Nando de Freitas scite author profile

Big data applications are typically associated with systems involving large numbers of users, massive complex software systems, and large-scale heterogeneous computing and storage architectures. The construction of such systems involves many distributed design choices. The end products (e.g., recommendation systems, medical analysis tools, real-time game engines, speech recognizers) thus involves many tunable configuration parameters. These parameters are often specified and hard-coded into the software by various developers or teams. If optimized jointly, these parameters can result in significant improvements. Bayesian optimization is a powerful tool for the joint optimization of design choices that is gaining great popularity in recent years. It promises greater automation so as to increase both product quality and human productivity. This review paper introduces Bayesian optimization, highlights some of its methodological aspects, and showcases a wide range of applications.

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An Introduction to Sequential Monte Carlo Methods

Doucet¹,

Freitas²,

Gordon³

2001

1,091

915

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A Boosted Particle Filter: Multitarget Detection and Tracking

et al. 2004

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Bayesian Optimization in a Billion Dimensions via Random Embeddings

Wang

Hutter

Zoghi

et al. 2016

jair

407

548

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Bayesian optimization techniques have been successfully applied to robotics, planning, sensor placement, recommendation, advertising, intelligent user interfaces and automatic algorithm configuration. Despite these successes, the approach is restricted to problems of moderate dimension, and several workshops on Bayesian optimization have identified its scaling to high-dimensions as one of the holy grails of the field. In this paper, we introduce a novel random embedding idea to attack this problem. The resulting Random EMbedding Bayesian Optimization (REMBO) algorithm is very simple, has important invariance properties, and applies to domains with both categorical and continuous variables. We present a thorough theoretical analysis of REMBO. Empirical results confirm that REMBO can effectively solve problems with billions of dimensions, provided the intrinsic dimensionality is low. They also show that REMBO achieves state-of-the-art performance in optimizing the 47 discrete parameters of a popular mixed integer linear programming solver.

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Dueling Network Architectures for Deep Reinforcement Learning

Wang

Schaul

Hessel

et al. 2015

Preprint

231

293

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Nando de Freitas

Taking the Human Out of the Loop: A Review of Bayesian Optimization

An Introduction to Sequential Monte Carlo Methods

A Boosted Particle Filter: Multitarget Detection and Tracking

Bayesian Optimization in a Billion Dimensions via Random Embeddings

Dueling Network Architectures for Deep Reinforcement Learning

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