Personal Information
Entreprise/Lieu de travail
Dallas/Fort Worth Area United States
Profession
Assistant Professor
Secteur d’activité
Education
Site Web
http://eclarson.com
À propos
Since starting my health and sustainability initiatives at the University of Washington in 2008, my research has been driven by one overwhelming factor: waste. Waste in healthcare and waste in human consumption. I have positioned myself in a unique role, supporting healthcare and resource management applications via the integration of signal processing and machine learning techniques into ubiquitous computing technologies.
My dissertation focused on integrating active learning, embedded sensing, time series analysis, and virtual evidence in a longitudinal deployment of water disaggregation.
Mots-clés
mhealth
jaundice
lung function
machine learning
mobile phones
cough
ubicomp2011
ubiquitous computing
signal processing
dsp
water resources
sustainability
sensing
interaction
thermal imaging
touchscreen
Tout plus
Présentations
(30)J’aime
(1)Social Fabrics: Designing Wearable E-Textiles for Interaction, Introspection, and Inquiry
Jon Froehlich
•
il y a 9 ans
Personal Information
Entreprise/Lieu de travail
Dallas/Fort Worth Area United States
Profession
Assistant Professor
Secteur d’activité
Education
Site Web
http://eclarson.com
À propos
Since starting my health and sustainability initiatives at the University of Washington in 2008, my research has been driven by one overwhelming factor: waste. Waste in healthcare and waste in human consumption. I have positioned myself in a unique role, supporting healthcare and resource management applications via the integration of signal processing and machine learning techniques into ubiquitous computing technologies.
My dissertation focused on integrating active learning, embedded sensing, time series analysis, and virtual evidence in a longitudinal deployment of water disaggregation.
Mots-clés
mhealth
jaundice
lung function
machine learning
mobile phones
cough
ubicomp2011
ubiquitous computing
signal processing
dsp
water resources
sustainability
sensing
interaction
thermal imaging
touchscreen
Tout plus