Dustin Harvey scite author profile

Dustin Harvey

5Publications

29Citation Statements Received

29Citation Statements Given

How they've been cited

How they cite others

Affiliations

Los Alamos National Laboratory, University of California, San Diego

Publications

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Automated Feature Design for Numeric Sequence Classification by Genetic Programming

Harvey

Todd

2015

IEEE Trans. Evol. Computat.

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Abstract-Pattern recognition methods rely on maximuminformation, minimum-dimension feature sets to reliably perform classification and regression tasks. Many methods exist to reduce feature set dimensionality and construct improved features from an initial set; however, there are few general approaches for design of features from numeric sequences. Any information lost in pre-processing or feature measurement cannot be recreated during pattern recognition. General approaches are needed to extend pattern recognition to include feature design and selection for numeric sequences, such as time series, within the learning process itself. This study proposes a novel genetic programming approach to automated feature design called Autofead. In this method, a genetic programming variant evolves a population of candidate features built from a library of sequence-handling functions. Numerical optimization methods, included through a hybrid approach, ensure that the fitness of candidate algorithms is measured using optimal parameter values. Autofead represents the first automated feature design system for numeric sequences to leverage the power and efficiency of both numerical optimization and standard pattern recognition algorithms. Potential applications include the monitoring of electrocardiogram signals for indications of heart failure, network traffic analysis for intrusion detection systems, vibration measurement for bearing condition determination in rotating machinery, and credit card activity for fraud detection.

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Accumulated Lifetimes in Single-Axis Vibration Testing

Bouma

Campbell

Roberts

et al. 2019

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Automated extraction of damage features through genetic programming

Harvey

Todd

2013

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Characterization and Prognosis of Multirotor Failures

Brown

Coffey

Harvey

et al. 2015

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SHMTools: Structural Health Monitoring Software for Aerospace, Civil, and Mechanical Infrastructure

Harvey

Flynn

Taylor

et al. 2015

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The cover depicts the various applications that benefit from the SHMTools software suite, from aircraft to bridges to mechanical structures. SHMTools provides more than 100 advanced algorithms that quickly prototype and evaluate damage-detection processes for Structural Health Monitoring. The drag-and-drop analysis interface is pictured on the left-hand side of the cover. Using SHMTools, it is possible to detect damage in such structures without removing them from service to correct problems before they become hazardous.

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Dustin Harvey

Automated Feature Design for Numeric Sequence Classification by Genetic Programming

Accumulated Lifetimes in Single-Axis Vibration Testing

Automated extraction of damage features through genetic programming

Characterization and Prognosis of Multirotor Failures

SHMTools: Structural Health Monitoring Software for Aerospace, Civil, and Mechanical Infrastructure

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