Relevant bibliographies by topics / Node-link diagram

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  1. Journal articles
  2. Dissertations / Theses
  3. Book chapters
  4. Conference papers

Academic literature on the topic 'Node-link diagram'

Author: Grafiati
Published: 4 June 2021
Last updated: 5 February 2022

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Journal articles on the topic "Node-link diagram"

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Frisch, Mathias, and Raimund Dachselt. "Visualizing offscreen elements of node-link diagrams." Information Visualization 12, no. 2 (January 28, 2013): 133–62. http://dx.doi.org/10.1177/1473871612473589.

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Visual representations of node-link diagrams are very important for the software development process. In many situations, large diagrams have to be explored, whereby diagram elements of interest are often clipped from the viewport and are therefore not visible. Thus, in state-of-the-art modeling tools, navigation is accompanied by time-consuming panning and zooming. One solution to this problem is offscreen visualization techniques. Usually, they indicate the existence and direction of clipped elements by overlays at the border of the viewport. In this article, we contribute the application of offscreen visualization techniques to the domain of node-link diagrams in general and to Unified Modeling Language class diagrams in particular. The basic idea of our approach is to represent offscreen nodes by proxy elements located within an interactive border region around the viewport. The proxies show information of the associated offscreen nodes and can be used to quickly navigate to the respective node. In addition, we contribute techniques that preserve the routing of edges during panning and zooming and present strategies to make our approach scalable to large diagrams. We conducted a formative pilot study of our first prototype. Based on the observations made during the evaluation, we suggest how particular techniques should be combined. Finally, we ran a user evaluation to compare our technique with a traditional zoom+pan interface. The results showed that our approach is significantly faster for exploring relationships within diagrams than state-of-the-art interfaces. We also found that the offscreen visualization combined with an additional overview window did not improve the orientation within an unknown diagram. However, an overview should be offered as a cognitive support. CR categories: D.2.2 [Software Engineering]: Design Tools and Techniques— User Interface; H.5.2 [Information Interfaces and Presentation]: User Interfaces— Graphical User Interfaces General terms: Design, Human Factors
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Ware, Colin, and Robert Bobrow. "Supporting Visual Queries on Medium-Sized Node–Link Diagrams." Information Visualization 4, no. 1 (March 2005): 49–58. http://dx.doi.org/10.1057/palgrave.ivs.9500090.

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For reasons of clarity, a typical node–link diagram statically displayed on paper or a computer screen contains fewer than 30 nodes. However, many problems would benefit if far more complex information could be diagrammed. Following Munzner et al., we suggest that with interactive diagrams this may be possible. We describe an interactive technique whereby a subset of a larger network diagram is highlighted by being set into oscillatory motion when a node is selected with a mouse. The subset is determined by a breadth first search of the underlying graph starting from the selected node. This technique is designed to support visual queries on moderately large node-link diagrams containing up to a few thousand nodes. An experimental evaluation was carried out with networks having 32, 100, 320, 1000, and 3200 nodes respectively, and with four highlighting techniques: static highlighting, motion highlighting, static+ motion highlighting, and none. The results show that the interactive highlighting methods support rapid visual queries of nodes in close topological proximity to one another, even for the largest diagrams tested. Without highlighting, error rates were high even for the smallest network that was evaluated. Motion highlighting and static highlighting were equally effective. A second experiment was carried out to evaluate methods for showing two subsets of a larger network simultaneously in such a way that both are clearly distinct. The specific task was to determine if the two subsets had nodes in common. The results showed that this task could be performed rapidly and with few errors if one subset was highlighted using motion and the other was highlighted using a static technique. We discuss the implications for information visualization.
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Wei, Guan. "Reliability Analysis of the Internet of Things Based on Ordered Binary Decision Diagram." International Journal of Online Engineering (iJOE) 14, no. 08 (August 30, 2018): 20. http://dx.doi.org/10.3991/ijoe.v14i08.9185.

