IVAPP 2024 Abstracts

Area 1 - Information Visualization

Full Papers

Paper Nr:	237
Title:	Quantifying Topic Model Influence on Text Layouts Based on Dimensionality Reductions
Authors:	Daniel Atzberger, Tim Cech, Willy Scheibel, Jürgen Döllner and Tobias Schreck
Abstract:	Text spatializations for text corpora often rely on two-dimensional scatter plots generated from topic models and dimensionality reductions. Topic models are unsupervised learning algorithms that identify clusters, so-called topics, within a corpus, representing the underlying concepts. Furthermore, topic models transform documents into vectors, capturing their association with topics. A subsequent dimensionality reduction creates a two-dimensional scatter plot, illustrating semantic similarity between the documents. A recent study by Atzberger et al. has shown that topic models are beneficial for generating two-dimensional layouts. However, in their study, the hyperparameters of the topic models are fixed, and thus the study does not analyze the impact of the topic models’ quality on the resulting layout. Following the methodology of Atzberger et al., we present a comprehensive benchmark comprising (1) text corpora, (2) layout algorithms based on topic models and dimensionality reductions, (3) quality metrics for assessing topic models, and (4) metrics for evaluating two-dimensional layouts’ accuracy and cluster separation. Our study involves an exhaustive evaluation of numerous parameter configurations, yielding a dataset that quantifies the quality of each dataset-layout algorithm combination. Through a rigorous analysis of this dataset, we derive practical guidelines for effectively employing topic models in text spatializations. As a main result, we conclude that the quality of a topic model measured by coherence is positively correlated to the layout quality in the case of Latent Semantic Indexing and Non-Negative Matrix Factorization.
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Short Papers

