This volume provides a comprehensive introduction to mHealth technology and is accessible to technology-oriented researchers and practitioners with backgrounds in computer science, engineering, statistics, and applied mathematics. The contributing authors include leading researchers and practitioners in the mHealth field. The book offers an in-depth exploration of the three key elements of mHealth technology: the development of on-body sensors that can identify key health-related behaviors (sensors to markers), the use of analytic methods to predict current and future states of health and…mehr
This volume provides a comprehensive introduction to mHealth technology and is accessible to technology-oriented researchers and practitioners with backgrounds in computer science, engineering, statistics, and applied mathematics. The contributing authors include leading researchers and practitioners in the mHealth field. The book offers an in-depth exploration of the three key elements of mHealth technology: the development of on-body sensors that can identify key health-related behaviors (sensors to markers), the use of analytic methods to predict current and future states of health and disease (markers to predictors), and the development of mobile interventions which can improve health outcomes (predictors to interventions). Chapters are organized into sections, with the first section devoted to mHealth applications, followed by three sections devoted to the above three key technology areas. Each chapter can be read independently, but the organizationof the entire book provides a logical flow from the design of on-body sensing technology, through the analysis of time-varying sensor data, to interactions with a user which create opportunities to improve health outcomes. This volume is a valuable resource to spur the development of this growing field, and ideally suited for use as a textbook in an mHealth course.
James M. Rehg is a Professor of Computer Science at the Georgia Institute of Technology where he directs the Center for Behavioral Imaging and co-directs the Computational Perception Lab. Dr. Rehg's research focuses on computer vision, machine learning, and mobile health, with an emphasis on the analysis of video captured by wearable cameras for mobile health applications. He was the lead PI on an NSF Expedition to develop computational methods for measuring, modeling, and analyzing social and communicative behavior, with applications to developmental disorders such as autism. He is currently the Deputy Director of the NIH Center of Excellence on Mobile Sensor Data-to-Knowledge (MD2K), where he leads the Data Science Research Core. Susan Murphy is the H.E. Robbins Distinguished University Professor of Statistics at the University of Michigan. Dr. Murphy's research focuses on improving sequential, individualized, decision making in health, in particular onclinical trial design and data analysis to inform the development of adaptive interventions (e.g. treatment policies). She currently works, as part of the MD2K team and other interdisciplinary teams, to develop clinical trial designs and learning algorithms in mobile health. She is a Fellow of the College on Problems in Drug Dependence, a former editor of the Annals of Statistics, President-Elect of the Bernoulli Society, a member of the US National Academy of Science, a member of the US National Academy of Medicine and a 2013 MacArthur Fellow. Santosh Kumar is a Professor of Computer Science at the University of Memphis where he holds the Lillian & Morrie Moss Chair of Excellence. Dr. Kumar's research focusses on mobile health, with an emphasis on developing computational models to infer human health and behavior such as stress, conversation, smoking, and drug use from wearable sensor data. He is director of the NIH Center of Excellence on Mobile Sensor Data-to-Knowledge (MD2K), that involves over 20 scientists from in computing, engineering, behavioral science, and medicine. He was named one of America's ten most brilliant scientists under the age of 38 by Popular Science in 2010.
Inhaltsangabe
Introduction to Section 1: mHealth Applications and Tools.- StudentLife: Using Smartphone to Assess Mental Health and Academic Performance of College Students.- Circadian Computing: Sensing, Modeling, and Maintaining Biological Rhythms.- Design Lessons from a Micro-Randomized Pilot Study in Mobile Health.- The Use of Asset-Based Community Development in a Research Project Aimed at Developing mHealth Technologies for Older Adults.- Designing Mobile Health Technologies for Self-Monitoring: The Bit Counter as a Case Study.- mDebugger: Assessing and Diagnosing the Fidelity and Yield of Mobile Sensor Data.- Introduction to Section II: Sensors to mHealth Markers.- Challenges and Opportunities in Automated Detection of Eating Activity.- Detecting Eating and Smoking Behavior Using Smartwatches.- Wearable Motion Sensing Devices and Algorithms for Precise Healthcare Diagnostics and Guidance.- Paralinguistic Analysis of Children's Speech in Natural Environments.- Pulmonary Monitoring Using Smartphones.- Wearable Sensing of Left Ventricular Function.- A new direction for Biosensing: RF sensors for monitoring cardio-pulmonary function.- Wearable Optical Sensors.- Introduction to Section III: Markers to mHealth Predictors.- Exploratory Visual Analytics of Mobile Health Data: Sensemaking Challenges and Opportunities.- Learning Continuous-Time Hidden Markov Models for Event Data.- Time-series Feature Learning with Applications to Healthcare Domain.- From Markers to Interventions: The Case of Just-in-Time Stress Intervention.- Introduction to Section IV: Predictors to mHealth Interventions.- Modeling Opportunities in mHealth Cyber-Physical Systems.- Control Systems Engineering for Optimizing Behavioral mHealth Interventions.- From Ads to Interventions: Contextual Bandits in Mobile Health.- Towards Health Recommendation Systems: An Approach for Providing Automated Personalized Health Feedback from Mobile Data.
Introduction to Section 1: mHealth Applications and Tools.- StudentLife: Using Smartphone to Assess Mental Health and Academic Performance of College Students.- Circadian Computing: Sensing, Modeling, and Maintaining Biological Rhythms.- Design Lessons from a Micro-Randomized Pilot Study in Mobile Health.- The Use of Asset-Based Community Development in a Research Project Aimed at Developing mHealth Technologies for Older Adults.- Designing Mobile Health Technologies for Self-Monitoring: The Bit Counter as a Case Study.- mDebugger: Assessing and Diagnosing the Fidelity and Yield of Mobile Sensor Data.- Introduction to Section II: Sensors to mHealth Markers.- Challenges and Opportunities in Automated Detection of Eating Activity.- Detecting Eating and Smoking Behavior Using Smartwatches.- Wearable Motion Sensing Devices and Algorithms for Precise Healthcare Diagnostics and Guidance.- Paralinguistic Analysis of Children's Speech in Natural Environments.- Pulmonary Monitoring Using Smartphones.- Wearable Sensing of Left Ventricular Function.- A new direction for Biosensing: RF sensors for monitoring cardio-pulmonary function.- Wearable Optical Sensors.- Introduction to Section III: Markers to mHealth Predictors.- Exploratory Visual Analytics of Mobile Health Data: Sensemaking Challenges and Opportunities.- Learning Continuous-Time Hidden Markov Models for Event Data.- Time-series Feature Learning with Applications to Healthcare Domain.- From Markers to Interventions: The Case of Just-in-Time Stress Intervention.- Introduction to Section IV: Predictors to mHealth Interventions.- Modeling Opportunities in mHealth Cyber-Physical Systems.- Control Systems Engineering for Optimizing Behavioral mHealth Interventions.- From Ads to Interventions: Contextual Bandits in Mobile Health.- Towards Health Recommendation Systems: An Approach for Providing Automated Personalized Health Feedback from Mobile Data.
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