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The reliability of the Internet of Things (IoT) system is analyzed and studied through ordered binary decision diagram (OBDD) to improve its design, application, and development. Based on the OBDD analysis, a reliability evaluation method named as enhanced node expansion (ENE) is proposed. This method provides an effective solution for the reliability assessment of IoT with large scale and complex network structure. A link importance assessment method based on OBDD analysis is also established. The proposed method can accurately and effectively evaluate the reliability of the IoT network and is practical for discussing the reliability, design, and development of this system.
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Atiqah Sia Abdullah, Nur, and Hamizah Binti Anuar. "Review of Data Visualization for Social Media Postings." International Journal of Engineering & Technology 7, no. 4.38 (December 3, 2018): 939. http://dx.doi.org/10.14419/ijet.v7i4.38.27613.

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Facebook and Twitter are the most popular social media platforms among netizen. People are now more aggressive to express their opinions, perceptions, and emotions through social media platforms. These massive data provide great value for the data analyst to understand patterns and emotions related to a certain issue. Mining the data needs techniques and time, therefore data visualization becomes trending in representing these types of information. This paper aims to review data visualization studies that involved data from social media postings. Past literature used node-link diagram, node-link tree, directed graph, line graph, heatmap, and stream graph to represent the data collected from the social media platforms. An analysis by comparing the social media data types, representation, and data visualization techniques is carried out based on the previous studies. This paper critically discussed the comparison and provides a suggestion for the suitability of data visualization based on the type of social media data in hand.
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Demian, Peter, and Renate Fruchter. "Finding and Understanding Reusable Designs from Large Hierarchical Repositories." Information Visualization 5, no. 1 (March 2006): 28–46. http://dx.doi.org/10.1057/palgrave.ivs.9500114.

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This paper describes a prototype called CoMem (Corporate Memory) that supports the finding and understanding of useful items in large hierarchical repositories. The particular domain is civil engineering design, and the prototype is designed specifically to support design reuse in building construction projects. However, the underlying visualization and interaction principals behind CoMem are generalizable to the ubiquitous task of finding and understanding useful information in large hierarchical repositories. To support the finding, the entire hierarchy is visualized using a squarified treemap. Once an item from the treemap is selected, CoMem supports the understanding of that item by identifying related items in the hierarchy and visualizing the selected item in the context of these related items in a node-link diagram. The paper concludes with a brief discussion of a usability evaluation of CoMem that supports the claim that finding and understanding improve the process of reuse, and that the described visualizations assist with finding and understanding.
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Saket, Bahador, Paolo Simonetto, Stephen Kobourov, and Katy Borner. "Node, Node-Link, and Node-Link-Group Diagrams: An Evaluation." IEEE Transactions on Visualization and Computer Graphics 20, no. 12 (December 31, 2014): 2231–40. http://dx.doi.org/10.1109/tvcg.2014.2346422.

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Nguyen, Quang Vinh, and Mao Lin Huang. "Space-Optimized Tree: A Connection+Enclosure Approach for the Visualization of Large Hierarchies." Information Visualization 2, no. 1 (March 2003): 3–15. http://dx.doi.org/10.1057/palgrave.ivs.9500031.

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This paper describes a new approach, space-optimized tree, for the visualization and navigation of tree-structured relational data. This technique can be used especially for the display of very large hierarchies in a two-dimensional space. We discuss the advantages and limitations of current techniques of tree visualization. Our strategy is to optimize the drawing of trees in a geometrical plane and maximize the utilization of display space by allowing more nodes and links to be displayed at a limited screen resolution. Space-optimized tree is a connection+ enclosure visualization approach that recursively positions children of a subtree into polygon areas and still uses a node–link diagram to present the entire hierarchical structure. To be able to handle the navigation of large hierarchies, we use a new hybrid viewing technique that combines two viewing methods, the modified semantic zooming and a focus+ context technique. While the semantic zooming technique can enlarge a particular viewing area by filtering out the rest of tree structure from the visualization, the focus+context technique allows the user to interactively focus, view and browse the entire visual structure with a reasonable high-density display.
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Ghoniem, Mohammad, Jean-Daniel Fekete, and Philippe Castagliola. "On the Readability of Graphs Using Node-Link and Matrix-Based Representations: A Controlled Experiment and Statistical Analysis." Information Visualization 4, no. 2 (May 12, 2005): 114–35. http://dx.doi.org/10.1057/palgrave.ivs.9500092.

