RHash: Robust Hashing via ℓ∞-norm distortion

Amirali Aghazadeh; Andrew Lan; Anshumali Shrivastava; Richard G. Baraniuk

RHash: Robust Hashing via ℓ_∞-norm distortion

Amirali Aghazadeh, Andrew Lan, Anshumali Shrivastava, Richard G. Baraniuk

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Abstract

Hashing is an important tool in large-scale machine learning. Unfortunately, current data-dependent hashing algorithms are not robust to small perturbations of the data points, which degrades the performance of nearest neighbor (NN) search. The culprit is the minimization of the ℓ₂-norm, average distortion among pairs of points to find the hash function. Inspired by recent progress in robust optimization, we develop a novel hashing algorithm, dubbed RHash, that instead minimizes the ℓ_∞-norm, worst-case distortion among pairs of points. We develop practical and efficient implementations of RHash that couple the alternating direction method of multipliers (ADMM) framework with column generation to scale well to large datasets. A range of experimental evaluations demonstrate the superiority of RHash over ten state-of-the-art binary hashing schemes. In particular, we show that RHash achieves the same retrieval performance as the state-of-the-art algorithms in terms of average precision while using up to 60% fewer bits.

Original language	English (US)
Title of host publication	26th International Joint Conference on Artificial Intelligence, IJCAI 2017
Publisher	International Joint Conferences on Artificial Intelligence
Pages	1386-1394
Number of pages	9
ISBN (Electronic)	9780999241103
State	Published - 2017
Event	26th International Joint Conference on Artificial Intelligence, IJCAI 2017 - Melbourne, Australia Duration: Aug 19 2017 → Aug 25 2017

Other

Other	26th International Joint Conference on Artificial Intelligence, IJCAI 2017
Country/Territory	Australia
City	Melbourne
Period	8/19/17 → 8/25/17

ASJC Scopus subject areas

Artificial Intelligence

Cite this

@inproceedings{fd48470203cb40e89a9f1702b35b9275,

title = "RHash: Robust Hashing via ℓ∞-norm distortion",

abstract = "Hashing is an important tool in large-scale machine learning. Unfortunately, current data-dependent hashing algorithms are not robust to small perturbations of the data points, which degrades the performance of nearest neighbor (NN) search. The culprit is the minimization of the ℓ2-norm, average distortion among pairs of points to find the hash function. Inspired by recent progress in robust optimization, we develop a novel hashing algorithm, dubbed RHash, that instead minimizes the ℓ∞-norm, worst-case distortion among pairs of points. We develop practical and efficient implementations of RHash that couple the alternating direction method of multipliers (ADMM) framework with column generation to scale well to large datasets. A range of experimental evaluations demonstrate the superiority of RHash over ten state-of-the-art binary hashing schemes. In particular, we show that RHash achieves the same retrieval performance as the state-of-the-art algorithms in terms of average precision while using up to 60% fewer bits.",

author = "Amirali Aghazadeh and Andrew Lan and Anshumali Shrivastava and Baraniuk, {Richard G.}",

year = "2017",

language = "English (US)",

pages = "1386--1394",

booktitle = "26th International Joint Conference on Artificial Intelligence, IJCAI 2017",

publisher = "International Joint Conferences on Artificial Intelligence",

note = "26th International Joint Conference on Artificial Intelligence, IJCAI 2017 ; Conference date: 19-08-2017 Through 25-08-2017",

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T1 - RHash

T2 - 26th International Joint Conference on Artificial Intelligence, IJCAI 2017

AU - Aghazadeh, Amirali

AU - Lan, Andrew

AU - Shrivastava, Anshumali

AU - Baraniuk, Richard G.

PY - 2017

Y1 - 2017

N2 - Hashing is an important tool in large-scale machine learning. Unfortunately, current data-dependent hashing algorithms are not robust to small perturbations of the data points, which degrades the performance of nearest neighbor (NN) search. The culprit is the minimization of the ℓ2-norm, average distortion among pairs of points to find the hash function. Inspired by recent progress in robust optimization, we develop a novel hashing algorithm, dubbed RHash, that instead minimizes the ℓ∞-norm, worst-case distortion among pairs of points. We develop practical and efficient implementations of RHash that couple the alternating direction method of multipliers (ADMM) framework with column generation to scale well to large datasets. A range of experimental evaluations demonstrate the superiority of RHash over ten state-of-the-art binary hashing schemes. In particular, we show that RHash achieves the same retrieval performance as the state-of-the-art algorithms in terms of average precision while using up to 60% fewer bits.

AB - Hashing is an important tool in large-scale machine learning. Unfortunately, current data-dependent hashing algorithms are not robust to small perturbations of the data points, which degrades the performance of nearest neighbor (NN) search. The culprit is the minimization of the ℓ2-norm, average distortion among pairs of points to find the hash function. Inspired by recent progress in robust optimization, we develop a novel hashing algorithm, dubbed RHash, that instead minimizes the ℓ∞-norm, worst-case distortion among pairs of points. We develop practical and efficient implementations of RHash that couple the alternating direction method of multipliers (ADMM) framework with column generation to scale well to large datasets. A range of experimental evaluations demonstrate the superiority of RHash over ten state-of-the-art binary hashing schemes. In particular, we show that RHash achieves the same retrieval performance as the state-of-the-art algorithms in terms of average precision while using up to 60% fewer bits.

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M3 - Conference contribution

AN - SCOPUS:85031930875

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BT - 26th International Joint Conference on Artificial Intelligence, IJCAI 2017

PB - International Joint Conferences on Artificial Intelligence

Y2 - 19 August 2017 through 25 August 2017

ER -

RHash: Robust Hashing via ℓ_∞-norm distortion

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