritime collision avoidance. In: Gero, S. (ed.), Artificial Intelligence in Engineering: Diagnosis and Learning, pp. 119–138. Elsevier, Amsterdam.
[16] a b c Booth, P. A. (1991). Modelling the user: User-system errors and predictive grammars. In: Weir, G. R. S. and Alty, J. L. (eds), Human-Computer Interaction and Complex Systems, ch 5. Academic Press, London.
[17] Bratko, I. (1989). Pole balancing: A study in qualitative reasoning about control. In: 4th ISSEK Scientific Workshop, pp. 27–44, Udine, Italy.
[18] Brewer, W. F. (1987). Schemas versus mental models in human memory. In: Morris, P. (ed.), Modelling Cognition. John Wiley, Chichester.
[19] a b Cahill, R. A. (1983). Collisions and their Causes. Fairplay Publications, London.
[20] a b c d e f g h i Card, S. K., Moran, T. P., and Newell, A. (1983). The Psychology of Human-Computer Interaction. Lawrence Erlbaum Associates, Hillsdale, NJ.
[21] a b c Carroll, J. M. (1984). Mental models and software human factors: An overview. Technical Report RC 10616 (47016), IBM Watson Research Centre, Yorktown Heights, NY.
[22] Chambers, R. A. and Michie, D. (1969). Man-machine co-operation on a learning task. In: Parslow, R., Prowse, R., and Graan, R. E. (eds), Computer Graphics: Techniques and Applications, pp. 179–186. Plenum Publishing, London.
[23] a b Clark, P. and Niblett, T. (1989). The CN2 induction algorithm. Machine Learning, 3(4): 261–283.
[24] Clocksin, W. F. and Morgan, A. J. (1986). Qualitative control. In: Proceedings of European Conference on Artificial Intelligence, Brighton.
[25] Cockcroft, A. N. (1972). A manoeuvring diagram for avoiding collisions at sea. Journal of Navigation, 25(1): 105–107.
[26] Coenen, F. P., Smeaton, G. P., and Bole, A. G. (1989). Knowledge-based collision avoidance. Journal of Navigation, 42(1): 107–116.
[27] Colley, B. A., Curtis, R. G., and Stockel, C. T. (1983). Manoeuvring times, domains and arenas. Journal of Navigation, 36(2): 324–328.
[28] Colley, B. A., Curtis, R. G., and Stockel, C. T. (1984). A marine traffic flow and collision avoidance computer simulation. Journal of Navigation, 37(2): 232–250.
[29] Curtis, R. G. (1978). Determination of mariners' reaction times. Journal of Navigation, 31(3): 408–417.
[30] a b Curtis, R. G., Goodwin, E. M., and Konyn, M. (1987). The automatic detection of real-life ship encounters. Journal of Navigation, 40(3): 355–365.
[31] Donaldson, P. E. K. (1960). Error decorrelation: A technique for matching a class of functions. In: Proceedings of the Third International Conference on Medical Electronics, pp. 173–178.
[32] Duncan, K. D. (1987). Fault diagnosis training for advanced continuous process installations. In: Rasmussen, J., Duncan, K., and Leplat, J. (eds), New Technology and Human Error. John Wiley & Sons, Chichester.
[33] Duncan, K. D. and Prætorius, N. (1987). Knowledge capture for fault diagnosis training. Advances in Man-Machine Systems Research, 3.
[34] a b Eastwood, E. (1968). Control theory and the engineer. Proceedings IEE, 115(1): 203–211.
[35] Fagan, L. M., Kunz, J. C., Feigenbaum, E. A., and Osborn, J. J. (1979). Representation of dynamic clinical knowledge: Measurement interpretation in the intensive care unit. In: IJCAI-79, pp. 260–262, Tokyo.
[36] Ferranti plc, Strathclyde University, and YARD Ltd (1985). Identification of applied MMI research to aid real-time decision-making. Report ALV/PRJ/MMI/004 and 031, YARD Report No. 3068, YARD Ltd., Glasgow.
