Quantitative Regular Expressions for Arrhythmia Detection Algorithms

Author
Abstract

<p>Motivated by the problem of verifying the correctness of arrhythmia-detection algorithms, we present a formalization of these algorithms in the language of <em>Quantitative Regular Expressions</em>. QREs are a flexible formal language for specifying complex numerical queries over data streams, with provable runtime and memory consumption guarantees. The medical-device algorithms of interest include <em>peak detection</em> (where a peak in a cardiac signal indicates a heartbeat) and various <em>discriminators</em>, each of which uses a feature of the cardiac signal to distinguish fatal from non-fatal arrhythmias. Expressing these algorithms’ desired output in current temporal logics, and implementing them via monitor synthesis, is cumbersome, error-prone, computationally expensive, and sometimes infeasible.</p>

<p>In contrast, we show that a range of peak detectors (in both the time and wavelet domains) and various discriminators at the heart of today’s arrhythmia-detection devices are easily expressible in QREs. The fact that one formalism (QREs) is used to describe the desired end-to-end operation of an arrhythmia detector opens the way to formal analysis and rigorous testing of these detectors’ correctness and performance. Such analysis could alleviate the regulatory burden on device developers when modifying their algorithms. The performance of the peak-detection QREs is demonstrated by running them on real patient data, on which they yield results on par with those provided by a cardiologist.</p>

Year of Publication

2017
Conference Name

International Conference on Computational Methods in Systems Biology
Date Published

09/2017
Publisher

Springer, Cham
Conference Location

Darmstadt, Germany
ISBN Number

978-3-319-67471-1
DOI

https://doi.org/10.1007/978-3-319-67471-1_2
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