%0 Conference Paper %1 conf/visualization/PomerenkeDK0B19 %A Pomerenke, David %A Dennig, Frederik L. %A Keim, Daniel A. %A Fuchs, Johannes %A Blumenschein, Michael %B Proceedings of the IEEE Visualization Conference (VIS) %D 2019 %I IEEE %K 2019 A03 from:leonkokkoliadis sfbtrr161 %P 86-90 %R 10.1109/VISUAL.2019.8933706 %T Slope-Dependent Rendering of Parallel Coordinates to Reduce Density Distortion and Ghost Clusters %U https://ieeexplore.ieee.org/document/8933706 %X Parallel coordinates are a popular technique to visualize multidimensional data. However, they face a significant problem influencing the perception and interpretation of patterns. The distance between two parallel lines differs based on their slope. Vertical lines are rendered longer and closer to each other than horizontal lines. This problem is inherent in the technique and has two main consequences: (1) clusters which have a steep slope between two axes are visually more prominent than horizontal clusters. (2) Noise and clutter can be perceived as clusters, as a few parallel vertical lines visually emerge as a ghost cluster. Our paper makes two contributions: First, we formalize the problem and show its impact. Second, we present a novel technique to reduce the effects by rendering the polylines of the parallel coordinates based on their slope: horizontal lines are rendered with the default width, lines with a steep slope with a thinner line. Our technique avoids density distortions of clusters, can be computed in linear time, and can be added on top of most parallel coordinate variations. To demonstrate the usefulness, we show examples and compare them to the classical rendering.

@inproceedings{conf/visualization/PomerenkeDK0B19, abstract = {Parallel coordinates are a popular technique to visualize multidimensional data. However, they face a significant problem influencing the perception and interpretation of patterns. The distance between two parallel lines differs based on their slope. Vertical lines are rendered longer and closer to each other than horizontal lines. This problem is inherent in the technique and has two main consequences: (1) clusters which have a steep slope between two axes are visually more prominent than horizontal clusters. (2) Noise and clutter can be perceived as clusters, as a few parallel vertical lines visually emerge as a ghost cluster. Our paper makes two contributions: First, we formalize the problem and show its impact. Second, we present a novel technique to reduce the effects by rendering the polylines of the parallel coordinates based on their slope: horizontal lines are rendered with the default width, lines with a steep slope with a thinner line. Our technique avoids density distortions of clusters, can be computed in linear time, and can be added on top of most parallel coordinate variations. To demonstrate the usefulness, we show examples and compare them to the classical rendering.}, added-at = {2020-01-30T16:17:50.000+0100}, author = {Pomerenke, David and Dennig, Frederik L. and Keim, Daniel A. and Fuchs, Johannes and Blumenschein, Michael}, biburl = {https://puma.ub.uni-stuttgart.de/bibtex/24177992821626eba9b9126f0580bad19/sfbtrr161}, booktitle = {Proceedings of the IEEE Visualization Conference (VIS)}, doi = {10.1109/VISUAL.2019.8933706}, ee = {https://doi.org/10.1109/VISUAL.2019.8933706}, interhash = {75b05ccac09c3143546435ff544f56de}, intrahash = {4177992821626eba9b9126f0580bad19}, keywords = {2019 A03 from:leonkokkoliadis sfbtrr161}, note = {Short Paper}, pages = {86-90}, publisher = {IEEE}, timestamp = {2020-03-11T15:51:02.000+0100}, title = {Slope-Dependent Rendering of Parallel Coordinates to Reduce Density Distortion and Ghost Clusters}, url = {https://ieeexplore.ieee.org/document/8933706}, year = 2019 }