[37] a b Forbus, K. D. (1983). Qualitative reasoning about space and motion. In: Gentner, D. and Stevens, A. L. (eds), Mental Models, ch 4. Lawrence Erlbaum Associates, Hillsdale, NJ.
[38] Forbus, K. D. (1984). Qualitative process theory. Artificial Intelligence, 24: 85–168.
[39] Gams, M. and Lavrac, N. (1987). Review of five empirical learning systems within a proposed schemata. In: Bratko, I. and Lavrac, N. (eds), Progress in Machine Learning: Proceedings of EWSL-87, Bled, Yugoslavia, pp. 46–66, Wilmslow. Sigma Press.
[40] Gentner, D. and Stevens, A. L. (eds) (1983). Mental Models. Lawrence Erlbaum Associates, Hillsdale, NJ.
[41] a b Gilhooly, K. J. (ed.) (1989). Human and Machine Problem Solving. Plenum Press, New York.
[42] Ginsberg, M. L. (ed.) (1987). Readings in Nonmonotonic Reasoning. Morgan Kaufmann, Los Altos, CA.
[43] a b Grant, A. S. and Mayes, J. T. (1991). Cognitive task analysis? In: Weir, G. R. S. and Alty, J. L. (eds), Human-Computer Interaction and Complex Systems, ch 6. Academic Press, London.
[44] Green, M. (1985). Report on dialogue specification tools. In: Pfaff, G. E. (ed.), User Interface Management Systems: Proc. Workshop on UIMS, Seeheim, FRG, November, 1983. Springer-Verlag, Berlin.
[45] a b c d Green, T. R. G., Schiele, F., and Payne, S. J. (1988). Formalisable models of user knowledge in human-computer interaction. In: van der Veer, G. C., Green, T. R. G., Hoc, J.-M., and Murray, D. M. (eds), Working with Computers: Theory versus Outcome, pp. 3–46. Academic Press, London.
[46] Greenstein, J. S., Arnaut, L. Y., and Revesman, M. E. (1986). An empirical comparison of model-based and explicit communication for dynamic human-computer task allocation. Int. J. Man-Machine Studies, 24: 355–363.
[47] Grudin, J. (1989). The case against user interface consistency. Communications of the ACM, 32(10): 1164–1173.
[48] a b Habberley, J. S. (1988). Personal communication.
[49] Habberley, J. S., Shaddick, C. A., and Taylor, D. H. (1986). A behavioural study of the collision avoidance task in bridge watchkeeping. Technical report, College of Maritime Studies, Warsash, Hampshire.
[50] a b Halasz, F. and Moran, T. (1982). Analogy considered harmful. In: Human Factors in Computer Systems: Proceedings of CHI'82, Gaithersburg, MD. ACM/SIGCHI.
[51] a b Hammond, N., Jørgensen, A., MacLean, A., Barnard, P., and Long, J. (1983). Design practice and interface usability: Evidence from interviews with designers. In: CHI '83: Human Factors in Computing Systems, pp. 40–44, Boston. ACM.
[52] Hesse, H. (1943). The Glass Bead Game (Das Glasperlenspiel). Penguin (1972), Harmondsworth.
[53] Hoc, J.-M. (1989). Cognitive approaches to process control. In: Tiberghien, G. (ed.), Advances in Cognitive Science Vol. 2: Theory and Applications, ch 9, pp. 178–202. Ellis Horwood, Chichester.
[54] Hofstadter, D. R. (1979). Gödel, Escher, Bach: an Eternal Golden Braid. Penguin (1980), Harmondsworth.
[55] Hollan, J. D., Hutchins, E. L., and Weitzman, L. (1984). STEAMER: An interactive inspectable simulation-based training system. The AI Magazine, 5(2): 15–27.
[56] a b c Holland, J. H., Holyoak, K. J., Nisbett, R. E., and Thagard, P. R. (1986). Induction: Processes of Inference, Learning, and Discovery. MIT Press, Cambridge, MA.
