Your search keyword '"Weiskopf, Daniel"' showing total 17 results

1. Group Diagrams for simplified representation of scanpaths

Author

Schäfer, Peter, Rodrigues, Nils, Weiskopf, Daniel, and Storandt, Sabine

Published

2023

2. Eye tracking and visualization. Introduction to the Special Thematic Issue

Author

Michael Burch, Lewis L. Chuang, Andrew Duchowski, Weiskopf Daniel, and Rudolf Groner

Subjects

Eye movement, eye tracking, visualization, vision, cognition, perception, Human anatomy, QM1-695

Abstract

There is a growing interest in eye tracking technologies applied to support traditional visualization techniques like diagrams, charts, maps, or plots, either static, animated, or interactive ones. More complex data analyses are required to derive knowledge and meaning from the data. Eye tracking systems serve that purpose in combination with biological and computer vision, cognition, perception, visualization, human-computer-interaction, as well as usability and user experience research. The 10 articles collected in this thematic special issue provide interesting examples how sophisticated methods of data analysis and representation enable researchers to discover and describe fundamental spatio-temporal regularities in the data. The human visual system, supported by appropriate visualization tools, enables the human operator to solve complex tasks, like understanding and interpreting three-dimensional medical images, controlling air traffic by radar displays, supporting instrument flight tasks, or interacting with virtual realities. The development and application of new visualization techniques is of major importance for future technological progress.

Published

2018

3. VisME: Visual Microsaccades Explorer.

Author

Munz, Tanja, Pannasch, Sebastian, Chuang, Lewis, and Weiskopf, Daniel

Subjects

VISUAL analytics, EYE tracking, OPEN source software, EYE, EYE movements

Abstract

This work presents a visual analytics approach to explore microsaccade distributions in high-frequency eye tracking data. Research studies often apply filter algorithms and parameter values for microsaccade detection. Even when the same algorithms are employed, different parameter values might be adopted across different studies. In this paper, we present a visual analytics system (VisME) to promote reproducibility in the data analysis of microsaccades. It allows users to interactively vary the parametric values for microsaccade filters and evaluate the resulting influence on microsaccade behavior across individuals and on a group level. In particular, we exploit brushing-and-linking techniques that allow the microsaccadic properties of space, time, and movement direction to be extracted, visualized, and compared across multiple views. We demonstrate in a case study the use of our visual analytics system on data sets collected from natural scene viewing and show in a qualitative usability study the usefulness of this approach for eye tracking researchers. We believe that interactive tools such as VisME will promote greater transparency in eye movement research by providing researchers with the ability to easily understand complex eye tracking data sets; such tools can also serve as teaching systems. VisME is provided as open source software. [ABSTRACT FROM AUTHOR]

Published

2019

4. Eye Tracking and Visualization: Introduction to the Special Thematic Issue of the Journal of Eye Movement Research.

Author

Burch, Michael, Chuang, Lewis L., Duchowski, Andrew, Weiskopf, Daniel, and Groner, Rudolf

Subjects

EYE tracking, VISUALIZATION, EYE movements, VISION, COGNITION, SENSORY perception, HUMAN-computer interaction

Abstract

There is a growing interest in eye tracking technologies applied to support traditional visualization techniques like diagrams, charts, maps, or plots, either static, animated, or interactive ones. More complex data analyses are required to derive knowledge and meaning from the data. Eye tracking systems serve that purpose in combination with biological and computer vision, cognition, perception, visualization, human-computer-interaction, as well as usability and user experience research. The 10 articles collected in this thematic special issue provide interesting examples how sophisticated methods of data analysis and representation enable researchers to discover and describe fundamental spatio-temporal regularities in the data. The human visual system, supported by appropriate visualization tools, enables the human operator to solve complex tasks, like understanding and interpreting three-dimensional medical images, controlling air traffic by radar displays, supporting instrument flight tasks, or interacting with virtual realities. The development and application of new visualization techniques is of major importance for future technological progress. [ABSTRACT FROM AUTHOR]

Published

2017

5. Visual Multi-Metric Grouping of Eye-Tracking Data.

Author

Kumar, Ayush, Netzel, Rudolf, Burch, Michael, Weiskopf, Daniel, and Mueller, Klaus