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In this article, we describe a taxonomy of generic graph related tasks along with a computer-based evaluation designed to assess the readability of two representations of graphs: matrix-based representations and node-link diagrams. This evaluation encompasses seven generic tasks and leads to insightful recommendations for the representation of graphs according to their size and density. Typically, we show that when graphs are bigger than twenty vertices, the matrix-based visualization outperforms node-link diagrams on most tasks. Only path finding is consistently in favor of node-link diagrams throughout the evaluation.
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Preiner, R., J. Schmidt, K. Krösl, T. Schreck, and G. Mistelbauer. "Augmenting Node‐Link Diagrams with Topographic Attribute Maps." Computer Graphics Forum 39, no. 3 (June 2020): 369–81. http://dx.doi.org/10.1111/cgf.13987.

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Ghani, S., N. Elmqvist, and J. S. Yi. "Perception of Animated Node-Link Diagrams for Dynamic Graphs." Computer Graphics Forum 31, no. 3pt3 (June 2012): 1205–14. http://dx.doi.org/10.1111/j.1467-8659.2012.03113.x.

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Dissertations / Theses on the topic "Node-link diagram"

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Frisch, Mathias [Verfasser]. "Visualization and Interaction Techniques for Node-Link Diagram Editing and Exploration / Mathias Frisch." München : Verlag Dr. Hut, 2012. http://d-nb.info/102582153X/34.

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Nur, Kazım Gökberk. "Visualizing Logical Architecture of Electrical and Electronic (E/E) Systems in Automotive Industry." Thesis, Tekniska Högskolan, Högskolan i Jönköping, JTH, Datateknik och informatik, 2020. http://urn.kb.se/resolve?urn=urn:nbn:se:hj:diva-47395.

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Modern vehicles equipped with many hardware and software systems. To develop new functionalities and maintain existing features of the vehicles, engineers have to check relationship between software and hardware systems. Due to complexity of these relationships, visual representation of how systems are working together is required to make R&D process easier. At Scania, engineers using node-link diagrams to represent logical function architecture of the Scania vehicles. Logical function architecture is a part of electrical and electronic systems in the automotive industry, due to size of these systems they are considered as a large network. Visualizing large networks by diagrams is not a new problem in literature. At past, researches published about diagram drawing and algorithms have been developed to generate good looking diagram. However, sometimes due to complexity of the data, having complex and unreadable diagrams are unavoidable and they are hard to understand. Previous studies investigated how diagrams should be drawn, however focus was not how users should interact with the diagrams. In node-link diagrams users follows edges to understand relationships between components. Having edges in the diagram heavily affects the diagram drawing time and also required space for the diagram. In this paper I developed an artefact which is not using edges to visualize LFA at Scania. Artefact usability has been tested with Scania engineers by giving some tasks to them. In the tests, artefact without edges achieved better results than node-link diagram and 426% improvement achieved by comparing task completion times in seconds. The artefact proved that it can be powerful alternative to classic node-link diagram visualization.
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Nazli, Bilgic, and Sofia Kiriaki Vulgari. "Comparison of Two Eye Trackers for the Visualization of Eye Tracking Data in Node-Link Diagrams." Thesis, Linnéuniversitetet, Institutionen för datavetenskap (DV), 2016. http://urn.kb.se/resolve?urn=urn:nbn:se:lnu:diva-55733.

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The usage of eye trackers is becoming more and more popular in the field of information visualization. In this project two eye trackers, The Eye Tribe nd Mirametrix S2, are used to obtain eye tracking data for visualizations. It is planned to use the eye trackers with OnGraX, a network visualization system, where they will provide data for the implementation of visualizations, specifically, heatmaps. OnGraX already uses heatmaps to show regions in a network that have been in the viewport of the user. One aim of this thesis will be the comparison between the two eye trackers, and if the use of eye tracking data gives better results thatn the already existing viewport-based approach. At the same time, we provide the foundation for adaptive visualizations with OnGraX. Our research problem is also of interest for visualization in general, because it will help to improve and develop eye tracking technology in this context. To support the outcome of our implementation, we carried out a user study. As a result, we concluded that one of the two eye trackers appears to have more capabilities than the other, and that using the eye tracking data is a more preferred way of depicting the heatmaps on OnGraX.
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Spritzer, Andre Suslik. "Supporting the design of custom static node-ling graph visualization." reponame:Biblioteca Digital de Teses e Dissertações da UFRGS, 2015. http://hdl.handle.net/10183/122650.

