hctsa: A Computational Framework for Automated Time-Series Phenotyping Using Massive Feature Extraction
- PMID: 29102608
- DOI: 10.1016/j.cels.2017.10.001
hctsa: A Computational Framework for Automated Time-Series Phenotyping Using Massive Feature Extraction
Abstract
Phenotype measurements frequently take the form of time series, but we currently lack a systematic method for relating these complex data streams to scientifically meaningful outcomes, such as relating the movement dynamics of organisms to their genotype or measurements of brain dynamics of a patient to their disease diagnosis. Previous work addressed this problem by comparing implementations of thousands of diverse scientific time-series analysis methods in an approach termed highly comparative time-series analysis. Here, we introduce hctsa, a software tool for applying this methodological approach to data. hctsa includes an architecture for computing over 7,700 time-series features and a suite of analysis and visualization algorithms to automatically select useful and interpretable time-series features for a given application. Using exemplar applications to high-throughput phenotyping experiments, we show how hctsa allows researchers to leverage decades of time-series research to quantify and understand informative structure in time-series data.
Keywords: high-throughput phenotyping; time-series analysis.
Copyright © 2017 The Authors. Published by Elsevier Inc. All rights reserved.
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