Subjects

EYE tracking, EYE movement measurements, EYE movements, VISUALIZATION, SACCADIC eye movements

Abstract

We present an algorithmic and visual grouping of participants and eye-tracking metrics derived from recorded eye-tracking data. Our method utilizes two well-established visualization concepts. First, parallel coordinates are used to provide an overview of the used metrics, their interactions, and similarities, which helps select suitable metrics that describe characteristics of the eye-tracking data. Furthermore, parallel coordinates plots enable an analyst to test the effects of creating a combination of a subset of metrics resulting in a newly derived eye-tracking metric. Second, a similarity matrix visualization is used to visually represent the affine combination of metrics utilizing an algorithmic grouping of subjects that leads to distinct visual groups of similar behavior. To keep the diagrams of the matrix visualization simple and understandable, we visually encode our eyetracking data into the cells of a similarity matrix of participants. The algorithmic grouping is performed with a clustering based on the affine combination of metrics, which is also the basis for the similarity value computation of the similarity matrix. To illustrate the usefulness of our visualization, we applied it to an eye-tracking data set involving the reading behavior of metro maps of up to 40 participants. Finally, we discuss limitations and scalability issues of the approach focusing on visual and perceptual issues. [ABSTRACT FROM AUTHOR]

Published

2017

6. An Evaluation of Visual Search Support in Maps.

Author

Netzel, Rudolf, Hlawatsch, Marcel, Burch, Michael, Balakrishnan, Sanjeev, Schmauder, Hansjorg, and Weiskopf, Daniel

Subjects

DATA visualization, MAPS, COMPUTER network resources, GRIDS (Cartography), CATALOGING of maps, CARTOGRAPHIC materials

Abstract

Visual search can be time-consuming, especially if the scene contains a large number of possibly relevant objects. An instance of this problem is present when using geographic or schematic maps with many different elements representing cities, streets, sights, and the like. Unless the map is well-known to the reader, the full map or at least large parts of it must be scanned to find the elements of interest. In this paper, we present a controlled eye-tracking study (30 participants) to compare four variants of map annotation with labels: within-image annotations, grid reference annotation, directional annotation, and miniature annotation. Within-image annotation places labels directly within the map without any further search support. Grid reference annotation corresponds to the traditional approach known from atlases. Directional annotation utilizes a label in combination with an arrow pointing in the direction of the label within the map. Miniature annotation shows a miniature grid to guide the reader to the area of the map in which the label is located. The study results show that within-image annotation is outperformed by all other annotation approaches. Best task completion times are achieved with miniature annotation. The analysis of eye-movement data reveals that participants applied significantly different visual task solution strategies for the different visual annotations. [ABSTRACT FROM PUBLISHER]

Published

2017

7. Visual Analytics for Mobile Eye Tracking.

Author

Kurzhals, Kuno, Hlawatsch, Marcel, Seeger, Christof, and Weiskopf, Daniel

Subjects

EYE tracking, DATA analysis, VISUALIZATION, VISUAL analytics, REASONING, DATA visualization

Abstract

The analysis of eye tracking data often requires the annotation of areas of interest (AOIs) to derive semantic interpretations of human viewing behavior during experiments. This annotation is typically the most time-consuming step of the analysis process. Especially for data from wearable eye tracking glasses, every independently recorded video has to be annotated individually and corresponding AOIs between videos have to be identified. We provide a novel visual analytics approach to ease this annotation process by image-based, automatic clustering of eye tracking data integrated in an interactive labeling and analysis system. The annotation and analysis are tightly coupled by multiple linked views that allow for a direct interpretation of the labeled data in the context of the recorded video stimuli. The components of our analytics environment were developed with a user-centered design approach in close cooperation with an eye tracking expert. We demonstrate our approach with eye tracking data from a real experiment and compare it to an analysis of the data by manual annotation of dynamic AOIs. Furthermore, we conducted an expert user study with 6 external eye tracking researchers to collect feedback and identify analysis strategies they used while working with our application. [ABSTRACT FROM AUTHOR]

Published

2017

8. User performance and reading strategies for metro maps: An eye tracking study.

Author

Netzel, Rudolf, Ohlhausen, Bettina, Kurzhals, Kuno, Woods, Robin, Burch, Michael, and Weiskopf, Daniel

