ExKMC: Expanding Explainable $k$-Means Clustering
Despite the popularity of explainable AI, there is limited work on effective methods for unsupervised learning. We study algorithms for $k$-means clustering, focusing on a trade-off between explainability and accuracy. Following prior work, we use a small decision tree to partition a dataset into $k...
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| creator | Frost, Nave Moshkovitz, Michal Rashtchian, Cyrus |
| description | Despite the popularity of explainable AI, there is limited work on effective
methods for unsupervised learning. We study algorithms for $k$-means
clustering, focusing on a trade-off between explainability and accuracy.
Following prior work, we use a small decision tree to partition a dataset into
$k$ clusters. This enables us to explain each cluster assignment by a short
sequence of single-feature thresholds. While larger trees produce more accurate
clusterings, they also require more complex explanations. To allow flexibility,
we develop a new explainable $k$-means clustering algorithm, ExKMC, that takes
an additional parameter $k' \geq k$ and outputs a decision tree with $k'$
leaves. We use a new surrogate cost to efficiently expand the tree and to label
the leaves with one of $k$ clusters. We prove that as $k'$ increases, the
surrogate cost is non-increasing, and hence, we trade explainability for
accuracy. Empirically, we validate that ExKMC produces a low cost clustering,
outperforming both standard decision tree methods and other algorithms for
explainable clustering. Implementation of ExKMC available at
https://github.com/navefr/ExKMC. |
| doi_str_mv | 10.48550/arxiv.2006.02399 |
| format | Article |
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methods for unsupervised learning. We study algorithms for $k$-means
clustering, focusing on a trade-off between explainability and accuracy.
Following prior work, we use a small decision tree to partition a dataset into
$k$ clusters. This enables us to explain each cluster assignment by a short
sequence of single-feature thresholds. While larger trees produce more accurate
clusterings, they also require more complex explanations. To allow flexibility,
we develop a new explainable $k$-means clustering algorithm, ExKMC, that takes
an additional parameter $k' \geq k$ and outputs a decision tree with $k'$
leaves. We use a new surrogate cost to efficiently expand the tree and to label
the leaves with one of $k$ clusters. We prove that as $k'$ increases, the
surrogate cost is non-increasing, and hence, we trade explainability for
accuracy. Empirically, we validate that ExKMC produces a low cost clustering,
outperforming both standard decision tree methods and other algorithms for
explainable clustering. Implementation of ExKMC available at
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methods for unsupervised learning. We study algorithms for $k$-means
clustering, focusing on a trade-off between explainability and accuracy.
Following prior work, we use a small decision tree to partition a dataset into
$k$ clusters. This enables us to explain each cluster assignment by a short
sequence of single-feature thresholds. While larger trees produce more accurate
clusterings, they also require more complex explanations. To allow flexibility,
we develop a new explainable $k$-means clustering algorithm, ExKMC, that takes
an additional parameter $k' \geq k$ and outputs a decision tree with $k'$
leaves. We use a new surrogate cost to efficiently expand the tree and to label
the leaves with one of $k$ clusters. We prove that as $k'$ increases, the
surrogate cost is non-increasing, and hence, we trade explainability for
accuracy. Empirically, we validate that ExKMC produces a low cost clustering,
outperforming both standard decision tree methods and other algorithms for
explainable clustering. Implementation of ExKMC available at
https://github.com/navefr/ExKMC.</description><subject>Computer Science - Computational Geometry</subject><subject>Computer Science - Data Structures and Algorithms</subject><subject>Computer Science - Learning</subject><subject>Statistics - Machine Learning</subject><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2020</creationdate><recordtype>article</recordtype><sourceid>GOX</sourceid><recordid>eNotzr1ugzAUBWAvGaqkD9ApDFkhvr62sbtViP6ooC7Z0bUxEQpBESQRffsW2umc4ejoY-wJeCKNUnxPw9TeE8G5TrhAax8Y5NNnmT1H-XShvm7749w6antyXYh2p11cBurHKOtu4zUMv4MNWzXUjeHxP9fs8Jofsve4-Hr7yF6KmHRqY68NcEgdSOm9IgPBCWOMhjrUSmqBCMJRI72wNaDSUjplU_SNVYiNdrhm27_bxVxdhvZMw3c126vFjj96_TxG</recordid><startdate>20200603</startdate><enddate>20200603</enddate><creator>Frost, Nave</creator><creator>Moshkovitz, Michal</creator><creator>Rashtchian, Cyrus</creator><scope>AKY</scope><scope>EPD</scope><scope>GOX</scope></search><sort><creationdate>20200603</creationdate><title>ExKMC: Expanding Explainable $k$-Means Clustering</title><author>Frost, Nave ; Moshkovitz, Michal ; Rashtchian, Cyrus</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-LOGICAL-a679-c681017b144cc5a81eb288861ded54623312baf4c29d135644b5973cf9533f6b3</frbrgroupid><rsrctype>articles</rsrctype><prefilter>articles</prefilter><language>eng</language><creationdate>2020</creationdate><topic>Computer Science - Computational Geometry</topic><topic>Computer Science - Data Structures and Algorithms</topic><topic>Computer Science - Learning</topic><topic>Statistics - Machine Learning</topic><toplevel>online_resources</toplevel><creatorcontrib>Frost, Nave</creatorcontrib><creatorcontrib>Moshkovitz, Michal</creatorcontrib><creatorcontrib>Rashtchian, Cyrus</creatorcontrib><collection>arXiv Computer Science</collection><collection>arXiv Statistics</collection><collection>arXiv.org</collection></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext_linktorsrc</fulltext></delivery><addata><au>Frost, Nave</au><au>Moshkovitz, Michal</au><au>Rashtchian, Cyrus</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>ExKMC: Expanding Explainable $k$-Means Clustering</atitle><date>2020-06-03</date><risdate>2020</risdate><abstract>Despite the popularity of explainable AI, there is limited work on effective
methods for unsupervised learning. We study algorithms for $k$-means
clustering, focusing on a trade-off between explainability and accuracy.
Following prior work, we use a small decision tree to partition a dataset into
$k$ clusters. This enables us to explain each cluster assignment by a short
sequence of single-feature thresholds. While larger trees produce more accurate
clusterings, they also require more complex explanations. To allow flexibility,
we develop a new explainable $k$-means clustering algorithm, ExKMC, that takes
an additional parameter $k' \geq k$ and outputs a decision tree with $k'$
leaves. We use a new surrogate cost to efficiently expand the tree and to label
the leaves with one of $k$ clusters. We prove that as $k'$ increases, the
surrogate cost is non-increasing, and hence, we trade explainability for
accuracy. Empirically, we validate that ExKMC produces a low cost clustering,
outperforming both standard decision tree methods and other algorithms for
explainable clustering. Implementation of ExKMC available at
https://github.com/navefr/ExKMC.</abstract><doi>10.48550/arxiv.2006.02399</doi><oa>free_for_read</oa></addata></record> |
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| subjects | Computer Science - Computational Geometry Computer Science - Data Structures and Algorithms Computer Science - Learning Statistics - Machine Learning |
| title | ExKMC: Expanding Explainable $k$-Means Clustering |
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