Paper Nr:	16
Title:	Flowstrates++: An Approach to Visualize Multi-Dimensional OD Data
Authors:	Nicolas Fuchs, Pierre Vanhulst, Raphaël Tuor and Denis Lalanne
Abstract:	Is it possible to visualize complex Origin-Destination (OD) data along with relevant spatio-temporal data? In this paper, we tackle this issue by presenting Flowstrates++, an augmented version of Flowstrates which aims to visualize additional time-series datasets linked with OD data. On top of Flowstrates’ heatmap, we designed a second heatmap for spatio-temporal data, synchronized on the temporal axis, as well as other dataset comparison features. Two versions of Flowstrates++ have been designed and implemented: Switch, that displays one external dataset at a time, and Combi (for ”combined”), that displays two external datasets at the same time. We aimed to assess to which extent both variants spur users into making multidimensional findings. To achieve this goal, we evaluated both variants with ninety participants: ten were pilot users in live remote sessions, and eighty were provided by Prolific.co, a crowd-sourcing platform. In a within-groups study, these participants were asked to take relevant annotations about the data on both variants, and to evaluate them through a survey. We then classified the annotations using a framework whose validity was evaluated with an Intercoder Agreement and Fleiss’ Kappa. We found that the Combi variant yielded consistently better results, both in terms of number of produced multidimensional annotations, and in terms of appreciation of the participants. Yet regardless of the variant, our solution allows users to highlight potential correlations between time-series data and temporal OD data.
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Paper Nr:	263
Title:	Visualization of Swedish News Articles: A Design Study
Authors:	Kostiantyn Kucher, Nellie Engström, Wilma Axelsson, Berkant Savas and Andreas Kerren
Abstract:	The amount of available text data has increased rapidly in the past years, making it difficult for many users to find relevant information. To solve this, natural language processing (NLP) and text visualization methods have been developed, however, they typically focus on English texts only, while the support for low-resource languages is limited. The aim of this design study was to implement a visualization prototype for exploring a large number of Swedish news articles (made available by industrial collaborators), including the temporal and relational data aspects. Sketches of three visual representations were designed and evaluated through user tests involving both our collaborators and end-users (journalists). Next, an NLP pipeline was designed in order to support dynamic and hierarchical topic modeling. The final part of the study resulted in an interactive visualization prototype that uses a variation of area charts to represent topic evolution. The prototype was evaluated through an internal case study and user tests with two groups of participants with the background in journalism and NLP. The evaluation results reveal the participants’ preference for the representation focusing on top topics rather than the topic hierarchy, while suggestions for future work relevant for Swedish text data visualization are also provided.
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Paper Nr:	295
Title:	Using Retrieval Augmented Generation to Build the Context for Data-Driven Stories
Authors:	Angelica Lo Duca
Abstract:	Data Storytelling (DS) is building data-driven stories to communicate the result of a data analysis process effectively. However, it may happen that data storytellers lack the competences to build compelling texts to include in the data-driven stories. In this paper, we propose a novel strategy to enhance DS by automatically generating context for data-driven stories, leveraging the capabilities of Generative AI (GenAI). This contextual information provides the background knowledge necessary for the audience to understand the story’s message fully. Our approach uses Retrieval Augmented Generation (RAG), which adapts large language models (LLMs), the core concept behind GenAI, to the specific domain required by a data-driven story. We demonstrate the effectiveness of our method through a practical case study on salmon aquaculture, showcasing the ability of GenAI to enrich DS with relevant context. We also describe some possible strategies to evaluate the generated context and ethical issues may raise when using GenAI in DS.
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Paper Nr:	324
Title:	Visualizing Group Structure in Compound Graphs: The Current State, Lessons Learned, and Outstanding Opportunities
Authors:	Henry Ehlers, Diana Marin, Hsiang-Yun Wu and Renata G. Raidou
Abstract:	Compound graphs are common across domains, from social science to biochemical pathway studies, and their visualization is important to both their exploration and analysis. However, effectively visualizing a compound graph’s topology and group structure requires careful consideration, as evident by the many different approaches to this particular problem. To better understand the current advancements in compound graph visualization, we have consolidated and streamlined existing surveys’ taxonomies. More specifically, we aim to disentangle the visual relationship between graph topology and group structure from the visual encoding used to visualize its group structure in order to identify interesting gaps in the literature. In so doing, we are able to enumerate a number of lessons learned and gain a better understanding of the outstanding research opportunities and practical implications across domains.
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Paper Nr:	136
Title:	Visualizing Plasma Physics Simulations in Immersive Environments
Authors:	Nuno Verdelho Trindade, Óscar Amaro, David Brás, Daniel Gonçalves, João Madeiras Pereira and Alfredo Ferreira
Abstract:	Plasma physics simulations create complex datasets for which researchers need state-of-the-art visualization tools to gain insights. These datasets are 3D in nature but are commonly depicted and analyzed using 2D idioms displayed on 2D screens. These offer limited understandability in a domain where spatial awareness is key. Virtual reality (VR) can be used as an alternative to conventional means for analyzing such datasets. This study presents PlasmaVR, a proof-of-concept VR tool for visualizing datasets resulting from plasma physics simulations. It enables immersive multidimensional data visualization of particles, scalar, and vector fields. The study includes user evaluation with domain experts where PlasmaVR was employed to assess the possible benefits of immersive environments in plasma physics visualization. Participants manifested a high level of engagement when using the prototype, considering it more enjoyable than conventional means. The participant’s perception of the usefulness of VR in plasma simulations also increased after experiencing the prototype.