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Visualizações de grafos para comunicação aparecem numa variedade de contextos que vão do acadêmico-científico até o jornalístico e até mesmo artístico. Diferente de visualizações de grafos para exploração e análise de dados, essas imagens são usadas para “contar uma história” que já se conhece ao invés da “procura de uma nova história” nos dados. Apesar de ser possível usar software para desenho de grafos e edição de diagramas para produzí-las, visualizações feitas dessa forma nem sempre preenchem os requisitos visuais impostos pelos seus contextos de uso. Programas de edição de imagens podem ser usados para fazer as melhorias necessárias, mas nem todas as modificações são possíveis e o processo de editar essas imagens pode exigir muito tempo e esforço. Neste trabalho, apresentamos uma investigação de visualizações nodo-aresta estáticas para comunicação e de como facilitar sua criação. A partir de uma desconstrução dessas imagens, identificando seus elementos essenciais, e analisando como são criadas, derivamos um conjunto de requisitos que ferramentas para a criação dessas visualizações devem preencher. Para verificar o efeito da metodologia na melhora do fluxo de trabalho de designers, com mais poder e flexibilidade, foi concebido e implementado um protótipo chamado GraphCoiffure. Com um foco especial em auxiliar usuários na criação de visualizações para publicação, Graph- Coiffure foi projetado como uma aplicação standalone que seria usada como um passo intermediário entre programas de desenho e edição de grafos e editores gráficos. Ele combina ferramentas para manipulação interativa de layouts com estilização similar a CSS para permitir que usuários criem e editem visualizações nodo-aresta estáticas. Ilustramos o funcionamento de GraphCoiffure com quatro casos de uso: a adaptação do layout de uma visualização para fazê-la funcionar em uma dada página, a reprodução do estilo de uma visualização e sua aplicação em outro grafo, e a criação integral de duas novas visualizações. Para obter feedback sobre GraphCoiffure, conduzimos uma avaliação informal através de entrevistas com três potenciais usuários, que disseram achar que GraphCoiffure beneficiaria seu trabalho.
Graph visualizations for communication appear in a variety of contexts that range from scientific/ academic to journalistic and even artistic. Unlike graph visualizations for exploration and analysis, these images are used to tell a story that is already known rather than to look for a story within the data. Although graph drawing and diagram editing software can be used to produce them, visualizations made this way do not always meet the visual requirements imposed by their context of use. Graphics authoring software can be used to make the necessary improvements, but not all modifications are possible and the process of editing these images may be very time-consuming and labor-intensive. In this work, we present an investigation of static node-link visualizations for communication and how to better support their creation. We began with a deconstruction of these images, breaking them down into their basic elements and analyzing how they are created. From this, we derived a set of requirements that tools aimed at supporting their creation should meet. To verify if taking all of this into account would improve the workflow and bring more flexibility and power to the users, we created our own prototype, which we named GraphCoiffure. With a special emphasis on helping users on creating visualizations for publication, GraphCoiffure was designed as a standalone application that would serve as an intermediary step between graph drawing and editing software and graphics editors. It combines interactive graph layout manipulation tools with CSS-like styling possibilities to let users create and edit static node-link visualizations for communication. We illustrate the use of GraphCoiffure with four use-case scenarios: the adaptation of a visualization’s layout to make it work on a given page, the reproduction of a visualization’s style and its application on another graph, and the creation of two visualizations from scratch. To obtain feedback on GraphCoiffure, we conducted an informal evaluation by interviewing three potential expert users, who found that it could be useful for their work.
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Kister, Ulrike. "Interactive Visualization Lenses:." Doctoral thesis, Saechsische Landesbibliothek- Staats- und Universitaetsbibliothek Dresden, 2018. http://nbn-resolving.de/urn:nbn:de:bsz:14-qucosa-236782.

