CS295J/Literature to read for week 4.11: Difference between revisions
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*[http://dl.acm.org/citation.cfm?id=1324946 Automatic cognitive load detection from speech features] Yin-2007-ACL -- [[User:Jenna Zeigen|Jenna Zeigen]] | *[http://dl.acm.org/citation.cfm?id=1324946 Automatic cognitive load detection from speech features] Yin-2007-ACL -- [[User:Jenna Zeigen|Jenna Zeigen]] | ||
: Again, discusses a way to evaluate a user's cognitive load. Again, this is relevant to the reviewers comments that there lacked a plan to evaluate how well the visualizations would jive with cognitive principles. If we are using them properly, then cognitive load levels would be low. (Owner: Jenna, Discussant: | : Again, discusses a way to evaluate a user's cognitive load. Again, this is relevant to the reviewers comments that there lacked a plan to evaluate how well the visualizations would jive with cognitive principles. If we are using them properly, then cognitive load levels would be low. (Owner: [[User:Jenna Zeigen|Jenna Zeigen]], Discussant: [[User:Clara Kliman-Silver|Clara Kliman-Silver]], Discussant: ?) | ||
* [http://dl.acm.org.revproxy.brown.edu/citation.cfm?id=1357101&CFID=49369132&CFTOKEN=47488919 Integrating statistics and visualization: case studies of gaining clarity during exploratory data analysis] Perer-2008-ISV (Owner: Diem Tran, Discussant: | * [http://dl.acm.org.revproxy.brown.edu/citation.cfm?id=1357101&CFID=49369132&CFTOKEN=47488919 Integrating statistics and visualization: case studies of gaining clarity during exploratory data analysis] Perer-2008-ISV (Owner: Diem Tran, Discussant: [[User:Jenna Zeigen|Jenna Zeigen]], Discussant: ?) | ||
: | : The paper introduces a social network analysis tool which integrates statistics and visualization. As the tool is used to view exploratory data, the authors use a qualitative evaluation methodology which lasts more than 4 weeks, where researchers observe and interact with users to get insights about the tool and their experience. The authors then validate their claims by conducting four case studies. Results from the studies show that the integration of statistics and visualization improve exploratory data analysis. | ||
* [http://csjarchive.cogsci.rpi.edu/proceedings/2003/pdfs/115.pdf Cognitive Design Principles for Visualizations] Heiser-2003-CDP | * [http://csjarchive.cogsci.rpi.edu/proceedings/2003/pdfs/115.pdf Cognitive Design Principles for Visualizations] Heiser-2003-CDP | ||
: Claims that the design of visualizations can be informed by cognitive principles and, based on those principles, be automated. Their research has implications in any domain in which visualization in useful, including our proposed project. This is relevant to Jenna's response to reviewer #4, by showing that cognitive principles can and have been implemented in the design of visualizations. (Owner: Michael, Discussant: | : Claims that the design of visualizations can be informed by cognitive principles and, based on those principles, be automated. Their research has implications in any domain in which visualization in useful, including our proposed project. This is relevant to Jenna's response to reviewer #4, by showing that cognitive principles can and have been implemented in the design of visualizations. (Owner: Michael, Discussant: [[User:Jenna Zeigen|Jenna Zeigen]], Discussant: Diem) | ||
* [http://ieeexplore.ieee.org/ | * [http://ieeexplore.ieee.org/stamp/stamp.jsp?tp=&arnumber=1335677 Visual variability analysis for goal models] Gonzales-2004-VVA | ||
: This work first proposes a visual variability analysis technique, it analyses the correlation between functional goal models and | : This work first proposes a visual variability analysis technique to help domain experts to select best solutions among variants according to some criteria, it analyses the correlation between functional goal models and softgoal, and uses decision table and quantitative propagation algorithm to find the most satisfactory goal models and requirements. This can be used to illustrate how cognitive models like goal maintainence and multi task can be designed and achieved in our project. And the paper also implemented a visual interactive tool to support the technique and this could give us some insights of how to put cognitive model into practice. (Owner: Chen, Discussant: ?, Discussant: ?) | ||