[57] a b Hollnagel, E. (1988). Man-machine interaction and decision support systems: User modeling and dialogue specification. In: IAEA Technical Committee Meeting on ‘User Requirements for Decision Support Systems’, Vienna.
[58] Hollnagel, E. (1988). Mental models and model mentality. In: Goodstein, L. P., Andersen, H. B., and Olsen, S. E. (eds), Tasks, Errors and Mental Models, ch 17. Taylor & Francis, London.
[59] Hollnagel, E. and Woods, D. D. (1983). Cognitive systems engineering: New wine in new bottles. Int. J. Man-Machine Studies, 18: 583–600.
[60] Hutchins, E. (1987). Learning to navigate in context. In: Workshop on Context, Cognition and Activity, Stenungsund, Sweden. Draft manuscript.
[61] a b International Maritime Organisation (1983). The international regulations for preventing collisions at sea.
[62] Isenberg, D. J. (1985). Some hows and whats of managerial thinking: Implications for future army leaders. In: Hunt, J. G. and Blair, J. D. (eds), Leadership on the Future Battlefield. Pergamon-Brassey's International Defense Publishers, Washington.
[63] Jaffe, L. (1981). Technical aspects and chronology of the Three Mile Island accident. In: Moss, T. H. and Sills, D. L. (eds), The Three Mile Island Nuclear Accident: Lessons and Implications, pp. 37–47, New York. New York Academy of Sciences.
[64] Johnson-Laird, P. N. (1983). Mental Models: Towards a Cognitive Science of Language, Inference, and Consciousness. Cambridge University Press, Cambridge, England.
[65] Keane, M. and Brayshaw, M. (1988). The incremental analogy machine: A computational model of analogy. In: Proceedings of the Third European Working Session on Learning, Glasgow. Pitman.
[66] a b c d Kieras, D. and Polson, P. G. (1985). An approach to the formal analysis of user complexity. Int. J. Man-Machine Studies, 22: 365–394.
[67] a b Kieras, D. E. and Bovair, S. (1984). The role of a mental model in learning to operate a device. Cognitive Science, 8: 255–273.
[68] Korf, R. E. (1980). Toward a model of representation changes. Artificial Intelligence, 14: 41–78.
[69] Kuipers, B. (1984). Commonsense reasoning about causality: Deriving behavior from structure. Artificial Intelligence, 24: 169–203.
[70] a b Kuipers, B. (1986). Qualitative simulation. Artificial Intelligence, 29 (3): 289–338.
[71] Kuipers, B. (1987). New reasoning methods for artificial intelligence in medicine. Int. J. Man-Machine Studies, 26 (6): 707–718.
[72] a b Laird, J. E., Newell, A., and Rosenbloom, P. S. (1987). SOAR: An architecture for general intelligence. Artificial Intelligence, 33: 1–64.
[73] Lindgaard, G. (1988). Should systems designers need to bother with the notion of mental models? In: Ergonomics International 88, Sydney, Australia, pp. 630–632. Taylor & Francis, London.
[74] Mackey, A. M. (1985). A simple algorithm for the fast three-dimensional digital simulation of the motion of a cable in water. Technical Report WLTM 539/85, A. R. E., Portland.
[75] a b Makarovic, A. (1988). A qualitative way of solving the pole balancing problem. Memorandum inf-88-44, University of Twente, Enschede, The Netherlands.
[76] Marshall, E. C., Duncan, K. D., and Baker, S. M. (1981). The role of withheld information in the training of process plant fault diagnosis. Ergonomics, 24(9): 711–724.
[77] a b Michalski, R. S. and Chilausky, R. L. (1981). Knowledge acquisition by encoding expert rules versus computer induction from examples: A case study involving soybean pathology. In: Mamdani, E. H. and Gaines, B. R. (eds), Fuzzy Reasoning and its Applications, pp. 247–271. Academic Press, London.
[78] Michie, D. (ed.) (1982). Introductory Readings in Expert Systems. Gordon & Breach, New York.