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Paper Nr:	141
Title:	Dashboard Design: Interactive and Visual Exploration of Spotify Songs
Authors:	Sarah Clavadetscher, Michael Schlotter, Nadine Christen, Juliane Streitberg and Michael Burch
Abstract:	In this paper we describe an approach to create interactive visualization tools for simple datasets that exist in various application domains which many people are familiar with and interested in, like sports, entertainment, traffic, or health care. Such data problems require a simple but elegant visual solution to support the non-experts in information visualization at their tasks at hand, supported by easy-to-understand interaction techniques. We start our approach with the design phase in which a hand-drawn mockup is created and based on this, an interactive dashboard in Dash, Plotly, and Python is built. The design of the tool is guided by user feedback of 23 participants in qualitative interviews taking into account eight relevant criteria before starting the design of a visualization tool. We illustrate the usefulness of the tool by applying it to a dataset focusing on songs from the music streaming platform Spotify while we integrate several diagrams in a multiple and coordinated views manner to visually explore a given dataset based on several visual perspectives. With the combination of the many diagrams we can find insights in the mood categories of the songs and several other attributes, hence allowing visual analyses and explorations. Finally, we discuss limitations and scalability issues of the approach.
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Paper Nr:	246
Title:	Bringing Objects to Life: Supporting Program Comprehension Through Animated 2.5D Object Maps from Program Traces
Authors:	Christoph Thiede, Willy Scheibel and Jürgen Döllner
Abstract:	Program comprehension is a key activity in software development. Several visualization approaches such as software maps have been proposed to support programmers in exploring the architecture of software systems. However, for the exploration of program behavior, programmers still rely on traditional code browsing and debugging tools to build a mental model of a system’s behavior. We propose a novel approach to visualizing program behavior through animated 2.5D object maps that depict particular objects and their interactions from a program trace. We describe our implementation and evaluate it for different program traces through an experience report and performance measurements. Our results indicate that our approach can benefit program comprehension tasks, but further research is needed to improve scalability and usability.
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Paper Nr:	398
Title:	Navigating the Trade-Off Between Explainability and Privacy
Authors:	Johanna Schmidt, Verena Pietsch, Martin Nocker, Michael Rader and Alessio Montuoro
Abstract:	Understanding the rationale behind complex AI decisions becomes increasingly vital as AI evolves. Explainable AI technologies are pivotal in demystifying these decisions, offering methods and tools to interpret and communicate the reasoning behind AI-driven outcomes. However, the rise of Explainable AI is juxtaposed with the imperative to protect sensitive data, leading to the integration of encryption techniques in AI development. This paper explores the intricate coexistence of explainability and encryption in AI, presenting a dilemma where the quest for transparency clashes with the imperative to secure sensitive information. The contradiction is particularly evident in methods like homomorphic encryption, which, while ensuring data security, complicates the provision of clear and interpretable explanations for AI decisions. The discussion delves into the conflicting goals of these approaches, surveying the use of privacy-preserving methods in Explainable AI and identifying potential directions for future research. Contributions include a comprehensive survey of privacy considerations in current Explainable AI approaches, an exemplary use case demonstrating visualization techniques for explainability in secure environments, and identifying avenues for future work.
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Paper Nr:	444
Title:	Simultaneous Optimization of Edge Bundling and Node Layout Using Genetic Algorithm
Authors:	Junsei Meikari and Ryosuke Saga
Abstract:	This paper describes an evolutionary visualization method that performs edge bundling during the execution of the genetic algorithm. There are several node layout algorithms and edge bundling, however, there are no methods considering both algorithms simultaneously. This paper proposes an algorithm to optimize the fitness function of GABEB, which is genetic algorithm-based edge bundling, and Zhang’s node layout simultaneously. The experiments for the sample graphs show the improved result from the viewpoints of several evaluation criteria.
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Paper Nr:	454
Title:	Visual Analysis of Military Diving Incident Reports
Authors:	G. Walsh, N. S. Andersen, J. Kusnick, E. B. Sørensen and S. Jänicke
Abstract:	Military diving can be characterized by its specialized tasks, advanced equipment, and ever-changing operational environments, giving rise to remarkably unique operational challenges. Given this complexity, accidents and incidents can occur. Incident reporting and analysis systems exist to collect data, perform trend analysis on safety interventions, and modify unsafe behaviors. By examining existing Military Diving Incident Reporting (MDIR) systems and literature, we reveal that individual European countries have segregated systems, but these lack standardization and interoperability. This paper introduces a novel visualization tool, focusing primarily on rebreather incidents, a critical piece of equipment with a history of incidents in both military and civilian contexts. We compare our proposed system with existing models, highlighting strengths and areas for improvement. This tool aims to illustrate the potential of a broader, more comprehensive system, which would cover not only rebreather incidents but all types of military diving incidents. The paper concludes with insights into the potential of a comprehensive, standardized MDIR system, proposing future extensions and research opportunities to enhance military diving safety and operational effectiveness.
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Area 2 - Scientific Visualization