* | * [http://www.sciencedirect.com/science?_ob=MiamiImageURL&_cid=271802&_user=489286&_pii=S0747563208002318&_check=y&_origin=&_coverDate=31-Mar-2009&view=c&wchp=dGLzVlt-zSkWb&md5=c3aa656cdeff34d9e6e8b2cefac5332e/1-s2.0-S0747563208002318-main.pdf Uncovering cognitive processes: Different techniques that can contribute to cognitive load research and instruction] Van Gog-2009-UCP | ||
: This article, to | : This article reviews modern eye tracking techniques as they aim to monitor different aspects of cognitive load. While the techniques employed are aimed at instruction, they are relevant to the project in that users will, presumably, have to learn to use the tools we build. It reviews different methodologies currently employed in eye tracking and cognitive load research. Cognitive load plays a significant role in any sort of data visualization, and therefore, information from this article should inform many parts of the proposal (Owner: [[User:Clara Kliman-Silver|Clara]], Discussant: ?, Discussant: ?) | ||
* [http://www.sciencedirect.com/science/article/pii/S1071581901904719 Embodied models as simulated users: introduction to this special issue on using cognitive models to improve interface design] Ritter-2002-EMS | |||
: A reviewer worries, "The primary risk in this proposal is that the cognitive models which can be created are too weak to support the design process." We can provide evidence that this risky part is feasible by pointing to the findings cited in this article (and others from the issue that the title refers to) of successful uses of cognitive models for developing and designing interfaces. | |||
: (Owner: [[User:Nathan Malkin|Nathan]], Discussant: Chen, Discussant: ?) | |||
* [http://citeseerx.ist.psu.edu/viewdoc/download?doi=10.1.1.86.1013&rep=rep1&type=pdf Low-Level Components of Analytic Activity in Information Visualization], Amar, Eagan, and Stasko; InfoVis 2005 | |||
: The paper presents a taxonomy of ten primitive analysis task types for information visualization, providing a language and vocabulary to discuss and evaluate these tools. The taxonomy was created in part by analyzing student questions about data visualizations; the task types are motivated by real analysis needs. Using a taxonomy like this, or building one, would be important in the proposed "Task Analysis" section Caroline mentioned in her reviews response. We need to be more explicit about the task types we can model, both at the specific level of brain diagram tasks and in a more generalized form. (Owner: [[User:Steven Gomez|Steven Gomez]]) | |||
* [http://eprints.ecs.soton.ac.uk/13925/1/ICVC_HRM_SN_AHM_final_paper1b.pdf From Open Source to long-term sustainability: Review of Business Models and Case studies] | |||
: Provides several business models of sustainable open source development. It provides case studies for each of proposed open-source business models. The Macro R&D model provides the most relevant model and case study for our purposes. This could easily be relevant if the researchers are looking to create long-term tools that need to be supported long after the research funding ends, which answers the specific critique that the proposal did not adequately address the issues of sustainability. | |||
* [http://www.purdue.edu/discoverypark/vaccine/assets/pdfs/publications/pdf/Collaborative%20Synthesis%20of%20VA.pdf Collaborative Synthesis of Visual Analytic Results] Anthony Robinson | |||
: This is a study of visual analysis behavior that uses an unstructured environment to study how analysts deal with data outside of the constraints of a specific visualization system. Analysts and pairs of analysts were given a collection of physical cards containing information on an infectious disease outbreak, and were allowed to arrange, organize, and take notes on this information as they saw fit. Their behavior is analyzed in terms of the visual metaphors and organization strategies they employ. While this specific model might make more sense for a visual analytics application than for scientific visualization, I think that creating a situation in which you can study users' behavior outside the constraints of software is a good strategy for understanding a task at a high level. | |||
: (Owner: [[User:Caroline Ziemkiewicz|Caroline]], Discussant: Diem, Discussant: Chen) | |||
