CS295J/Literature class 2.11: Difference between revisions
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* [http://dl.acm.org/citation.cfm?id=1461832 Project Ernestine] A research project from way back that demonstrated that modeling cognition plus motor plus perceptual tasks by telephone operators could predict the efficiency of a new user interface. The efficiency turned out to be lower than the old, low-tech version, which was a surprise. This paper is just the kind of result I'd like to be able to publish about more complex user interfaces. (Owner: David Laidlaw, discussion: ?, discussant: ?) | * [http://dl.acm.org/citation.cfm?id=1461832 Project Ernestine] A research project from way back that demonstrated that modeling cognition plus motor plus perceptual tasks by telephone operators could predict the efficiency of a new user interface. The efficiency turned out to be lower than the old, low-tech version, which was a surprise. This paper is just the kind of result I'd like to be able to publish about more complex user interfaces. (Owner: David Laidlaw, discussion: ?, discussant: ?) | ||
* [http://dl.acm.org/citation.cfm?id=642656 Cognitive Strategies and Eye Movements for Searching Hierarchical Computer Displays] This paper uses predictive modeling and eye-tracking data together to explain search behavior in hierarchical or non-hierarchical layouts. The layouts were lists of items organized in labeled groups, with the labels being either useful (hierarchical condition) or random (non-hierarchical condition). The research question is about whether people use different strategies when searching for a target item in each condition. They compared their model's predictions to observed eye movements and found them to be a pretty good fit, and therefore characterized search strategies using the model. (Owner: Caroline Ziemkiewicz, discussion: | * [http://dl.acm.org/citation.cfm?id=642656 Cognitive Strategies and Eye Movements for Searching Hierarchical Computer Displays] This paper uses predictive modeling and eye-tracking data together to explain search behavior in hierarchical or non-hierarchical layouts. The layouts were lists of items organized in labeled groups, with the labels being either useful (hierarchical condition) or random (non-hierarchical condition). The research question is about whether people use different strategies when searching for a target item in each condition. They compared their model's predictions to observed eye movements and found them to be a pretty good fit, and therefore characterized search strategies using the model. (Owner: Caroline Ziemkiewicz, discussion: Chen, discussant: Diem Tran) | ||
* [http://www.plosone.org/article/info%3Adoi%2F10.1371%2Fjournal.pone.0000597 Mapping Human Whole-Brain Structural Networks with Diffusion MRI] The authors use diffusion MRI to create network maps with significantly larger detail than previous models of physical connectivity. Their methods allow them to study live humans and model the interconnectivity of neuronal groups as networks with thousands of nodes versus previous methods with less than 100 nodes studied from post-mortem animal subjects. Based on these new experimental methods they demonstrate that the brain network is in the form of a small world. (Owner: Stephen Brawner, discussant: Jenna Zeigen, discussant: ?) | * [http://www.plosone.org/article/info%3Adoi%2F10.1371%2Fjournal.pone.0000597 Mapping Human Whole-Brain Structural Networks with Diffusion MRI] The authors use diffusion MRI to create network maps with significantly larger detail than previous models of physical connectivity. Their methods allow them to study live humans and model the interconnectivity of neuronal groups as networks with thousands of nodes versus previous methods with less than 100 nodes studied from post-mortem animal subjects. Based on these new experimental methods they demonstrate that the brain network is in the form of a small world. (Owner: Stephen Brawner, discussant: Jenna Zeigen, discussant: ?) | ||
Revision as of 19:47, 14 September 2011
- Project Ernestine A research project from way back that demonstrated that modeling cognition plus motor plus perceptual tasks by telephone operators could predict the efficiency of a new user interface. The efficiency turned out to be lower than the old, low-tech version, which was a surprise. This paper is just the kind of result I'd like to be able to publish about more complex user interfaces. (Owner: David Laidlaw, discussion: ?, discussant: ?)
- Cognitive Strategies and Eye Movements for Searching Hierarchical Computer Displays This paper uses predictive modeling and eye-tracking data together to explain search behavior in hierarchical or non-hierarchical layouts. The layouts were lists of items organized in labeled groups, with the labels being either useful (hierarchical condition) or random (non-hierarchical condition). The research question is about whether people use different strategies when searching for a target item in each condition. They compared their model's predictions to observed eye movements and found them to be a pretty good fit, and therefore characterized search strategies using the model. (Owner: Caroline Ziemkiewicz, discussion: Chen, discussant: Diem Tran)
- Mapping Human Whole-Brain Structural Networks with Diffusion MRI The authors use diffusion MRI to create network maps with significantly larger detail than previous models of physical connectivity. Their methods allow them to study live humans and model the interconnectivity of neuronal groups as networks with thousands of nodes versus previous methods with less than 100 nodes studied from post-mortem animal subjects. Based on these new experimental methods they demonstrate that the brain network is in the form of a small world. (Owner: Stephen Brawner, discussant: Jenna Zeigen, discussant: ?)