[79] a b Michie, D., Bain, M., and Hayes-Michie, J. (1990). Cognitive models from subcognitive skills. In: McGhee, J., Grimble, M. J., and Mowforth, P. (eds), Knowledge-Based Systems for Industrial Control, pp. 71–99. Peter Peregrinus, London.
[80] Michie, D. and Chambers, R. A. (1968). BOXES: An experiment in adaptive control. In: Dale, E. and Michie, D. (eds), Machine Intelligence 2, ch 9. Oliver & Boyd, Edinburgh.
[81] a b Michie, D. and Johnston, R. (1984). The Creative Computer: Machine Intelligence and Human Knowledge. Viking, Harmondsworth.
[82] Minsky, M. (1975). A framework for representing knowledge. In: Winston, P. H. (ed.), The Psychology of Computer Vision. McGraw-Hill, New York.
[83] a b c e Moran, T. P. (1981). The Command Language Grammar: A representation for the user interface of interactive computer systems. Int. J. Man-Machine Studies, 15: 3–50.
[84] Moray, N. (1986). Operator models in process control. In: IEEE International Conference on Systems, Man and Cybernetics, Atlanta, Georgia.
[85] a b Moray, N. (1987). Intelligent aids, mental models, and the theory of machines. Int. J. Man-Machine Studies, 27: 619–629.
[86] a b Muggleton, S. (1988). A strategy for constructing new predicates in first order logic. In: Proceedings of the Third European Working Session on Learning, Glasgow. Pitman.
[87] a b Muggleton, S. (1990). Inductive Acquisition of Expert Knowledge. Turing Institute Press and Addison-Wesley, Wokingham, England.
[88] a b Murray, D. M. (1987). Embedded user models. In: Bullinger, H.-J. and Shackel, B. (eds), Human-Computer Interaction—INTERACT '87. North-Holland, Amsterdam.
[89] Murray, D. M. (1988). A survey of user cognitive modelling. Report DITC 92/87, National Physical Laboratory, Teddington, Middlesex.
[90] Nagel, E. (ed.) (1950). John Stuart Mill's Philosophy of Scientific Methods. Hafner, New York.
[91] a b c d e Newell, A. and Simon, H. A. (1972). Human Problem Solving. Prentice-Hall, Englewood Cliffs, NJ.
[92] NMI Ltd. (1985). The investigation of the hydrodynamics of a remotely operated vehicle. Technical Report OT/N/84124, Offshore Supplies Office, Dept. of Energy. NMI Project 252010.
[93] Nordgren, R. P. (1974). On the computation of the motion of elastic rods. Journal of Applied Mechanics, (September): 777–780.
[94] a b Norman, D. A. (1983). Some observations on mental models. In: Gentner, D. and Stevens, A. L. (eds), Mental Models, ch 1. Lawrence Erlbaum Associates, Hillsdale, NJ.
[95] Olsen, S. E. (1987). CATOOL: A computer-based tool for investigations of categorical information in mental models. In: Bullinger, H.-J. and Shackel, B. (eds), Human-Computer Interaction—INTERACT '87. North-Holland, Amsterdam.
[96] a b c d e f Payne, S. J. and Green, T. R. G. (1986). Task-action grammars: A model of the mental representation of task languages. Human-Computer Interaction, 2: 93–133.
[97] Pearce, D. A. (1988). The induction of fault diagnosis systems from qualitative models. Research Memo TIRM-88-029, The Turing Institute, Glasgow.
[98] a b Pheasant, S. (1988). The Zeebrugge-Harrisburg syndrome. New Scientist, 21 January: 55–58.
[99] Phillips, M. D., Bashinski, H. S., Ammerman, H. L., and Fligg, Jr., C. M. (1988). A task analytic approach to dialogue design. In: Helander, M. (ed.), Handbook of Human-Computer Interaction, pp. 835–857. North-Holland, Amsterdam.