Subjects

MAPS, EYE tracking, GEODESIC flows, TASK performance, QUANTITATIVE research

Abstract

We conducted a controlled empirical eye tracking study with 40 participants using schematic metro maps. The study focused on two aspects: determining different reading strategies and assessing user performance. We considered the following factors: color encoding (color vs. gray-scale), map complexity (three levels), and task difficulty (three levels). There was one type of task: find a route from a start to a target location and state the number of transfers that have to be performed. To identify reading strategies, we annotated fixations of scanpaths, computed a transition matrix of each annotated scanpath, and used these matrices as input to cluster scanpaths into groups of similar behavior. We show how these reading strategies relate to the geodesic structure of the scanpaths' fixations projected onto the geodesic line that connects start and target locations. The analysis of the eye tracking data is complemented by statistical inference working on two eye tracking metrics (average fixation duration and saccade length). User performance was evaluated with a statistical analysis of task correctness and completion time. Our study shows that the design factors have a significant impact on user task performance. Also, we were able to identify typical reading strategies like directly finding a path from start to target location. Often, participants check the correctness of their result multiple times by moving back and forth between start and target. Our findings also indicate that the choice of reading strategies does not depend on whether color or gray-scale encoding is used. [ABSTRACT FROM AUTHOR]

Published

2017

9. Eye tracking evaluation of visual analytics.

Author

Kurzhals, Kuno, Fisher, Brian, Burch, Michael, and Weiskopf, Daniel

Subjects

EYE tracking, VISUAL analytics, HUMAN behavior, DATA visualization, MATHEMATICAL models

Abstract

The application of eye tracking for the evaluation of humans’ viewing behavior is a common approach in psychological research. So far, the use of this technique for the evaluation of visual analytics and visualization is less prominent. We investigate recent scientific publications from the main visualization and visual analytics conferences and journals, as well as related research fields that include an evaluation by eye tracking. Furthermore, we provide an overview of evaluation goals that can be achieved by eye tracking and state-of-the-art analysis techniques for eye tracking data. Ideally, visual analytics leads to a mixed-initiative cognitive system where the mechanism of distribution is the interaction of the user with the visualization environment. Therefore, we also include a discussion of cognitive approaches and models to include the user in the evaluation process. Based on our review of the current use of eye tracking evaluation in our field and the cognitive theory, we propose directions for future research on evaluation methodology, leading to the grand challenge of developing an evaluation approach to the mixed-initiative cognitive system of visual analytics. [ABSTRACT FROM AUTHOR]

Published

2016

10. Gaze Stripes: Image-Based Visualization of Eye Tracking Data.

Author

Kurzhals, Kuno, Hlawatsch, Marcel, Heimerl, Florian, Burch, Michael, Ertl, Thomas, and Weiskopf, Daniel

Subjects

EYE tracking, GRAPHICAL user interfaces, DATA visualization, HIERARCHICAL clustering (Cluster analysis), GAUSSIAN function

Abstract

We present a new visualization approach for displaying eye tracking data from multiple participants. We aim to show the spatio-temporal data of the gaze points in the context of the underlying image or video stimulus without occlusion. Our technique, denoted as gaze stripes, does not require the explicit definition of areas of interest but directly uses the image data around the gaze points, similar to thumbnails for images. A gaze stripe consists of a sequence of such gaze point images, oriented along a horizontal timeline. By displaying multiple aligned gaze stripes, it is possible to analyze and compare the viewing behavior of the participants over time. Since the analysis is carried out directly on the image data, expensive post-processing or manual annotation are not required. Therefore, not only patterns and outliers in the participants' scanpaths can be detected, but the context of the stimulus is available as well. Furthermore, our approach is especially well suited for dynamic stimuli due to the non-aggregated temporal mapping. Complementary views, i.e., markers, notes, screenshots, histograms, and results from automatic clustering, can be added to the visualization to display analysis results. We illustrate the usefulness of our technique on static and dynamic stimuli. Furthermore, we discuss the limitations and scalability of our approach in comparison to established visualization techniques. [ABSTRACT FROM AUTHOR]

