Personal Air Pollution Monitoring Technologies: User Practices and Preferences
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Ja Eun Yu | Nina Sakhnini | Rachael M. Jones | Debaleena Chattopadhyay | Debaleena Chattopadhyay | N. Sakhnini | Rachael M. Jones
[1] Allison Druin,et al. Technology probes: inspiring design for and with families , 2003, CHI '03.
[2] J. Samet,et al. Air Pollution and Cardiovascular Disease: A Statement for Healthcare Professionals From the Expert Panel on Population and Prevention Science of the American Heart Association , 2004, Circulation.
[3] Francesca Dominici,et al. Exposure to air pollution and COVID-19 mortality in the United States: A nationwide cross-sectional study , 2020, medRxiv.
[4] Raimund Erbel,et al. Long-Term Air Pollution and Traffic Noise Exposures and Mild Cognitive Impairment in Older Adults: A Cross-Sectional Analysis of the Heinz Nixdorf Recall Study , 2016, Environmental health perspectives.
[5] Debaleena Chattopadhyay. Toward a Bayesian Approach for Self-Tracking Personal Pollution Exposures , 2018, UbiComp/ISWC Adjunct.
[6] H. Collard,et al. Air pollution exposure: a novel environmental risk factor for interstitial lung disease? , 2015, Chest.
[7] J. Schwartz,et al. Assessing temporally and spatially resolved PM2.5 exposures for epidemiological studies using satellite aerosol optical depth measurements , 2011 .
[8] Matthias Budde,et al. Enabling low-cost particulate matter measurement for participatory sensing scenarios , 2013, MUM.
[9] Wei Dong,et al. Calibrating Low-Cost Sensors by a Two-Phase Learning Approach for Urban Air Quality Measurement , 2018, Proc. ACM Interact. Mob. Wearable Ubiquitous Technol..
[10] Karl Aberer,et al. Mobile observatory: an exploratory study of mobile air quality monitoring application , 2013, UbiComp.
[11] Jian Gao,et al. Applications of low-cost sensing technologies for air quality monitoring and exposure assessment: How far have they gone? , 2018, Environment international.
[12] Randal S. Martin,et al. Ambient and laboratory evaluation of a low-cost particulate matter sensor. , 2017, Environmental pollution.
[13] Mehmet Rasit Yuce,et al. Sensors and Systems for Wearable Environmental Monitoring Toward IoT-Enabled Applications: A Review , 2019, IEEE Sensors Journal.
[14] John W. Creswell,et al. Designing and Conducting Mixed Methods Research , 2006 .
[15] Marina Zusman,et al. Calibration of low-cost particulate matter sensors: Model development for a multi-city epidemiological study. , 2019, Environment international.
[16] B. Kerkez,et al. Field and Laboratory Evaluations of the Low-Cost Plantower Particulate Matter Sensor. , 2019, Environmental science & technology.
[17] Eric Paulos,et al. MyPart: Personal, Portable, Accurate, Airborne Particle Counting , 2016, CHI.
[18] R. Brook,et al. Air Pollution and Cardiovascular Disease: JACC State-of-the-Art Review. , 2018, Journal of the American College of Cardiology.
[19] Ja Eun Yu,et al. myCityMeter: Helping Older Adults Manage the Environmental Risk Factors for Cognitive Impairment , 2018, UbiComp/ISWC Adjunct.
[20] William G. Griswold,et al. CitiSense: improving geospatial environmental assessment of air quality using a wireless personal exposure monitoring system , 2012, Wireless Health.
[21] Lothar Thiele,et al. W-Air , 2018, Proc. ACM Interact. Mob. Wearable Ubiquitous Technol..
[22] L. Shang,et al. The next generation of low-cost personal air quality sensors for quantitative exposure monitoring , 2014 .
[23] Sunyoung Kim,et al. Awareness, Understanding, and Action: A Conceptual Framework of User Experiences and Expectations about Indoor Air Quality Visualizations , 2020, CHI.
[24] Xiaoting Liu,et al. Low-cost sensors as an alternative for long-term air quality monitoring. , 2020, Environmental research.
[25] Halûk Özkaynak,et al. Air pollution exposure prediction approaches used in air pollution epidemiology studies , 2013, Journal of Exposure Science and Environmental Epidemiology.