[100] a b c d Rasmussen, J. (1980). The human as a systems component. In: Smith, H. T. and Green, T. R. G. (eds), Human Interaction with Computers. Academic Press, London.
[101] a b c d e f g h Rasmussen, J. (1983). Skills, rules, and knowledge; signals, signs, and symbols, and other distinctions in human performance models. IEEE Transactions on Systems, Man and Cybernetics, SMC-13: 257–266.
[102] Rasmussen, J. (1986). Information Processing and Human-Machine Interaction: An Approach to Cognitive Engineering. North-Holland, New York.
[103] Rasmussen, J. (1987). Modelling action in complex environments. Report Risø-M-2684, Risø National Laboratory, DK-4000 Roskilde, Denmark.
[104] Rasmussen, J., Duncan, K., and Leplat, J. (eds) (1987). New Technology and Human Error. John Wiley & Sons, Chichester.
[105] Reason, J. (1986). Recurrent errors in process environments: Some implications for the design of intelligent decision support systems. In: Hollnagel, E., Mancini, G., and Woods, D. D. (eds), Intelligent Decision Support in Process Environments. Springer-Verlag, Berlin.
[106] Reason, J. (1988). Framework models of human performance and error. In: Goodstein, L. P., Andersen, H. B., and Olsen, S. E. (eds), Tasks, Errors and Mental Models, ch 2. Taylor & Francis, London.
[107] Reason, J. (1990). Human Error. Cambridge University Press, Cambridge, England.
[108] a b c Reisner, P. (1981). Formal grammar and human factors design of an interactive graphics system. IEEE Transactions on Software Engineering, SE-7(2): 229–240.
[109] a b c Reisner, P. (1990). What is inconsistency? In: Diaper, D., Gilmore, D., Cockton, G., and Shackel, B. (eds), Human-Computer Interaction—INTERACT '90, pp. 175–181. North-Holland, Amsterdam.
[110] Rich, E. (1986). Users are individuals: Individualizing user models. In: Davies, R. (ed.), Intelligent Information Systems: Progress and Prospects. Horwood, Chichester.
[111] Riek, J. R. (1978). Collision avoidance behaviour and uncertainty. Journal of Navigation, 31(1): 82–92.
[112] Rips, L. J. (1986). Mental muddles. In: Brand, M. and Harnish, R. M. (eds), The Representation of Knowledge and Belief. University of Arizona Press, Tucson, AZ.
[113] Rivers, R. (1990). The role of games and cognitive models in the understanding of complex dynamic systems. In: Diaper, D., Gilmore, D., Cockton, G., and Shackel, B. (eds), Human-Computer Interaction—INTERACT '90, pp. 87–92. North-Holland, Amsterdam.
[114] Roth, E. M. and Woods, D. D. (1989). Cognitive task analysis: An approach to knowledge acquisition for intelligent system design. In: Guida, G. and Tasso, C. (eds), Topics in Expert System Design: Methodologies and Tools, pp. 233–264. Elsevier, Amsterdam.
[115] a b Rouse, W. B. (1981). Human-computer interaction in the control of dynamic systems. ACM Computing Surveys, 13 (1): 71–99.
[116] Royal Institute of Navigation (1972). The proposed revision of the collision regulations: A discussion. Journal of Navigation, 25(4): 427–443.
[117] Runciman, C. and Hammond, N. (1986). User programs: A way to match computer systems and human cognition. In: Harrison, M. D. and Monk, A. F. (eds), People and Computers: Designing for Usability. Cambridge University Press, Cambridge, England.
[118] Sammut, C. (1988). Experimental results from an evaluation of algorithms that learn to control dynamic systems. In: Laird, J. (ed.), Proceedings of the Fifth International Conference on Machine Learning, pp. 437–443. Morgan Kaufmann, San Mateo, CA.
[119] Schank, R. C. and Abelson, R. (1977). Scripts, Plans, Goals and Understanding. Lawrence Erlbaum Associates, Hillsdale, NJ.