Published

2016

11. Eye Tracking in Computer-Based Visualization.

Author

Kurzhals, Kuno, Burch, Michael, Pfeiffer, Thies, and Weiskopf, Daniel

Subjects

EYE tracking, VISUALIZATION, TECHNOLOGICAL innovations, DATA analysis, THREE-dimensional display systems

Abstract

The authors describe the creation of a tridimensional fly-through animation across the largest map of galaxies to date. This project represented a challenge: creating a scientifically accurate representation of the galaxy distribution that was aesthetically pleasing. The animation shows almost half a million galaxies as the viewer travels through the vast intergalactic regions, giving a glimpse of the sheer size of the universe. [ABSTRACT FROM AUTHOR]

Published

2015

12. Eye Tracking for Personal Visual Analytics.

Author

Kurzhals, Kuno and Weiskopf, Daniel

Subjects

*EYE tracking, *VISUAL perception, *VISUAL analytics, *WEARABLE technology, *INNOVATION adoption

Abstract

In many research fields, eye tracking has become an established method to analyze the distribution of visual attention in various scenarios. In the near future, eye tracking is expected to become ubiquitous, recording massive amounts of data in everyday situations. To make use of this data, new approaches for personal visual analytics will be necessary to make the data accessible, allowing nonexpert users to re-experience interesting events and benefit from self-reflection. This article discusses how eye tracking fits in the context of personal visual analytics, the challenges that arise with its application to everyday situations, and the research perspectives of personal eye tracking. As an example, the authors present a technique for representing areas of interest (AOIs) from multiple videos: the AOI cloud. They apply this technique to examine a user's personal encounters with other people. [ABSTRACT FROM PUBLISHER]

Published

2015

13. Visual analytics for video applications.

Author

Tanisaro, Pattreeya, Schöning, Julius, Kurzhals, Kuno, Heidemann, Gunther, and Weiskopf, Daniel

Subjects

VISUAL analytics, VIDEO surveillance, EYE tracking, SENSEMAKING theory (Communication), COMPUTER vision

Abstract

In this article, we describe the concept of video visual analytics with a special focus on the reasoning process in the sensemaking loop. To illustrate this concept with real application scenarios, two visual analytics (VA) tools are discussed in detail that cover the sensemaking process: (i) for video surveillance, and (ii) for eye-tracking data analysis. Surveillance data (i) allow discussion of key VA topics such as browsing and playback, situational awareness, and the deduction of reasoning. Using example (ii) - eye tracking data from persons watching video - we review application features such as the spatio-temporal visualization along with clustering, and identification of attentional synchrony between participants. We examine how these features can support the VA process. Based on this, open challenges in video VA will be discussed. [ABSTRACT FROM AUTHOR]

Published

2015

14. Comparative Eye Tracking Study on Node-Link Visualizations of Trajectories.

Author

Netzel, Rudolf, Burch, Michel, and Weiskopf, Daniel

Subjects

EYE tracking, VISUALIZATION, SPACE trajectories, ENCODING, GLOBAL Positioning System

Abstract

We present the results of an eye tracking study that compares different visualization methods for long, dense, complex, and piecewise linear spatial trajectories. Typical sources of such data are from temporally discrete measurements of the positions of moving objects, for example, recorded GPS tracks of animals in movement ecology. In the repeated-measures within-subjects user study, four variants of node-link visualization techniques are compared, with the following representations of directed links: standard arrow, tapered, equidistant arrows, and equidistant comets. In addition, we investigate the effect of rendering order for the halo visualization of those links as well as the usefulness of node splatting. All combinations of link visualization techniques are tested for different trajectory density levels. We used three types of tasks: tracing of paths, identification of longest links, and estimation of the density of trajectory clusters. Results are presented in the form of the statistical evaluation of task completion time, task solution accuracy, and two eye tracking metrics. These objective results are complemented by a summary of subjective feedback from the participants. The main result of our study is that tapered links perform very well. However, we discuss that equidistant comets and equidistant arrows are a good option to perceive direction information independent of zoom-level of the display. [ABSTRACT FROM PUBLISHER]

Published

2014

15. Evaluation of Traditional, Orthogonal, and Radial Tree Diagrams by an Eye Tracking Study.

Author

Burch, Michael, Konevtsova, Natalia, Heinrich, Julian, Hoeferlin, Markus, and Weiskopf, Daniel

