Xiaowei Chu scite author profile

Xiaowei Chu

3Publications

64Citation Statements Received

52Citation Statements Given

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116

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Shandong University

Publications

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EdWordle: Consistency-Preserving Word Cloud Editing

Wang

Chu

Bao

et al. 2018

IEEE Trans. Visual. Comput. Graphics

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We present EdWordle, a method for consistently editing word clouds. At its heart, EdWordle allows users to move and edit words while preserving the neighborhoods of other words. To do so, we combine a constrained rigid body simulation with a neighborhood-aware local Wordle algorithm to update the cloud and to create very compact layouts. The consistent and stable behavior of EdWordle enables users to create new forms of word clouds such as storytelling clouds in which the position of words is carefully edited. We compare our approach with state-of-the-art methods and show that we can improve user performance, user satisfaction, as well as the layout itself.

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A Perception-Driven Approach to Supervised Dimensionality Reduction for Visualization

Wang

Feng

Chu

et al. 2018

IEEE Trans. Visual. Comput. Graphics

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Dimensionality reduction (DR) is a common strategy for visual analysis of labeled high-dimensional data. Low-dimensional representations of the data help, for instance, to explore the class separability and the spatial distribution of the data. Widely-used unsupervised DR methods like PCA do not aim to maximize the class separation, while supervised DR methods like LDA often assume certain spatial distributions and do not take perceptual capabilities of humans into account. These issues make them ineffective for complicated class structures. Towards filling this gap, we present a perception-driven linear dimensionality reduction approach that maximizes the perceived class separation in projections. Our approach builds on recent developments in perception-based separation measures that have achieved good results in imitating human perception. We extend these measures to be density-aware and incorporate them into a customized simulated annealing algorithm, which can rapidly generate a near optimal DR projection. We demonstrate the effectiveness of our approach by comparing it to state-of-the-art DR methods on 93 datasets, using both quantitative measure and human judgments. We also provide case studies with class-imbalanced and unlabeled data.

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ShapeWordle: Tailoring Wordles using Shape-aware Archimedean Spirals

Wang

Lee

Chu

et al. 2020

IEEE Trans. Visual. Comput. Graphics

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We present a new technique to enable the creation of shape-bounded Wordles, we call ShapeWordle, in which we fit words to form a given shape. To guide word placement within a shape, we extend the traditional Archimedean spirals to be shape-aware by formulating the spirals in a differential form using the distance field of the shape. To handle non-convex shapes, we introduce a multi-centric Wordle layout method that segments the shape into parts for our shape-aware spirals to adaptively fill the space and generate word placements. In addition, we offer a set of editing interactions to facilitate the creation of semantically-meaningful Wordles. Lastly, we present three evaluations: a comprehensive comparison of our results against the state-of-the-art technique (WordArt), case studies with 14 users, and a gallery to showcase the coverage of our technique.

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Xiaowei Chu

EdWordle: Consistency-Preserving Word Cloud Editing

A Perception-Driven Approach to Supervised Dimensionality Reduction for Visualization

ShapeWordle: Tailoring Wordles using Shape-aware Archimedean Spirals

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