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Information visualization is an important research field concerned with making sense and inferring knowledge from data collections. Graph visualizations are specific techniques for data representation relevant in diverse application domains among them biology, software-engineering, and business finance. These data visualizations benefit from the display space provided by novel interactive large display environments. However, these environments also cause new challenges and result in new requirements regarding the need for interaction beyond the desktop and according redesign of analysis tools. This thesis focuses on interactive magic lenses, specialized locally applied tools that temporarily manipulate the visualization. These may include magnification of focus regions but also more graph-specific functions such as pulling in neighboring nodes or locally reducing edge clutter. Up to now, these lenses have mostly been used as single-user, single-purpose tools operated by mouse and keyboard. This dissertation presents the extension of magic lenses both in terms of function as well as interaction for large vertical displays. In particular, this thesis contributes several natural interaction designs with magic lenses for the exploration of graph data in node-link visualizations using diverse interaction modalities. This development incorporates flexible switches between lens functions, adjustment of individual lens properties and function parameters, as well as the combination of lenses. It proposes interaction techniques for fluent multi-touch manipulation of lenses, controlling lenses using mobile devices in front of large displays, and a novel concept of body-controlled magic lenses. Functional extensions in addition to these interaction techniques convert the lenses to user-configurable, personal territories with use of alternative interaction styles. To create the foundation for this extension, the dissertation incorporates a comprehensive design space of magic lenses, their function, parameters, and interactions. Additionally, it provides a discussion on increased embodiment in tool and controller design, contributing insights into user position and movement in front of large vertical displays as a result of empirical investigations and evaluations
Informationsvisualisierung ist ein wichtiges Forschungsfeld, das das Analysieren von Daten unterstützt. Graph-Visualisierungen sind dabei eine spezielle Variante der Datenrepräsentation, deren Nutzen in vielerlei Anwendungsfällen zum Einsatz kommt, u.a. in der Biologie, Softwareentwicklung und Finanzwirtschaft. Diese Datendarstellungen profitieren besonders von großen Displays in neuen Displayumgebungen. Jedoch bringen diese Umgebungen auch neue Herausforderungen mit sich und stellen Anforderungen an Nutzerschnittstellen jenseits der traditionellen Ansätze, die dadurch auch Anpassungen von Analysewerkzeugen erfordern. Diese Dissertation befasst sich mit interaktiven „Magischen Linsen“, spezielle lokal-angewandte Werkzeuge, die temporär die Visualisierung zur Analyse manipulieren. Dabei existieren zum Beispiel Vergrößerungslinsen, aber auch Graph-spezifische Manipulationen, wie das Anziehen von Nachbarknoten oder das Reduzieren von Kantenüberlappungen im lokalen Bereich. Bisher wurden diese Linsen vor allem als Werkzeug für einzelne Nutzer mit sehr spezialisiertem Effekt eingesetzt und per Maus und Tastatur bedient. Die vorliegende Doktorarbeit präsentiert die Erweiterung dieser magischen Linsen, sowohl in Bezug auf die Funktionalität als auch für die Interaktion an großen, vertikalen Displays. Insbesondere trägt diese Dissertation dazu bei, die Exploration von Graphen mit magischen Linsen durch natürliche Interaktion mit unterschiedlichen Modalitäten zu unterstützen. Dabei werden flexible Änderungen der Linsenfunktion, Anpassungen von individuellen Linseneigenschaften und Funktionsparametern, sowie die Kombination unterschiedlicher Linsen ermöglicht. Es werden Interaktionstechniken für die natürliche Manipulation der Linsen durch Multitouch-Interaktion, sowie das Kontrollieren von Linsen durch Mobilgeräte vor einer Displaywand vorgestellt. Außerdem wurde ein neuartiges Konzept körpergesteuerter magischer Linsen entwickelt. Funktionale Erweiterungen in Kombination mit diesen Interaktionskonzepten machen die Linse zu einem vom Nutzer einstellbaren, persönlichen Arbeitsbereich, der zudem alternative Interaktionsstile erlaubt. Als Grundlage für diese Erweiterungen stellt die Dissertation eine umfangreiche analytische Kategorisierung bisheriger Forschungsarbeiten zu magischen Linsen vor, in der Funktionen, Parameter und Interaktion mit Linsen eingeordnet werden. Zusätzlich macht die Arbeit Vor- und Nachteile körpernaher Interaktion für Werkzeuge bzw. ihre Steuerung zum Thema und diskutiert dabei Nutzerposition und -bewegung an großen Displaywänden belegt durch empirische Nutzerstudien
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Shanmugasundaram, Maruthappan. "Quantifying the effects of smooth view transitions on perceptual constancy in node-link diagrams." 2007. http://hdl.handle.net/1993/20999.

