Page - 86 - in Applied Interdisciplinary Theory in Health Informatics - Knowledge Base for Practitioners
Image of the Page - 86 -
Text of the Page - 86 -
[5] E. Hutchins. How a cockpit remembers its speeds. Cognitive science, 19(3), (1995), 265-288.
[6] D.K. Maglio, D. Kirsh. Some Epistemic Benefits of Action: Tetris, a Case Study. In Proceedings of the
Fourteenth Annual Conference of the Cognitive Science Society: July 29 to August 1, 1992, Cognitive
Science Program, Indiana University, Bloomington 1992 (Vol. 14, p. 224). Psychology Press.
[7] J. Zhang, D.A. Norman. Representations in distributed cognitive tasks. Cognitive science. 18 (1994), 87-
122.
[8] Y. Rogers. Recent theoretical developments in HCI: their value for informing system design (2000). Cited
in Halverson C.A. Activity theory and distributed cognition: or what does CSCW need to DO with
theories?. Computer Supported Cooperative Work (CSCW) 11 (2002), 243–67.
[9] P.C. Wright, R.E. Fields, M.D. Harrison. Analysing human–computer interaction as distributed
cognition: the resources model. HCI J 15 (2000), 1–41.
[10] A. Blandford, D. Furniss. DiCoT: a methodology for applying distributed cognition to the design of
teamworking systems. In: Interactive systems. Design, specification, and verification. Berlin Heidelberg:
Springer; 2006. p. 26–38.
[11] J. Galliers, S. Wilson, J. Fone. A method for determining information flow breakdown in clinical systems.
Int J Med Informatics 76 (2007), S113–21.
[12] N.A. Stanton. Representing distributed cognition in complex systems: how a submarine returns to
periscope depth. Ergonomics. 57 (2014), 403-18.
[13] H. Beyer, K. Holtzblatt. Contextual design: defining customer centred systems. San Francisco, CA:
Morgan Kaufmann Publishers; 1998.
[14] E. Berndt, D. Furniss, A. Blandford. Learning contextual inquiry and distributed cognition: a case study
on technology use in anaesthesia. Cogn Technol Work (2014), 1–19.
[15] M. Hussain, N. Weibel. Can DiCoT Improve Infection Control?: A Distributed Cognition Study of
Information Flow in Intensive Care. In Proceedings of the 2016 CHI Conference Extended Abstracts on
Human Factors in Computing Systems (2016), 2126-2133.
[16] J. Rybing, H. Nilsson, C.O. Jonson, M. Bang. Studying distributed cognition of simulation-based team
training with DiCoT. Ergonomics 59 (2016), 423-434.
[17] D. Furniss, P. Masci, P. Curzon, A. Mayer, A. Blandford. Exploring medical device design and use
through layers of distributed cognition: how a glucometer is coupled with its context. Journal of
biomedical informatics, 53 (2015), 330-341.
[18] D. Furniss, A. Mayer, B.D. Franklin, A. Blandford. The roles of structure, agency and deviations in
safety: an ethnographic study of practices around infusion devices using distributed cognition and
structuration theory. (submitted to Safety Science)
[19] C.A. Halverson. Activity theory and distributed cognition: or what does CSCW need to DO with theories?
Comput Supported Cooperative Work (CSCW) 11 (2002), 243–67.
[20] B. Hazlehurst, P. Gorman, C. McMullen. Distributed cognition: an alternative model of cognition of
medical informatics. Int J Med Inform 77 (2008), 226–34.
[21] B. Hazlehurst, C. McMullen, P. Gorman. Distributed cognition in the heart room: how situations
awareness arises from coordinated communications during cardiac surgery. J Biomed Inform 40 (2007),
539–51.
[22] T. Cohen, B. Blatter, C. Almeida, V.L Patel. Reevaluating recovery: perceived violations and preemptive
interventions on emergency psychiatry rounds. J Am Med Inform Assoc 14 (2007), 312–9.
[23] A. Sarcevic, N. Ferraro. On the use of electronic documentation systems in fast-paced, time-critical
medical settings. Interacting with Computers. 29 (2017), 203-19.
[24] S. Garfield, D. Furniss, F. Husson, M. Turley, B.D. Franklin. Use of patient-held information about
medication (PHIMed) to support medicines optimisation: protocol for a mixed-methods descriptive study.
BMJ Open. 8 (2018), e021764.
[25] B. Jubraj, S. Barber, E. Ward, F. Husson, M. Turley. Patient perspectives on 'My Medication Passport'.
[https://www.researchgate.net/publication/308765549_Patient_perspectives_on_'MY_medication_pass
port' ]
D.Furniss etal. /DistributedCognition:UnderstandingComplexSociotechnical
Informatics86
back to the
book Applied Interdisciplinary Theory in Health Informatics - Knowledge Base for Practitioners"
Applied Interdisciplinary Theory in Health Informatics
Knowledge Base for Practitioners
- Title
- Applied Interdisciplinary Theory in Health Informatics
- Subtitle
- Knowledge Base for Practitioners
- Authors
- Philip Scott
- Nicolette de Keizer
- Andrew Georgiou
- Publisher
- IOS Press BV
- Location
- Amsterdam
- Date
- 2019
- Language
- English
- License
- CC BY-NC 4.0
- ISBN
- 978-1-61499-991-1
- Size
- 16.0 x 24.0 cm
- Pages
- 242
- Category
- Informatik