A Distribution Agnostic Rank-Based Measure for Proximity Search

A Distribution Agnostic Rank-Based Measure for Proximity Search

Proximity search is extensively used in modern machine learning algorithms across various applications. Proximity search aims at finding data points which are close to the data point of interest. Extant algorithms depend on distance-based metrics to find the closest data points. However, these metri...

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Bibliographic Details
Main Authors: Mayur Garg, Ashutosh Nayak, Rajasekhara Reddy Duvvuru Muni
Format: Article
Language:English
Published: IEEE 2025-01-01
Series:IEEE Access
Subjects:
Rank based methods
nearest neighbor
outlier detection
unsupervised learning
proximity search
text similarity
Online Access:https://ieeexplore.ieee.org/document/10815932/
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Summary:Proximity search is extensively used in modern machine learning algorithms across various applications. Proximity search aims at finding data points which are close to the data point of interest. Extant algorithms depend on distance-based metrics to find the closest data points. However, these metrics are limited by their dependency on the distribution of data along different dimensions, making them sensitive to scaling and translation. The performance also suffers as the number of dimensions increase. Furthermore, proximity estimation between any two data points in extant metrics does not factor in the relative position of the rest of the data. In this paper, we aim to provide an alternative to these metrics by proposing Rank Adjacency Measure (RAM) which is agnostic to the distribution of the data. RAM estimates the probability of proximity between points by extending the concept of ordering in one dimension. We provide a detailed mathematical construction of RAM. We illustrate the effectiveness of the proposed methodology using five datasets in three application areas - Outlier Detection, Nearest Neighbor Search, and Text Similarity. While our proposed methodology outperforms existing algorithms in outlier detection by 50%, it performs at par with existing metrics for other two applications. We conclude the paper with discussion on its limitations and research directions for improving RAM.
ISSN:2169-3536

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