Subjects

DATA visualization, TREE graphs, ANALYSIS of variance, DATA analysis, PROBLEM solving, COMPUTER users

Abstract

Node-link diagrams are an effective and popular visualization approach for depicting hierarchical structures and for showing parent-child relationships. In this paper, we present the results of an eye tracking experiment investigating traditional, orthogonal, and radial node-link tree layouts as a piece of empirical basis for choosing between those layouts. Eye tracking was used to identify visual exploration behaviors of participants that were asked to solve a typical hierarchy exploration task by inspecting a static tree diagram: finding the least common ancestor of a given set of marked leaf nodes. To uncover exploration strategies, we examined fixation points, duration, and saccades of participants' gaze trajectories. For the non-radial diagrams, we additionally investigated the effect of diagram orientation by switching the position of the root node to each of the four main orientations. We also recorded and analyzed correctness of answers as well as completion times in addition to the eye movement data. We found out that traditional and orthogonal tree layouts significantly outperform radial tree layouts for the given task. Furthermore, by applying trajectory analysis techniques we uncovered that participants cross-checked their task solution more often in the radial than in the non-radial layouts. [ABSTRACT FROM AUTHOR]

Published

2011

16. A Comparison of a Transition-based and a Sequence-based Analysis of AOI Transition Sequences

Author

Chat Wacharamanotham, Chia-Kai Yang, Tanja Blascheck, University of Zurich, Bulling, Andreas, Huckauf, Anke, Jain, Eakta, Radach, Ralph, and Weiskopf, Daniel

Subjects

Creative visualization, Sequence, Visual analytics, 1707 Computer Vision and Pattern Recognition, Computer science, 10009 Department of Informatics, media_common.quotation_subject, 000 Computer science, knowledge & systems, computer.software_genre, 2731 Ophthalmology, Visualization, 1709 Human-Computer Interaction, 2809 Sensory Systems, Graph (abstract data type), Eye tracking, Data mining, Focus (optics), computer, media_common, Complement (set theory)

Abstract

Several visual analytics (VA) systems are used for analyzing eye-tracking data because they synergize human-in-the-loop exploration with speed and accuracy of the computer. In the VA systems, the choices of visualization techniques could afford discovering certain types of insights while hindering others. Understanding these affordances and hindrances is essential to design effective VA systems. In this paper, we focus on two approaches for visualizing AOI transitions: the transition-based approach (exemplified by the radial transition graph, RTG) and the sequence-based approach (exemplified by the Alpscarf). We captured the insights generated by two analysts who individually use each visualization technique on the same dataset. Based on the results, we identify four phases of analytic activities and discuss opportunities that the two visualization approaches can complement each other. We point out design implications for VA systems that combine these visualization approaches.

Published

2020

17. Towards capturing focal/ambient attention during dynamic wayfinding

Author

Jakub Krukar, Christoph Hoelscher, Panagiotis Mavros, Bulling, Andreas, Huckauf, Anke, Jain, Eakta, Radach, Ralph, and Weiskopf, Daniel

Subjects

eye-tracking, Measure (data warehouse), wayfinding, Computer science, business.industry, 05 social sciences, 0211 other engineering and technologies, Experimental data, 021107 urban & regional planning, Usability, 02 engineering and technology, Virtual reality, 050105 experimental psychology, Transformation (function), Signage, Human–computer interaction, Eye tracking, 0501 psychology and cognitive sciences, business, Equivalence (measure theory)

Abstract

This work-in-progress paper reports on an ongoing experiment in which mobile eye-tracking is used to evaluate different wayfinding support systems. Specifically, it tackles the problem of detecting and isolating attentional demands of building layouts and signage systems in wayfinding tasks. The coefficient K has been previously established as a measure of focal/ambient attention for eye-tracking data. Here, we propose a novel method to compute coefficient K using eye-tracking from virtual reality experiments. We detail challenges associated with transforming a two-dimensional coefficient K concept to three-dimensional data, and the debatable theoretical equivalence of the concept after such a transformation. We present a preliminary implementation to experimental data and explore the possibilities of the method for novel insight in architectural analyses., ETRA '20 Adjunct: ACM Symposium on Eye Tracking Research and Applications, ISBN:978-1-4503-7135-3

Published

2020