[120] a b Schiele, F. and Hoppe, H. U. (1990). Inferring task structures from interaction protocols. In: Diaper, D., Gilmore, D., Cockton, G., and Shackel, B. (eds), Human-Computer Interaction—INTERACT '90, pp. 567–572. North-Holland, Amsterdam.
[121] Schlimmer, J. C. (1987). Incremental adjustment of representations for learning. In: Proceedings of the Fourth International Workshop on Machine Learning, pp. 79–90, Irvine, CA.
[122] a b Sharratt, B. D. (1987a). The incorporation of early evaluation in Command Language Grammar specifications. Internal Report AMU8715/01H, Scottish HCI Centre, Edinburgh.
[123] a b Sharratt, B. D. (1987b). Top-down interactive systems design: Some lessons learnt from using Command Language Grammar. In: Bullinger, H.-J. and Shackel, B. (eds), Human-Computer Interaction—INTERACT '87. North-Holland, Amsterdam.
[124] a b Shaw, M. L. G. and Gaines, B. R. (1987). An interactive knowledge-elicitation technique using personal construct technology. In: Kidd, A. L. (ed.), Knowledge Acquisition for Expert Systems: A Practical Handbook, ch 6. Plenum Press, New York.
[125] a b Sheridan, T. B. and Hennessy, R. T. (1984). Research and modeling of supervisory control behavior. Workshop report, Committee on Human Factors, National Research Council, 2101 Constitution Avenue, Washington, D.C.
[126] Shneiderman, B. (1987). Designing the User Interface: Strategies for Effective Human-Computer Interaction. Addison-Wesley, Reading, MA.
[127] a b c Simon, T. (1988). Analysing the scope of cognitive models in human-computer interaction: A trade-off approach. In: Jones, D. M. and Winder, R. (eds), People and Computers IV, pp. 79–93. Cambridge University Press, Cambridge, England.
[128] Sleeman, D. and Brown, J. S. (eds) (1982). Intelligent Tutoring Systems. Academic Press, London.
[129] a b Smeaton, G. P., Bole, A. G., and Coenen, F. P. (1988). A rule based system for collision avoidance. In: Maritime Communications and Control. Marine Management (Holdings).
[130] Smiley, A. and Michon, J. A. (1989). Conceptual framework for Generic Intelligent Driver Support. DRIVE project report, Traffic Research Centre, University of Groningen.
[131] Smith, S. M. and Mosier, J. N. (1984). The user interface to computer-based information systems: A survey of current software design practice. In: Shackel, B. (ed.), Human-Computer Interaction—INTERACT '84. North-Holland, Amsterdam.
[132] Stassen, H. G., Johannsen, G., and Moray, N. (1988). Internal representation, internal model, human performance model and mental workload. In: Man-Machine Systems: Analysis, Design and Evaluation. IFAC/ IFIP/ IEA/ IFORS Conference, Oulu, Finland.
[133] a b Streitz, N. A. (1986). Cognitive ergonomics: An approach for the design of user-oriented interactive systems. In: Klix, F. and Wandke, H. (eds), MACINTER I. North-Holland, Amsterdam.
[134] a b Suchman, L. A. (1987). Plans and Situated Actions: The Problem of Human-Machine Communication. Cambridge University Press, Cambridge, England.
[135] Sutcliffe, A. (1989). Task analysis, systems analysis and design: Symbiosis or synthesis? Interacting with Computers, 1 (1): 6–12.
[136] a b c Sutton, R. and Towill, D. R. (1988). Modelling the helmsman in a ship steering system using fuzzy sets. In: Man-Machine Systems: Analysis, Design and Evaluation. IFAC/ IFIP/ IEA/ IFORS Conference, pp. 366–371, Oulu, Finland.
[137] Utgoff, P. E. (1986). Shift of bias for inductive concept learning. In: Michalski, R. S., Carbonell, J. G., and Mitchell, T. M. (eds), Machine Learning: An Artificial Intelligence Approach, Volume II. Morgan Kaufmann, Los Altos, CA.
