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IEEEVAST
2010
2010
Comparing different levels of interaction constraints for deriving visual problem isomorphs
Interaction and manual manipulation have been shown in the cognitive science literature to play a critical role in problem solving. Given different types of interactions or constraints on interactions, a problem can appear to have different degrees of difficulty. While this relationship between interaction and problem solving has been well studied in the cognitive science literatures, the visual analytics community has yet to exploit this understanding for analytical problem solving. In this paper, we hypothesize that constraints on interactions and constraints encoded in visual representations can lead to strategies of varying effectiveness during problem solving. To test our hypothesis, we conducted a user study in which participants were given different levels of interaction constraints when solving a simple math game called Number Scrabble. Number Scrabble is known to have an optimal visual problem isomorph, and the goal of this study is to learn if and how the participants could ...
Real-time TrafficCognitive Science Literatures | Emerging Technology | IEEEVAST 2010 | Interaction Constraints | Visual |
| Added | 18 May 2011 |
| Updated | 18 May 2011 |
| Type | Journal |
| Year | 2010 |
| Where | IEEEVAST |
| Authors | Wenwen Dou, Caroline Ziemkiewicz, Lane Harrison, Dong Hyun Jeong, Roxanne Ryan, William Ribarsky, Xiaoyu Wang, Remco Chang |
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