Abstract
This paper develops Lewis’ notion of convention within a framework that mixes cognitive science with some more social theories of activity like distributed cognition and activity theory. The close examination of everyday situations of convention-based activity will produce some interesting issues for a cognitive theory of behavior. Uncertainty, dynamics, and the complexities of the performance of convention-based activities that are distributed over time and/or place, are driving factors in the analysis that is presented. How the actors reason and manage their collaboration is characterized as pragmatic action. During the course of recurrent activities, the participants adapt previously learned convention-based activities to new circumstances. The coordinating representations that are a part of the design of the context mediate parts of the activity. As they act, the participants learn.
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References
Agre PE, Chapman D (1990) What are plans for? In: Maes P (ed) Designing autonomous agents: theory and practice from biology to engineering and back. MIT Press, Cambridge, pp 17–34
Alterman R (1988) Adaptive planning. Cognit Sci 12:393–421
Alterman R (1999) The closed room. Mind, Culture Activity 8:117–142
Alterman R (2008) Representation, interaction, and intersubjectivity. Cognit Sci 31(5):815–841
Alterman R, Garland A (2001) Convention in joint activity. Cognit Sci 25(4):611–657
Alterman R, Zito-Wolf R, Carpenter T (1998) Pragmatic action. Cognit Sci 22(1):53–105
Brooks R (1991) Intelligence without representation. Artif Intell 47:139–159
Clark H (1996) Using language. Cambridge University Press, Cambridge, UK
Cole M, Engeström Y (1993) A cultural historic approach to distributed cognition. In: Salomon G (ed) Distributed cognitions. Cambridge University Press, Cambridge, pp 1–46
Fikes RE, Nilsson NJ (1971) STRIPS: a new approach to the application of theorem proving to problem solving. Artif Intell 2(3):189-208
Garfinkel H (1967) Studies in ethnomethodology. Polity, Malden
Grosz B, Kraus S (1996) Collaborative plans for complex group action. Artif Intell 86:269–357
Hollan J, Hutchins E, Kirsh D (2000) Distributed cognition: toward a new foundation for human computer interaction research. ACM Trans Comput Hum Interact 7(2):174–193
Hutchins E (1995a) Cognition in the wild. MIT Press, Cambridge
Hutchins E (1995b) How a cockpit remembers its speed. Cognit Sci 19:265–288
Kaptelinin V, Nardi B (2006) Acting with technology: activity theory and interaction design. MIT Press, Cambridge
Lave J (1988) Cognition in practice. Cambridge University Press, Cambridge
Lave J (1991) Situating learning in communities of practice. In: Resnick L, Levine J, Teasley S (eds) Perspectives on socially shared cognition. American Psychological Association, pp 63–82
Lenot’ev AN (1972) The problem of activity in psychology. Soviet Psychol 9:95–108
Lewis D (1969) Convention: a philosophical study. Harvard University Press, Cambridge
Nardi B (1996) Context and consciousness: activity theory and human–computer interaction. MIT Press, Cambridge
Newell A (1990) Unified theories of cognition. Harvard University Press, Cambridge
Newell A, Simon H (1972) Human problem solving. Prentice-Hall, Englewood Cliffs
Norman DA (1988) The psychology of everyday things. Basic Books, New York
Norman DA (1991) Cognitive artifacts. In: Carroll J (ed) Designing interaction: psychology at the human–computer interface. Cambridge University Press, Cambridge
Norman DA (1993) Things that makes us smart. Perseus Books, Cambridge
Rasmussen J (1983) Skills, rules, knowledge. Signals, signs, and symbols and other distinctions in human performance models. IEEE Trans Syst Man Cybern SMC 13:257–267
Reason JT (1990) Human error. Cambridge University Press, Cambridge
Rogers Y, Ellis J (1994) Distributed cognition: an alternative framework for analyzing and explaining collaborative working. J Inf Technol 9:119–128
Schank R, Abelson R (1977) Scripts, plans, goals, and understanding. Lawrence Erlbaum Associates, Hillsdale
Schegloff E (1986) The routine as achievement. Hum Stud 9:111–151
Schegloff E (1992) Repair after next turn: the last structurally provided defense of intersubjectivity in conversation. Am J Sociol 9:1295–1345
Schmidt K, Simone C (1996) Coordination mechanisms: towards a conceptual foundation of CSCW systems design. In: Computer supported cooperative work, vol 5. Kluwer Academic Publishers, The Netherlands, pp 155–200
Scribner S (1984) Studying working intelligence. In: Rogoff B, Lave J (eds) Everyday cognition. Harvard University Press, Cambridge, pp 9-40
Suchman L (1986) Plans and situated actions. Cambridge University Press, Cambridge
Suchman L, Trigg R (1991) Understanding practice: video as a medium for reflection and design. In: Greenbaum J, Kyng M (eds) Design at work: cooperative design of computer systems. Lawrence Erlbaum Associates, Hillsdale
Tomasello M (1999) The cultural origins of human cognition. Harvard University Press, Cambridge
Vygotsky LS (1978) Mind in society. Harvard University Press, Cambridge
Wartofsky MW (1979) Models: representation and the scientific understanding. D. Reidel Pub. Co., Dordrecht
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Alterman, R. Activity and Convention. Topoi 27, 127–138 (2008). https://doi.org/10.1007/s11245-008-9039-y
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DOI: https://doi.org/10.1007/s11245-008-9039-y