Sociocognitive: Difference between revisions
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'''Socio-cognitive''' or '''sociocognitive''' describes integrated [[cognition|cognitive]] and [[social]] properties of [[system]]s, [[process]]es, [[function (engineering)|function]]s, [[Model (abstract)|models]], as well as can indicate the branch of [[science]], [[engineering]] or [[technology]], such as ''socio-cognitive research'', ''socio-cognitive interactions''. |
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<ref> C. J. Hemingway (1998) [http://infomgt.bi.no/wg82-86/proceedings/heming~1.pdf#search=%22socio-cognitive%22 Socio-cognitive research: toward a socio-cognitive theory of information systems: an analysis of key philosophical and conceptual issues]. In the workshop Proceedings of Information Systems: Current Issues and Future Changes </ref> |
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'''Sociocognitive''' or '''socio-cognitive''' is a term especially used when [[complexity|complex]] cognitive and social properties are reciprocally connected and essential for a given problem. |
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| ⚫ | '''Socio-cognitive research''' is [[human factor]] based, and assumes an integrated [[knowledge engineering]], environment and [[business]] [[modeling perspectives|modeling perspective]], therefore it is not ''[[social cognition]]'' which rather is a branch of [[psychology]] focused on ''how people process social information''. |
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It has been used in academic literature with three different meanings:<ref>C. J. Hemingway and T. G. Gough (1998), A Socio-Cognitive Theory of Information Systems, Technical Report 98.25, School of Computer Studies, University of Leeds, December 1998.</ref> |
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'''Socio-cognitive engineering''' (SCE) includes a set of theoretical frameworks, methodologies, methods and software tools for the design of [[Human-centered computing (discipline)|human centred]] technologies <ref> M. Sharples at al.(2002), [http://www.eee.bham.ac.uk/sharplem/Papers/mediate%20ejor.pdf Socio-cognitive engineering: a methodology for the design of humancentred technology], European Journal of Operational Research </ref> . On the other hand, the emergent systemic branch of SCE proposed by A.M. Gadomski is related to human-based and intelligence-based socio-technological systems/aggregates. It deals with the modeling of human organization [[vulnerabilities]], organization [[crisis]] and their interdependences using general engineering and cognitive [[paradigm]]s <ref> A. M. Gadomski (2006), [http://www.progettoreti.enea.it/cnip06/slides/Poster/Gadomski.pdf Modeling of socio-cognitive vulnerability of human organizations: TOGA meta-theory approach], The Proc. of the international workshop on Complex Network and Infrastructure Protection, CNIP 2006, March, Rome</ref> . |
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# It can indicate a branch of [[science]], [[engineering]] or [[technology]], such as ''socio-cognitive research'', or ''socio-cognitive interactions'', |
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# It can refer to the integration of the [[cognition|cognitive]] and [[social]] properties of [[system]]s, [[wikt:process|process]]es, [[function (engineering)|function]]s, as well as [[Model (abstract)|models]], or |
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# It can describe how processes of group formation effect cognition, studied in [[cognitive sociology]]. |
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== Socio-cognitive engineering == |
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Both above approaches are applicable for the [[identification]] and [[design]] of a computer-based [[semi]]-/[[proto]]-Intelligent [[Decision Support System]]s (IDSS) for the operators and managers of large socially critical systems, for high-risk tasks, such as different types of [[emergency]] and [[disaster]] management, where [[human error]]s and lack of [[efficacy]] can be the cause of serious losses. |
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| ⚫ | '''Socio-cognitive research''' is [[Human factors and ergonomics|human factor]] and socio-organizational factor based, and assumes an integrated [[knowledge engineering]], environment and [[business]] [[modeling perspectives|modeling perspective]], therefore it is not ''[[social cognition]]'' which rather is a branch of [[psychology]] focused on ''how people process social information''. |
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'''Socio-cognitive engineering''' ('''SCE''') includes a set of theoretical interdisciplinary frameworks, methodologies, methods and software tools for the design of [[Human-centered computing (discipline)|human centred]] technologies,<ref>M. Sharples at al.(2002), [http://www.eee.bham.ac.uk/sharplem/Papers/mediate%20ejor.pdf Socio-cognitive engineering: a methodology for the design of humancentred technology] {{webarchive|url=https://web.archive.org/web/20060923190713/http://www.eee.bham.ac.uk/sharplem/Papers/mediate%20ejor.pdf |date=2006-09-23 }}, European Journal of Operational Research</ref> as well as, for the improvement of large complex human-technology systems. |
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Both above approaches are applicable for the identification and design of a computer-based semi-/proto-Intelligent [[Decision Support System]]s ([[intelligent support systems|IDSS]]),<ref>A. M. Gadomski, et al.(2001)., |
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*[[systemics]] |
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[http://citeseer.ist.psu.edu/viewdoc/summary?doi=10.1.1.58.6341 Towards intelligent decision support systems for emergency managers: the IDA approach]. International Journal of Risk Assessment and Management, Vol. 2, No. 3/4.</ref> for the operators and managers of large socially critical systems, for high-risk tasks, such as different types of [[emergency]] and [[disaster]] management, where [[human error]]s and socio-cognitive organization [[vulnerability]] can be the cause of serious losses.<ref>A. M. Gadomski (2009), [http://www.inderscience.com/search/index.php?action=record&rec_id=22853&prevQuery=&ps=10&m=or Human organisation socio-cognitive vulnerability: the TOGA meta-theory approach to the modelling methodology], International Journal of Critical Infrastructures, Vol. 5, No.1/2 pp. 120-155.</ref> |