* [http://www.springerlink.com/content/l6dhy9wpvkdfv40l/ Action Reaction Learning: Automatic Visual Analysis and Synthesis of Interactive Behaviour ]This paper proposes Action-Reaction Learning as an approach for analyzing and synthesizing human behaviour. This paradigm uncovers causal mappings between past and future events or between an action and its reaction by observing time sequences. We apply this method to analyze human interaction and to subsequently synthesize human behaviour. Using a time series of perceptual measurements, a system automatically discovers correlations between past gestures from one human participant (action) and a subsequent gesture (reaction) from another participant.(Owner: [[User: Wenjun Wang|Wenjun Wang]], Discussant :? Discussant: ? ) | |||
* [http://worldcatlibraries.org/registry/gateway?url_ver=Z39.88-2004&url_ctx_fmt=info%3Aofi%2Ffmt%3Akev%3Amtx%3Actx&ctx_ver=Z39.88-2004&rfr_id=info%3Asid%2Fmendeley.com%2Fmendeley&rft_val_fmt=info%3Aofi%2Ffmt%3Akev%3Amtx%3Ajournal&rft.genre=article&rft.date=2004&rft.volume=23&rft.issue=4&rft.pages=273-299&rft.atitle=The+cognitive+task+analysis+methods+for+job+and+task+design%3A+review+and+reappraisal&rft.jtitle=Behaviour+Information+Technology&rft.aulast=Wei&rft.aufirst=June&rft.au=Salvendy%2C+Gavriel&rft_id=info%3Adoi%2F10.1080%2F01449290410001673036 The cognitive task analysis methods for job and task design: review and reappraisal] Wei and Salvendy | |||
: This paper serves as a good introductory reading for cognitive task analysis by giving the definitions and introducing and categorizing the existing cognitive task analysis methodologies. The paper also presents a human-centered information-processing model for cognitive task performance. This model focuses on identifying all cognitive aspects of human performance in technical work, and may serve as reference if we need to break down the brain diagram exploration process into sub-tasks. (Owner: [[User:Hua Guo|Hua]], Discussant: [[User:Clara Kliman-Silver|Clara Kliman-Silver]], Discussant: ?) | |||
Latest revision as of 01:46, 3 October 2011
- Automatic cognitive load detection from speech features Yin-2007-ACL -- Jenna Zeigen
- Again, discusses a way to evaluate a user's cognitive load. Again, this is relevant to the reviewers comments that there lacked a plan to evaluate how well the visualizations would jive with cognitive principles. If we are using them properly, then cognitive load levels would be low. (Owner: Jenna Zeigen, Discussant: Clara Kliman-Silver, Discussant: ?)
- Integrating statistics and visualization: case studies of gaining clarity during exploratory data analysis Perer-2008-ISV (Owner: Diem Tran, Discussant: Jenna Zeigen, Discussant: ?)
- The paper introduces a social network analysis tool which integrates statistics and visualization. As the tool is used to view exploratory data, the authors use a qualitative evaluation methodology which lasts more than 4 weeks, where researchers observe and interact with users to get insights about the tool and their experience. The authors then validate their claims by conducting four case studies. Results from the studies show that the integration of statistics and visualization improve exploratory data analysis.
- Cognitive Design Principles for Visualizations Heiser-2003-CDP
- Claims that the design of visualizations can be informed by cognitive principles and, based on those principles, be automated. Their research has implications in any domain in which visualization in useful, including our proposed project. This is relevant to Jenna's response to reviewer #4, by showing that cognitive principles can and have been implemented in the design of visualizations. (Owner: Michael, Discussant: Jenna Zeigen, Discussant: Diem)
- Visual variability analysis for goal models Gonzales-2004-VVA
- This work first proposes a visual variability analysis technique to help domain experts to select best solutions among variants according to some criteria, it analyses the correlation between functional goal models and softgoal, and uses decision table and quantitative propagation algorithm to find the most satisfactory goal models and requirements. This can be used to illustrate how cognitive models like goal maintainence and multi task can be designed and achieved in our project. And the paper also implemented a visual interactive tool to support the technique and this could give us some insights of how to put cognitive model into practice. (Owner: Chen, Discussant: ?, Discussant: ?)