- Toward a Perceptual Theory of Flow Visualization, Colin Ware, CG&A March 08
- This paper is a good entry point for Ware's other work on neural modeling for visualization. It describes how spatial receptor patterns in the visual cortex enable contour interpretation and related visualization tasks (e.g., particle advection in flow fields). There's also some good discussion about a perception-based approach to visualization, validating visual mappings with perceptual theories. (Owner: Steven Gomez, discussion: Chen, discussant: ?)
- Demonstrating the Feasibility of Using Forearm Electromyography for Muscle-Computer Interfaces Saponas-2008-DFU (Posted by Michael Spector)
- Discusses the merits of HCI (here called muCI, for muscle-computer interaction) by detection of forearm muscle activity rather than manipulation of an object such as a mouse or keyboard. (Owner: Michael Spector, Discussant: Clara Kliman-Silver, Discussant: ?)
- Audio-Visual Intent-To-Speak Detection For Human-Computer Interaction, Cuetos-2000-ISD. (Posted by Michael Spector)
- Discusses a speech detection system that uses both auditory and visual cues to more accurately detect speech commands. It aims to recognize the user's intention to speak, and to ignore background noise, or speech recognized as not being directed at the system. Although it is fairly dated, this paper is relevant in that it discusses applications of cognition/perception to HCI. (Owner: ? Discussant: ? Discussant: ?)
- This is your brain on interfaces: enhancing usability testing with functional near-infrared spectroscopy Hirshfield-2011-BOI
- The authors use a brain measuring device to detect activations in the brain when a user is performing a task. In this way, the authors are able to measure a range of cognitive workload states, known as subjective factors, which are difficult to measure using qualitative studies. They quantify workloads of users in three different UI tasks and point out the usability of a UI design choice as well as the low-level cognitive resources in the brain correspond to a task. How this paper relates to our project - As this paper presents a novel approach to measure effectiveness of a UI, it is relevant that we consider this in our process to evaluate the tools we develop. (Owner: Diem Tran, Discussant: Hua Guo, Discussant: Michael Spector)
- This paper discusses the cognitive load theory and its application in measuring effectiveness of graph visualization. A model of user task performance, mental effort and cognitive load has been proposed and experiments have been conducted to refine the model. This seems to be an attempt along the line of defining quality metrics for visualization through cognitive modeling, which then closely relates to our proposal. (Owner: Hua Guo, Discussant: Clara Kliman-Silver, Discussant: Jenna Zeigen)
- This article discusses search performance strategies in user interfaces per the results of a series of eye-tracking studies. Specific attention is given to menu organization in the context of Web interfaces. Although substantial progress has been made in the past decade, the article draws attention to relevant design issues and concepts, especially as eye tracking methodologies continue continue to grow and improve. It also serves to reinforce the importance of eye tracking in HCI research and how exactly people analyze the data. (Owner: Clara Kliman-Silver, Discussant: Michael Spector, Discussant: ?)
- Discusses the ways color scales and differences can be influential in the optimization of data visualization and analysis. Discusses the differences between absolute identification and relative comparison tasks and the implications of different types of color scales on the performance of such tasks. The authors create computational models of the processes and then compare their predictions to the results of two experiments. This paper is relevant because the visualizations we create probably will involve color scales, and the analysis of our visualizations probably will involve both types of tasks described. (Owner: Jenna Zeigen, Discussant: ? , Discussant: ?)
- This paper "provides an extensive survey of the grounding psychological and biological research on visual attention as well as the current state of the art of computational systems". It should make for good background reading if we want to work with visual attention (detecting regions of interest in images). (Nathan Malkin, 12 September 2011)
- (Owner: Nathan Malkin, Discussant: Hua Guo , Discussant: ?)
- Wizard of Oz for Participatory Design: Inventing a Gestural Interface for 3D Selection of Neural Pathway Estimates, Akers-2006-WOP.
- Designs an interactive visualization interface for 3D selection of neural pathways of human brains. The mouse based interface helps neuroscientists to select neural pathways more efficiently and intuitively.( Owner:Chen, Discussant: ?, Discussant: ?)
- The Laws of Simplicity by John Maeda
- An interesting work on the efficiency of minimalist design. Quick read for those interested.
- A set of design guidelines some of which we may be able to build on in automating interface evaluation; will certainly apply to manual evaluations (Owner: Wenjun Wang, Discussant: ? , Discussant: ?)