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Book chapters on the topic "Node-link diagram"

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Schwank, Johannes, and Sebastian Schöffel. "Visualizing Uncertainty in Node-Link Diagrams - a User Study." In Advances in Intelligent Systems and Computing, 495–507. Cham: Springer International Publishing, 2017. http://dx.doi.org/10.1007/978-3-319-60492-3_47.

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Meulemans, Wouter, and André Schulz. "A Tale of Two Communities: Assessing Homophily in Node-Link Diagrams." In Lecture Notes in Computer Science, 489–501. Cham: Springer International Publishing, 2015. http://dx.doi.org/10.1007/978-3-319-27261-0_40.

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Livingston, Mark A., Derek Brock, Tucker Maney, and Dennis Perzanowski. "Extending the Sentence Verification Technique to Tables and Node-Link Diagrams." In Advances in Intelligent Systems and Computing, 203–15. Cham: Springer International Publishing, 2018. http://dx.doi.org/10.1007/978-3-319-93882-0_21.

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Kriglstein, Simone, Margit Pohl, and Johanna Doppler Haider. "How Users Transform Node-Link Diagrams to Matrices and Vice Versa." In Diagrammatic Representation and Inference, 526–34. Cham: Springer International Publishing, 2018. http://dx.doi.org/10.1007/978-3-319-91376-6_48.

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Blinder, Rotem, Ofer Biller, Adir Even, Oded Sofer, Noam Tractinsky, Joel Lanir, and Peter Bak. "Comparative Evaluation of Node-Link and Sankey Diagrams for the Cyber Security Domain." In Human-Computer Interaction – INTERACT 2019, 497–518. Cham: Springer International Publishing, 2019. http://dx.doi.org/10.1007/978-3-030-29381-9_31.

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Bakker, Anne-Roos, and Leonie Bosveld-de Smet. "Node-Link Diagrams as Lenses for Organizational Knowledge Sharing on a Social Business Platform." In Graph-Based Representation and Reasoning, 197–200. Cham: Springer International Publishing, 2018. http://dx.doi.org/10.1007/978-3-319-91379-7_16.

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Romat, Hugo, Dylan Lebout, Emmanuel Pietriga, and Caroline Appert. "Influence of Color and Size of Particles on Their Perceived Speed in Node-Link Diagrams." In Human-Computer Interaction – INTERACT 2019, 619–37. Cham: Springer International Publishing, 2019. http://dx.doi.org/10.1007/978-3-030-29384-0_37.

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AlTarawneh, Ragaad, Jens Bauer, Shah Rukh Humayoun, Patric Keller, and Achim Ebert. "The Reflection Layer Extension to the Stereoscopic Highlight Technique for Node-Link Diagrams: An Empirical Study." In Advances in Visual Computing, 1–12. Berlin, Heidelberg: Springer Berlin Heidelberg, 2013. http://dx.doi.org/10.1007/978-3-642-41939-3_1.

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Hai-Jew, Shalin. "Optimizing Static and Dynamic Visual Expressions of Time-Based Events, Processes, Procedures, and Future Projections for Instructional Design." In Form, Function, and Style in Instructional Design, 134–50. IGI Global, 2020. http://dx.doi.org/10.4018/978-1-5225-9833-6.ch007.

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Time-based visuals are used to depict time-based events, processes, procedures, and future projections, among others. These come in 2D, 3D, and 4D types, and they may be static or dynamic, non-interactive, or interactive. A simple process or procedure may be expressed visually as a timeline, a flowchart, a stacked diagram, a node-link game tree, a workflow diagram, dedicated-type sequence diagrams, or some other sequence-based visual. With the proliferation of more complex time-based sequences—with multiple paths, multiple actors, decision junctures, conditionals, and other forms of dimensionality, and with multimodal expressions and interactive digital interfaces, with processes as descriptions, theorized steps, directional procedures, projections, and other types—the visual depictions of processes and procedures have become much more complex and layered. This work describes some efforts to optimize these visual expressions through proper design, development, testing, and revision.
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Hai-Jew, Shalin. "Using Microsites as Live Presentation Platforms." In Advances in Multimedia and Interactive Technologies, 303–20. IGI Global, 2015. http://dx.doi.org/10.4018/978-1-4666-8696-0.ch008.