- Uncovering cognitive processes: Different techniques that can contribute to cognitive load research and instruction Van Gog-2009-UCP
- This article reviews modern eye tracking techniques as they aim to monitor different aspects of cognitive load. While the techniques employed are aimed at instruction, they are relevant to the project in that users will, presumably, have to learn to use the tools we build. It reviews different methodologies currently employed in eye tracking and cognitive load research. Cognitive load plays a significant role in any sort of data visualization, and therefore, information from this article should inform many parts of the proposal (Owner: Clara, Discussant: ?, Discussant: ?)
- Embodied models as simulated users: introduction to this special issue on using cognitive models to improve interface design Ritter-2002-EMS
- A reviewer worries, "The primary risk in this proposal is that the cognitive models which can be created are too weak to support the design process." We can provide evidence that this risky part is feasible by pointing to the findings cited in this article (and others from the issue that the title refers to) of successful uses of cognitive models for developing and designing interfaces.
- (Owner: Nathan, Discussant: Chen, Discussant: ?)
- Low-Level Components of Analytic Activity in Information Visualization, Amar, Eagan, and Stasko; InfoVis 2005
- The paper presents a taxonomy of ten primitive analysis task types for information visualization, providing a language and vocabulary to discuss and evaluate these tools. The taxonomy was created in part by analyzing student questions about data visualizations; the task types are motivated by real analysis needs. Using a taxonomy like this, or building one, would be important in the proposed "Task Analysis" section Caroline mentioned in her reviews response. We need to be more explicit about the task types we can model, both at the specific level of brain diagram tasks and in a more generalized form. (Owner: Steven Gomez)
- Provides several business models of sustainable open source development. It provides case studies for each of proposed open-source business models. The Macro R&D model provides the most relevant model and case study for our purposes. This could easily be relevant if the researchers are looking to create long-term tools that need to be supported long after the research funding ends, which answers the specific critique that the proposal did not adequately address the issues of sustainability.
- Collaborative Synthesis of Visual Analytic Results Anthony Robinson
- This is a study of visual analysis behavior that uses an unstructured environment to study how analysts deal with data outside of the constraints of a specific visualization system. Analysts and pairs of analysts were given a collection of physical cards containing information on an infectious disease outbreak, and were allowed to arrange, organize, and take notes on this information as they saw fit. Their behavior is analyzed in terms of the visual metaphors and organization strategies they employ. While this specific model might make more sense for a visual analytics application than for scientific visualization, I think that creating a situation in which you can study users' behavior outside the constraints of software is a good strategy for understanding a task at a high level.
- (Owner: Caroline, Discussant: Diem, Discussant: Chen)
- Action Reaction Learning: Automatic Visual Analysis and Synthesis of Interactive Behaviour This paper proposes Action-Reaction Learning as an approach for analyzing and synthesizing human behaviour. This paradigm uncovers causal mappings between past and future events or between an action and its reaction by observing time sequences. We apply this method to analyze human interaction and to subsequently synthesize human behaviour. Using a time series of perceptual measurements, a system automatically discovers correlations between past gestures from one human participant (action) and a subsequent gesture (reaction) from another participant.(Owner: Wenjun Wang, Discussant :? Discussant: ? )
- The cognitive task analysis methods for job and task design: review and reappraisal Wei and Salvendy
- This paper serves as a good introductory reading for cognitive task analysis by giving the definitions and introducing and categorizing the existing cognitive task analysis methodologies. The paper also presents a human-centered information-processing model for cognitive task performance. This model focuses on identifying all cognitive aspects of human performance in technical work, and may serve as reference if we need to break down the brain diagram exploration process into sub-tasks. (Owner: Hua, Discussant: Clara Kliman-Silver, Discussant: ?)