In order to understand diagrammatic reasoning with multiple diagrams, this study proposes a theoretical framework that focuses on the cognitive processes of perceptual and conceptual integration. The perceptual integration process involves establishing interdependence between relevant system elements that have been dispersed across multiple diagrams, while the conceptual integration process involves generating and refining hypotheses about a system by combining higher-level information inferred from the diagrams. This study applies a diagrammatic reasoning framework of a single diagram to assess the usability of multiple diagrams as an integral part of a system development methodology. Our experiment evaluated the effectiveness and usability of design guidelines to aid problem solving with multiple diagrams. The results of our experiment revealed that understanding a system represented by multiple diagrams involves a process of searching for related information and of developing hypotheses about the target system. The results also showed that these perceptual and conceptual integration processes were facilitated by incorporating visual cues and contextual information in the multiple diagrams as representation aids. Visual cues indicate which elements in a diagram are related to elements in other diagrams; the contextual information indicates how the individual datum in one diagram is related to the overall hypothesis about the entire system.
- overly 'business focused'
- many papers seem to misquote the Larkin/Simon paper - the evidence was anecdotal and didn't compare one diagram to another
- wasn't clear from the paper what exactly the 'cues' were to help navigate diagrams
- cognitive overhead?
- hard to separate existing knowledge esp. for a common problem e.g. fast food
- experimentally suspect - for example, it seems more people w/o the cues found problems, even if they didn't all find all the problems.
- the differences are more likely due to different modeling formalisms. Hard to isolate the cues when you use 2 distinct models.
%0 Journal Article
%1 kim00a
%A Kim, Jinwoo
%A Hahn, Jungpil
%A Hahn, Hyoungmee
%D 2000
%I InfORMS
%J Information Systems Research
%K diagram model cognition
%N 3
%P 284--303
%R 10.1287/isre.11.3.284.12206
%T How Do We Understand a System with (So) Many Diagrams? Cognitive Integration Processes in Diagrammatic Reasoning
%U http://www.extenza-eps.com/INF/doi/abs/10.1287/isre.11.3.284.12206
%V 11
%X In order to understand diagrammatic reasoning with multiple diagrams, this study proposes a theoretical framework that focuses on the cognitive processes of perceptual and conceptual integration. The perceptual integration process involves establishing interdependence between relevant system elements that have been dispersed across multiple diagrams, while the conceptual integration process involves generating and refining hypotheses about a system by combining higher-level information inferred from the diagrams. This study applies a diagrammatic reasoning framework of a single diagram to assess the usability of multiple diagrams as an integral part of a system development methodology. Our experiment evaluated the effectiveness and usability of design guidelines to aid problem solving with multiple diagrams. The results of our experiment revealed that understanding a system represented by multiple diagrams involves a process of searching for related information and of developing hypotheses about the target system. The results also showed that these perceptual and conceptual integration processes were facilitated by incorporating visual cues and contextual information in the multiple diagrams as representation aids. Visual cues indicate which elements in a diagram are related to elements in other diagrams; the contextual information indicates how the individual datum in one diagram is related to the overall hypothesis about the entire system.
@article{kim00a,
abstract = {In order to understand diagrammatic reasoning with multiple diagrams, this study proposes a theoretical framework that focuses on the cognitive processes of perceptual and conceptual integration. The perceptual integration process involves establishing interdependence between relevant system elements that have been dispersed across multiple diagrams, while the conceptual integration process involves generating and refining hypotheses about a system by combining higher-level information inferred from the diagrams. This study applies a diagrammatic reasoning framework of a single diagram to assess the usability of multiple diagrams as an integral part of a system development methodology. Our experiment evaluated the effectiveness and usability of design guidelines to aid problem solving with multiple diagrams. The results of our experiment revealed that understanding a system represented by multiple diagrams involves a process of searching for related information and of developing hypotheses about the target system. The results also showed that these perceptual and conceptual integration processes were facilitated by incorporating visual cues and contextual information in the multiple diagrams as representation aids. Visual cues indicate which elements in a diagram are related to elements in other diagrams; the contextual information indicates how the individual datum in one diagram is related to the overall hypothesis about the entire system.},
added-at = {2006-03-24T16:34:33.000+0100},
author = {Kim, Jinwoo and Hahn, Jungpil and Hahn, Hyoungmee},
biburl = {https://www.bibsonomy.org/bibtex/20b80b89991b13c8ed287be8cad193cf4/neilernst},
citeulike-article-id = {482123},
comment = {- overly 'business focused'
- many papers seem to misquote the Larkin/Simon paper - the evidence was anecdotal and didn't compare one diagram to another
- wasn't clear from the paper what exactly the 'cues' were to help navigate diagrams
- cognitive overhead?
- hard to separate existing knowledge esp. for a common problem e.g. fast food
- experimentally suspect - for example, it seems more people w/o the cues found problems, even if they didn't all find all the problems.
- the differences are more likely due to different modeling formalisms. Hard to isolate the cues when you use 2 distinct models.},
description = {sdasda},
doi = {10.1287/isre.11.3.284.12206},
interhash = {717fa96557bb1292cc1784694d42724f},
intrahash = {0b80b89991b13c8ed287be8cad193cf4},
journal = {Information Systems Research},
keywords = {diagram model cognition},
month = {September},
number = 3,
pages = {284--303},
priority = {0},
publisher = {InfORMS},
timestamp = {2006-03-24T16:34:33.000+0100},
title = {How Do We Understand a System with (So) Many Diagrams? Cognitive Integration Processes in Diagrammatic Reasoning},
url = {http://www.extenza-eps.com/INF/doi/abs/10.1287/isre.11.3.284.12206},
volume = 11,
year = 2000
}