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Live presentations in academic conferences often link to online resources for preview or post-view. Microsites may enhance live and real-time presentations. To examine the human factors and software challenges involved, this chapter offers three real-world partial solutions for interactive microsites that serve multiple purposes. This article focuses on the use of SoftChalk as a core authoring tool to create microsites for live presentations. Three real-world and unique cases (all from 2012) are showcased here: “Using Tableau Public for (Spatial and Trendline) Data Visualization (An Early Exploration and ‘TMI' Musing on Data)” at https://softchalkcloud.com/lesson/rtNYCf1K80el9w; “Building and Analyzing Node-Link Diagrams to Understand Social Networks” at https://softchalkcloud.com/lesson/c4d8tSWMCwm39n; and “Building Effective Study Guides for Online Learning and Assessment” at https://softchalkcloud.com/lesson/rFnD0AQX3xRVTa.
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Conference papers on the topic "Node-link diagram"

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Chawuthai, Rathachai. "A Study of Term Frequency toward the Ability to Read an RDF-based Node-Link Diagram Visualization." In 2018 15th International Conference on Electrical Engineering/Electronics, Computer, Telecommunications and Information Technology (ECTI-CON). IEEE, 2018. http://dx.doi.org/10.1109/ecticon.2018.8620015.

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Lambert, A., F. Queyroi, and R. Bourqui. "Visualizing Patterns in Node-link Diagrams." In 2012 16th International Conference on Information Visualisation (IV). IEEE, 2012. http://dx.doi.org/10.1109/iv.2012.19.

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Romat, Hugo, Caroline Appert, Benjamin Bach, Nathalie Henry-Riche, and Emmanuel Pietriga. "Animated Edge Textures in Node-Link Diagrams." In CHI '18: CHI Conference on Human Factors in Computing Systems. New York, NY, USA: ACM, 2018. http://dx.doi.org/10.1145/3173574.3173761.

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Schwank, Johannes, Sebastian Schoffel, Jan Starz, and Achim Ebert. "Visualizing Uncertainty of Edge Attributes in Node-Link Diagrams." In 2016 20th International Conference Information Visualisation (IV). IEEE, 2016. http://dx.doi.org/10.1109/iv.2016.19.

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Weidong Huang, Maolin Huang, and Chun-Cheng Lin. "Aesthetic of angular resolution for node-link diagrams: Validation and algorithm." In 2011 IEEE Symposium on Visual Languages and Human-Centric Computing (VL/HCC 2011). IEEE, 2011. http://dx.doi.org/10.1109/vlhcc.2011.6070402.

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Shanmugasundaram, Maruthappan, Pourang Irani, and Carl Gutwin. "Can smooth view transitions facilitate perceptual constancy in node-link diagrams?" In Graphics Interface 2007. New York, New York, USA: ACM Press, 2007. http://dx.doi.org/10.1145/1268517.1268531.

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Schneider, Christian, Miro Sponemann, and Reinhard von Hanxleden. "Just model! — Putting automatic synthesis of node-link-diagrams into practice." In 2013 IEEE Symposium on Visual Languages and Human-Centric Computing (VL/HCC). IEEE, 2013. http://dx.doi.org/10.1109/vlhcc.2013.6645246.

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AlTarawneh, Ragaad, Jens Bauer, Shah Rukh Humayoun, Patric Keller, and Achim Ebert. "The Extended Stereoscopic Highlighting Technique for Node-Link Diagrams: An Empirical Study." In Computer Graphics and Imaging. Calgary,AB,Canada: ACTAPRESS, 2013. http://dx.doi.org/10.2316/p.2013.797-018.

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Debiasi, Alberto, Bruno Simoes, and Raffaele De Amicis. "Schematization of Node-Link Diagrams and Drawing Techniques for Geo-referenced Networks." In 2015 International Conference on Cyberworlds (CW). IEEE, 2015. http://dx.doi.org/10.1109/cw.2015.68.

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Frisch, Mathias, Sebastian Schmidt, Jens Heydekorn, Miguel A. Nacenta, Raimund Dachselt, and Sheelagh Carpendale. "Editing and exploring node-link diagrams on pen- and multi-touch-operated tabletops." In ACM International Conference. New York, New York, USA: ACM Press, 2010. http://dx.doi.org/10.1145/1936652.1936732.

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