[138] a b Wahlström, B. (1988). On the use of models in human decision making. In: Goodstein, L. P., Andersen, H. B., and Olsen, S. E. (eds), Tasks, Errors and Mental Models, ch 10. Taylor & Francis, London.
[139] a b Wewerinke, P. H. and van der Tak, C. (1988). Model of the human observer and controller of a dynamic system. In: Man-Machine Systems: Analysis, Design and Evaluation. IFAC/ IFIP/ IEA/ IFORS Conference, pp. 372–377, Oulu, Finland.
[140] a b c Whitefield, A. (1987). Models in human computer interaction: A classification with special reference to their uses in design. In: Bullinger, H.-J. and Shackel, B. (eds), Human-Computer Interaction—INTERACT '87. North-Holland, Amsterdam.
[141] Widrow, B. and Smith, F. W. (1964). Pattern-recognizing control systems. In: Tou, J. T. and Wilcox, R. H. (eds), Computer and Information Sciences, ch 12, pp. 288–317. Clever Hume Press.
[142] Wilson, M. D., Barnard, P. J., Green, T. R. G., and Maclean, A. (1988). Knowledge-based task analysis for human-computer systems. In: van der Veer, G. C., Green, T. R. G., Hoc, J.-M., and Murray, D. M. (eds), Working with Computers: Theory versus Outcome. Academic Press, London.
[143] Wirstad, J. (1988). On knowledge structures for process operators. In: Goodstein, L. P., Andersen, H. B., and Olsen, S. E. (eds), Tasks, Errors and Mental Models, ch 3. Taylor & Francis, London.
[144] Woods, D. D. (1987). Commentary: Cognitive engineering in complex and dynamic worlds. Int. J. Man-Machine Studies, 27 (5-6): 571–585.
[145] a b c d Woods, D. D. (1988). Coping with complexity: The psychology of human behavior in complex systems. In: Goodstein, L. P., Andersen, H. B., and Olsen, S. E. (eds), Tasks, Errors and Mental Models, pp. 128–148. Taylor & Francis, London.
[146] a b Woods, D. D. (1991). The cognitive engineering of problem representations. In: Weir, G. R. S. and Alty, J. L. (eds), Human-Computer Interaction and Complex Systems, ch 7. Academic Press, London.
[147] Woods, D. D. and Hollnagel, E. (1987). Mapping cognitive demands in complex problem-solving worlds. Int. J. Man-Machine Studies, 26 (2): 257–275.
[148] a b c d e Woods, D. D. and Roth, E. M. (1986). Models of cognitive behavior in nuclear power plant personnel: A feasibility study. Technical Report NUREG/CR-4532, U.S. Nuclear Regulatory Division, Washington, D.C.
[149] Wrobel, S. (1988). Automatic representation adjustment in an observational discovery system. In: Sleeman, D. (ed.), Proceedings of the Third European Working Session on Learning, pp. 253–262. Pitman, London.
[150] a b c Young, R. M. (1983). Surrogates and mappings: Two kinds of conceptual models for interactive devices. In: Gentner, D. and Stevens, A. L. (eds), Mental Models, ch 3. Lawrence Erlbaum Associates, Hillsdale, NJ.
[151] a b c Young, R. M., Green, T. R. G., and Simon, T. (1989). Programmable user models for predictive evaluation of interface designs. In: CHI '89 Conference Proceedings, pp. 15–19, Austin, Texas.
[152] Young, R. M. and Simon, T. (1987). Planning in the context of human-computer interaction. In: Diaper, D. and Winder, R. (eds), People and Computers III, pp. 363–370. Cambridge University Press, Cambridge, England.
[153] a b c Zimolong, B., Nof, S. Y., Eberts, R. E., and Salvendy, G. (1987). On the limits of expert systems and engineering models in process control. Behaviour and Information Technology, 6 (1): 15–36.
[154] Zrimec, T. (1990). Towards Autonomous Learning of Behavior by a Robot. PhD thesis, University of Ljubljana.