Short Papers

Paper Nr:	372
Title:	Particle-Wise Higher-Order SPH Field Approximation for DVR
Authors:	Jonathan Fischer, Martin Schulze, Paul Rosenthal and Lars Linsen
Abstract:	When employing Direct Volume Rendering (DVR) for visualizing volumetric scalar fields, classification is generally performed on a piecewise constant or piecewise linear approximation of the field on a viewing ray. Smoothed Particle Hydrodynamics (SPH) data sets define volumetric scalar fields as the sum of individual particle contributions, at highly varying spatial resolution. We present an approach for approximating SPH scalar fields along viewing rays with piecewise polynomial functions of higher order. This is done by approximating each particle contribution individually and then efficiently summing the results, thus generating a higher-order representation of the field with a resolution adapting to the data resolution in the volume.
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Paper Nr:	269
Title:	Human-Machine Collaboration for the Visual Exploration and Analysis of High-Dimensional Spatial Simulation Ensembles
Authors:	Mai Dahshan, Nicholas F. Polys, Leanna House, Karim Youssef and Ryan Pollyea
Abstract:	Continuous improvements in supercomputing have given scientists from various fields the ability to conduct large-scale multi-dimensional numerical simulation ensembles. A simulation ensemble involves running multiple simulations, each with slight variations in model settings, such as input parameters, initial conditions, or boundary values. Exploring and analyzing these ensembles facilitates understanding parameter sensitivity and the correlations between different ensemble members. To capture these relationships, visual analytical tools are used to extract important features from the ensemble. In many cases, however, these visualizations highlight the differences in the ensemble using aggregated or descriptive statistics, ignoring the correlations and local differences between different spatial regions, which could hinder the exploration process. This paper proposes a visual analytical approach, SpatialGLEE, to interactively explore the spatial variability in the simulation ensemble. The proposed approach uses Gaussian Process Regression (GPR) and Semantic Interaction (SI) to help scientists explore the impact of input parameters on the ensemble and find the commonalities and differences across ensemble members and regions of interest (ROI). GPR models the spatial correlation structure in the ensemble. The modeled data is then inputted into the visualization pipeline for analysis and exploration with SI. The effectiveness of SpatialGLEE is demonstrated using a real-life case study.
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Area 3 - Visualization Techniques

Full Papers

Paper Nr:	120
Title:	Fundamental Limitations of Inverse Projections and Decision Maps
Authors:	Yu Wang and Alexandru Telea
Abstract:	Inverse projection techniques and decision maps are recent tools proposed to depict the behavior of a classifier using 2D visualizations. However, which parts of the large, high-dimensional, space such techniques actually visualize, is still unknown. A recent result hinted at the fact that such techniques only depict a two-dimensional manifold from the entire data space. In this paper, we investigate the behavior of inverse projections and decision maps in high dimensions with the help of intrinsic dimensionality estimation methods. We find that the inverse projections are always surface-like no matter what decision map method is used and no matter how high the data dimensionality is, i.e., the intrinsic dimensionality of inverse projections is always two. Thus, decision boundaries displayed by decision maps are the intersection of the backprojected surface and the actual decision surfaces. Our finding reveals a fundamental problem of all existing decision map techniques in constructing an effective visualization of the decision space. Based on our findings, we propose solutions for future work in decision maps to address this problem.
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Paper Nr:	194
Title:	Scale and Time Independent Clustering of Time Series Data
Authors:	Florian Steinwidder, Istvan Szilagyi, Eva Eggeling and Torsten Ullrich
Abstract:	The analysis of time series, and in particular the identification of similar time series within a large set of time series, is an important part of visual analytics. This paper describes extensions of tree-based index structures to find self-similarities within sets of time series. It also describes filters that extend existing algorithms to better fit real-world, error-prone, incomplete data. The ability of time series clustering to detect common errors in real data is also described. These main contributions are illustrated with real data and the findings and lessons learned are summarised.
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Paper Nr:	436
Title:	A Survey on Storytelling Techniques for Heritage on Nazi Persecution
Authors:	Niek Meffert, Camilla V. Østergaard, Stefan Jänicke, Richard Khulusi, Esther Rachow and Nicklas S. Andersen
Abstract:	This paper explores Visual Storytelling (VS) as a means of conveying historical narratives, with a particular focus on Heritage related to Nazi Persecution (HNP). We refine and augment existing design spaces in information visualization to broaden the scope and emphasize rich media elements while orienting our refined design space towards VS for HNP. We analyze dimensions central for storytelling focusing on cultural heritage, while digging deeper into aspects relevant for HNP like specific types of text (testimonies, diaries, official documents) and person types (victims, survivors, persecutors). The key contribution of our study is the development of a design space uniquely tailored to HNP, which highlights critical elements and trends from existing storytelling projects, and comprehensively examines the unique challenges and opportunities within VS for HNP. Furthermore, we discuss future directions, enriching the evolving domain of VS by equipping heritage professionals and researchers with practical strategies to craft compelling narratives that aim to engage contemporary audiences and to preserve the historical accuracy and ethical integrity of HNP.
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Paper Nr:	455
Title:	Understanding How Different Visual Aids for Augmented Reality Influence Tool-Patient Alignment in Surgical Tasks: A Preliminary Study
Authors:	Stefano Stradiotti, Nicolas Emiliani, Emanuela Marcelli and Laura Cercenelli
Abstract:	This study explores the impact of several visual aids on the accuracy of tool-patient alignment in augmented reality (AR) assisted surgical tasks. AR has gained prominence across surgical specialties, integrating virtual models derived from patient anatomy into the surgical field. This opens avenues for innovative visual aids and feedback which can facilitate surgical operations. To assess the influence of different visual aids on surgeon performance, we conducted a tool-patient alignment test on a 3D-printed frame, involving 12 surgical residents. Each participant inserted 12 toothpicks with a release tool into predefined target positions on the frame simulating patient targets, under AR visualization through a Magic Leap 2 Head-Mounted-Display. As visual aids, four holographic solutions were employed, with two of them offering graphical feedback upon the correct alignment to the target. Linear and angular positioning errors were measured, alongside participant responses to a satisfaction questionnaire. The tests maintained a consistent tracking system for estimating target and tool poses in the real-world, ensuring evaluation stability. Preliminary results indicated statistically significant differences among the proposed visual aids, suggesting the need for further exploration in the realm of their usability in relation to the specific surgical task and the expected overall surgical accuracy.
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Short Papers

