Visualizing Ubiquitously Sensed Measures of Motor Ability in Multiple Sclerosis: Reflections on Communicating Machine Learning in Practice

Visualizing Ubiquitously Sensed Measures of Motor Ability in Multiple Sclerosis: Reflections on Communicating Machine Learning in Practice

Sophisticated ubiquitous sensing systems are being used to measure motor ability in clinical settings. Intended to augment clinical decision-making, the interpretability of the machine-learning measurements underneath becomes critical to their use. We explore how visualization can support the interp...

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Veröffentlicht in:ACM transactions on interactive intelligent systems 2018-07, Vol.8 (2), p.1-28
Hauptverfasser: Morrison, Cecily, Huckvale, Kit, Corish, Bob, Banks, Richard, Grayson, Martin, Dorn, Jonas, Sellen, Abigail, Lindley, Sân
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container_issue 2
container_start_page 1
container_title ACM transactions on interactive intelligent systems
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creator Morrison, Cecily
Huckvale, Kit
Corish, Bob
Banks, Richard
Grayson, Martin
Dorn, Jonas
Sellen, Abigail
Lindley, Sân
description Sophisticated ubiquitous sensing systems are being used to measure motor ability in clinical settings. Intended to augment clinical decision-making, the interpretability of the machine-learning measurements underneath becomes critical to their use. We explore how visualization can support the interpretability of machine-learning measures through the case of Assess MS, a system to support the clinical assessment of Multiple Sclerosis. A substantial design challenge is to make visible the algorithm's decision-making process in a way that allows clinicians to integrate the algorithm's result into their own decision process. To this end, we present a series of design iterations that probe the challenges in supporting interpretability in a real-world system. The key contribution of this article is to illustrate that simply making visible the algorithmic decision-making process is not helpful in supporting clinicians in their own decision-making process. It disregards that people and algorithms make decisions in different ways. Instead, we propose that visualisation can provide context to algorithmic decision-making, rendering observable a range of internal workings of the algorithm from data quality issues to the web of relationships generated in the machine-learning process.
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