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Insights from data analytics Into Our Personal Sensor data

Smeaton, Alan F. orcid logoORCID: 0000-0003-1028-8389 (2017) Insights from data analytics Into Our Personal Sensor data. In: 2nd MMHealth Workshop 2017 Where Multimedia and Health Meet @ ACM Multimedia 2017, October 23-27, 2017, Mountain View, Calif.. ISBN 978-1-4503-5504-9

Abstract
Personal sensors are now ubiquitous and they can be wearable, they can be carried or they can be in situ and fixed into our homes or workplaces. The major factors influencing the growth in personal sensing include that they are smaller, smarter, cheaper, require less energy and they integrate with consumer devices. The major benefits of personal sensing are in the healthcare sector with secondary uses in sports and performance and in long-term monitoring of vulnerable populations, like the aged. So what do we usually do with the data generated from personal sensing ? We count steps taken, measure distance walked, add up energy expenditure, assess sleep quality and that’s about it. We can also longitudinally track our behaviour and detect changes, but we tend to do this only for cases like following a weight loss or a smoking cessation program or improving our food intake. Then, outside such motivational scenarios, we get bored and stop using them. Sometimes personal sensors use aspects of human behaviour by engaging us in competitions with others, or setting goals for ourselves. Strava is an example sensor for running and cycling that encourages its users to form part of a (virtual) community and to engage with others through social media. Beyond that we do not use our personal sensing data for any real value, for example to monitor our health or to form part of our annual medical check-up, for example. It is a fact that human lifestyles have in-built periodicities of various frequencies ... daily, weekly, monthly, seasonal, and annual. The 24h periodicity is the most important, and dominant and disruptions to our 24h periodicity do cause us harm. For example, jet lag disruption includes us fatigue, malaise and poor concentration, all caused by deviation from our circadian rhythm. Using wearable sensors to collect data we can detect these periodicities. Not only can we detect but we can also measure the strength or intensity of the 24h periodicity over a time period. Using wrist-worn accelerometer data gathered from subjects over a 3-month period we measured the strength of their 24h periodicity and found correlation between shifts in periodicity intensity and some cardio-metabolic biomarkers which are health-related quality of life indices including LDL cholesterol, triglycerides, hc-CRP (C-Reactive Proteins, indicators of inflammation) This is a surprising result showing cardio-metabolic health feedback based on data-driven analytics of accelerometer data. This example highlights that we have much more to do to really maximise value from personal sensing data.
Metadata
Item Type:Conference or Workshop Item (Invited Talk)
Event Type:Workshop
Refereed:No
Uncontrolled Keywords:Signal Processing; Wearable sensors; Health; Periodicity
Subjects:Computer Science > Artificial intelligence
Computer Science > Multimedia systems
DCU Faculties and Centres:Research Initiatives and Centres > INSIGHT Centre for Data Analytics
DCU Faculties and Schools > Faculty of Engineering and Computing > School of Computing
Published in: Proceeding MMHealth '17 Proceedings of the 2nd International Workshop on Multimedia for Personal Health and Health Care. Proceeding MMHealth '17 Proceedings of the International Workshop on Multimedia for Personal Health and Health Care . ACM Press. ISBN 978-1-4503-5504-9
Publisher:ACM Press
Official URL:https://doi.org/10.1145/3132635.3132644
Copyright Information:© 2017 the owner/author.
Use License:This item is licensed under a Creative Commons Attribution-NonCommercial-No Derivative Works 3.0 License. View License
Funders:Science Foundation Ireland. SFI 12/RC/2289
ID Code:22112
Deposited On:22 Nov 2017 13:28 by Alan Smeaton . Last Modified 08 Aug 2018 10:33
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