Paper Nr:	97
Title:	Increasing User Engagement with a Tracking App Through Data Visualizations
Authors:	Daniela Nickmann and Victor J. Oliveira
Abstract:	According to the United Nations, 17 percent of global food production is wasted, causing economic losses and significant environmental impact. Digital solutions like food storage management apps can raise awareness and combat this issue. However, their effectiveness relies on consistent user engagement. Therefore, this paper proposes and evaluates data visualization designs to enhance user engagement in mobile applications for tracking food waste. The study involves three steps: discussing the domain situation supported by relevant literature, outlining the process of creating two sets of four data visualization designs and conducting quantitative user surveys to validate the designs. The first experiment assesses user experience, while the second determines user engagement. Results indicate a preference for design approach two (Chart Set B), which also provides more accuracy and higher user engagement when the design aligns with users’ sustainability interests. These findings emphasize the potential of engaging data visualizations to curb food waste and contribute to a more sustainable future.
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Paper Nr:	346
Title:	A Review on Data Terminology in Visual Analytics Tools
Authors:	Johanna Schmidt and Milena Vuckovic
Abstract:	Recent advances in visualization research and related technologies gave rise to several Visual Analytics tools capable of supporting many aspects of a typical data analytics pipeline. More specifically, these tools are showing a promise of a feature-rich environment offering multiple built-in options related to data loading and data management, which are essential initial steps for any data exploratory challenge. In this paper, we review the terms and terminology used to describe data, data parts, and data handling tasks in eighteen commonly used Visual Analytics applications. Throughout this review, we have observed a general lack of standardization of terminology used to describe all related features. Such lack of standardization may affect the overall application potential and increase the complexity when combining different tools, thus creating a user dependency on a specific solution and impeding knowledge exchange.
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Paper Nr:	400
Title:	Evaluation of Approximate Reflectional Symmetry
Authors:	Martin Maňák, David Podgorelec and Ivana Kolingerová
Abstract:	When an object can be split by a plane into two symmetrical parts, one being the mirrored image of the other, the object has a reflectional symmetry with respect to that plane. The symmetry is often only approximate and not necessarily global. Many algorithms exist for the detection of symmetries and there are various applications utilizing symmetrical properties. Yet there are not so many ways to measure the amount of approximate reflectional symmetry. In this paper, we introduce a method for the evaluation of approximate symmetry for objects represented as a point cloud. The method consists of three parts - a relative symmetry distance for measuring the amount of approximate reflectional symmetry, a plot of relative errors, and visualization of errors. This method offers a way how to compare different objects by the amount of symmetry and improves understanding of the symmetrical properties of objects, both quantitatively and visually.
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