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== Integration of cognitive social properties of systems == |
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*[[memetics]] |
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== Group formation effect cognition == |
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{{Empty section|date=December 2023}} |
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* [[Memetics]] |
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* [[Sociology]] |
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* [[Systemics]] |
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==References== |
==References== |
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{{Reflist}} |
{{Reflist}} |
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==External links== |
==External links== |
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*[http://cfpm.org/jom-emit/2001/vol5/castelfranchi_c.html Towards a cognitive memetics] (2001), Cristiano Castelfranchi - Web pages. |
*[http://cfpm.org/jom-emit/2001/vol5/castelfranchi_c.html Towards a cognitive memetics] (2001), [[Cristiano Castelfranchi]] - Web pages. |
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*[http://www.istc.cnr.it/T3/trust/pages/model.html The socio-cognitive model of trust] ( |
*[https://web.archive.org/web/20040623125720/http://www.istc.cnr.it/T3/trust/pages/model.html The socio-cognitive model of trust] (2004–06) - Web pages of the Institute of Cognitive Sciences and Technologies (ISTC). |
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*[https://web.archive.org/web/20120402130246/http://icapp.ans.org/icapp11/program/abstracts/11177.pdf Human Factors in Nuclear Power Plant Safety Management: A Socio-Cognitive Modeling Approach using TOGA Meta-Theory. ] (2011) International Congress on Advances in Nuclear Power Plants. |
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[[Category: |
[[Category:Cognitive science]] |
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[[Category: |
[[Category:Systems theory]] |
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[[pl: |
[[pl:Kognitywistyka|socjo-kognitywistyka]] |
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Latest revision as of 23:14, 3 May 2024
Sociocognitive or socio-cognitive is a term especially used when complex cognitive and social properties are reciprocally connected and essential for a given problem.
It has been used in academic literature with three different meanings:[1]
- It can indicate a branch of science, engineering or technology, such as socio-cognitive research, or socio-cognitive interactions,
- It can refer to the integration of the cognitive and social properties of systems, processes, functions, as well as models, or
- It can describe how processes of group formation effect cognition, studied in cognitive sociology.
Socio-cognitive engineering
[edit]Socio-cognitive research is human factor and socio-organizational factor based, and assumes an integrated knowledge engineering, environment and business modeling perspective, therefore it is not social cognition which rather is a branch of psychology focused on how people process social information.
Socio-cognitive engineering (SCE) includes a set of theoretical interdisciplinary frameworks, methodologies, methods and software tools for the design of human centred technologies,[2] as well as, for the improvement of large complex human-technology systems.
Both above approaches are applicable for the identification and design of a computer-based semi-/proto-Intelligent Decision Support Systems (IDSS),[3] for the operators and managers of large socially critical systems, for high-risk tasks, such as different types of emergency and disaster management, where human errors and socio-cognitive organization vulnerability can be the cause of serious losses.[4]
Integration of cognitive social properties of systems
[edit]![[icon]](/enwiki/wiki/File:Wiki_letter_w_cropped.svg){kind=small} | This section is empty. You can help by adding to it. (December 2023) |
Group formation effect cognition
[edit] | This section is empty. You can help by adding to it. (December 2023) |
See also
[edit]- Cognitive science
- Cognitive sociology
- Memetics
- Situated cognition
- Socio-cognitive complexity in complex systems
- Socio-cognitive systems in systemics – they can be intelligence-based systems including humans, their culture, technologies and the environment.
- Sociology
- Systemics
References
[edit]- ^ C. J. Hemingway and T. G. Gough (1998), A Socio-Cognitive Theory of Information Systems, Technical Report 98.25, School of Computer Studies, University of Leeds, December 1998.
- ^ M. Sharples at al.(2002), Socio-cognitive engineering: a methodology for the design of humancentred technology Archived 2006-09-23 at the Wayback Machine, European Journal of Operational Research
- ^ A. M. Gadomski, et al.(2001)., Towards intelligent decision support systems for emergency managers: the IDA approach. International Journal of Risk Assessment and Management, Vol. 2, No. 3/4.
- ^ A. M. Gadomski (2009), Human organisation socio-cognitive vulnerability: the TOGA meta-theory approach to the modelling methodology, International Journal of Critical Infrastructures, Vol. 5, No.1/2 pp. 120-155.
External links
[edit]- Towards a cognitive memetics (2001), Cristiano Castelfranchi - Web pages.
- The socio-cognitive model of trust (2004–06) - Web pages of the Institute of Cognitive Sciences and Technologies (ISTC).
- Human Factors in Nuclear Power Plant Safety Management: A Socio-Cognitive Modeling Approach using TOGA Meta-Theory. (2011) International Congress on Advances in Nuclear Power Plants.