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An Image-based Typology for Visualization: Qualitative Analysis and Categorization of Visual Representations


แนวคิดหลัก
The authors present a typology of 10 visualization types derived from a qualitative analysis of visual representations, focusing on essential stimuli. This approach enables researchers to study the evolution of the community's research output and facilitates categorization for research and teaching purposes.
บทคัดย่อ

The content discusses the development of a typology for visual representations based on essential stimuli, providing insights into various visualization techniques. The authors analyze images from IEEE VIS papers to categorize them into 10 visualization types, highlighting the importance of understanding visual appearance in interpreting data.

The study emphasizes the significance of categorizing visualizations based on their essential stimuli to enable researchers to explore diverse design styles and align quantification methods. By analyzing over 6,800 tagged images, the authors offer a comprehensive dataset and tool for scholars to examine visual designs in the community.

Key points include the classification process phases, such as initial image coding based on keywords, consolidation through association and analogies, and verification through conflict resolution. The results showcase trends in visualization types over time, with surface-based representations being most common followed by line-based representations.

Overall, the study contributes a novel perspective on visual representation typologies that can aid in understanding the evolution and diversity of visualization techniques within the research community.

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สถิติ
Surface/Volume: 1392 images Line: 1207 images Point: 628 images Bar: 606 images Color/Greyscale: 584 images Node-Link: 567 images Area: 427 images Grid: 357 images Glyph: 208 images Text: 62 images
คำพูด
"In our work, we consider visualization images as standalone entities and posit that categorizing them enables us to derive new insight." "Our method focuses on describing the main perceptual or essential stimuli of a given image to distinguish graphical similarities and differences."

ข้อมูลเชิงลึกที่สำคัญจาก

by Jian Chen,Pe... ที่ arxiv.org 03-12-2024

https://arxiv.org/pdf/2403.05594.pdf
An Image-based Typology for Visualization

สอบถามเพิ่มเติม

How does this image-based typology contribute to advancing visualization research beyond traditional categorizations?

The image-based typology presented in the context above contributes significantly to advancing visualization research by providing a new perspective on categorizing visual representations. Unlike traditional categorizations that focus on data types, construction rules, or analysis tasks, this typology emphasizes the visual appearance of essential stimuli in images. By focusing on what viewers see and interpret from images rather than underlying data or techniques used, this approach offers a fresh viewpoint for comparing and complementing existing categorizations. This typology enables researchers to analyze the diversity of representation approaches more effectively and infer prevalent rendering methods, algorithms, or dimensions used in visualizations. It provides a small set of broad categories that are manageable yet comprehensive enough to capture the nuances of complex visual designs. By grouping visually similar images together based on essential stimuli rather than technique names or data types, researchers can gain deeper insights into commonalities and differences across various visualization types.

What challenges did the authors face in coding complex visual representations, and how did they address them?

The authors faced several challenges when coding complex visual representations during their study: Technique Overload: Initially using technique names for classification led to difficulties in defining when a specific technique deserved its own code versus being grouped under "other." This challenge was addressed by re-grouping similar techniques into more general categories based on shared visual characteristics. Ambiguity in Technique Identification: Identifying certain visualization techniques like glyphs proved challenging due to variations in geometric primitives used for encoding different data dimensions. To address this issue, coders refined definitions collaboratively through discussions and examples provided within the team. Consistency Across Coders: Ensuring consistency among coders was crucial for accurate classification of images. The team implemented validation processes where two coders independently labeled each image and resolved disagreements through discussion and alignment sessions. Difficulty Labels: Introducing difficulty labels (easy, neutral, hard) helped capture subjective assessments of complexity during coding but required ongoing refinement based on coder feedback and consensus-building efforts within the team. By actively engaging in continuous calibration exercises, refining code definitions iteratively based on real-world examples encountered during coding phases, implementing validation checks between coders' classifications for quality control purposes ensured robustness and accuracy throughout the study despite these challenges.

How might this typology impact future developments in standardizing visualization practices across different fields?

This image-based typology has significant implications for standardizing visualization practices across different fields: Common Language: By providing a standardized set of 10 visualization types based on essential stimuli observed from images rather than underlying data or techniques used; it creates a common language that transcends domain-specific jargon or terminology barriers. Interdisciplinary Collaboration: The typology facilitates interdisciplinary collaboration by offering a universal framework that researchers from diverse fields can use to communicate about visual representations effectively. Comparative Analysis: Researchers can use this typology as a benchmark tool for comparative analysis studies involving diverse sets of visuals across domains such as healthcare imaging systems design or financial data analytics platforms. 4 .Guidelines Development: The typology could serve as a foundation for developing best practice guidelines related to creating effective visuals with clear communication objectives regardless of industry sector applications. 5 .Education & Training: Standardization through this typology could enhance education curricula focused on teaching effective information design principles applicable across various sectors requiring impactful data communication strategies. These potential impacts highlight how adopting an image-based approach towards standardization can streamline communication processes while fostering innovation within varied disciplines reliant upon effective information dissemination via visuals..
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