Characterizing sensor accuracy requirements in an artificial intelligence-enabled medical device

Kristin A. Bartlett; Katharine E. Forth; Stefan I. Madansingh

IPEM-Translation (Apr 2022)

Characterizing sensor accuracy requirements in an artificial intelligence-enabled medical device

Kristin A. Bartlett,
Katharine E. Forth,
Stefan I. Madansingh

Affiliations

Kristin A. Bartlett: Corresponding author.; Balance Research Institute, ZIBRIO Inc., 2450 Holcombe Blvd. Suite X, Houston, TX 77021, USA
Katharine E. Forth: Balance Research Institute, ZIBRIO Inc., 2450 Holcombe Blvd. Suite X, Houston, TX 77021, USA
Stefan I. Madansingh: Balance Research Institute, ZIBRIO Inc., 2450 Holcombe Blvd. Suite X, Houston, TX 77021, USA

Journal volume & issue: Vol. 1
p. 100004

Abstract

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Artificial intelligence and machine learning applications are increasingly prevalent in the healthcare industry. In some cases, medical devices use sensor-collected data to feed into algorithms which generate scores or risk assessments that are used to inform patient care. The process of determining sensor accuracy requirements which will ensure that the algorithm generates reliable scores is not straightforward or well-defined. In this paper, we describe a simulation-based method to characterize sensor accuracy requirements for a device that uses a machine-learning algorithm to generate a postural stability score – the ZIBRIO Stability Scale. The results of the simulation are described, as is the application to sensor selection in preparation for manufacturing of the device. Other medical device developers may be able to use this method or similar methods in their requirements engineering process.

Published in IPEM-Translation

ISSN: 2667-2588 (Online)
Publisher: Elsevier
Country of publisher: United Kingdom
LCC subjects: Medicine: Medicine (General)
Website: https://www.sciencedirect.com/journal/ipem-translation

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