View Document Preview and Link
Document Date: 2013-08-14 13:37:54 Open Document File Size: 683,91 KB Share Result on Facebook
City L. A. / New York / Hanover / San Diego / / Company BP / Ultra Modern Telecommunications / ACM Press / Verizon / Home-Care Systems / VMware / Qualcomm / / Country United States / South Korea / / Currency USD / / Event Person Communication and Meetings / / Facility Base station / Dartmouth College / Myongji University / hospital HRS / Susan’s pharmacy / USB port / David Kotz Dartmouth College / / IndustryTerm base station / Internet access / energy-efficient privacy-preserving wireless communication / wearable networks / scant processing / wireless connection handling / appropriate trusted software / personal healthcare / less processing power / software-based attacks / shared health devices / limited-function device / mobile health monitoring device / backend server / software-level isolation / Insurance / body-area mHealth systems / energy overhead / low-power wireless technologies / particular product / secure device pairing protocols / bare metal hypervisors / non-wearable personal computing devices / home-based tele-medicine devices / energy / interacting with devices / mHealth technology / mHealth applications / home base-station systems / lowpower wearable devices / data processing / body-area network / application software / mHealth devices / cryptographic algorithms / wireless body area networks / computational and network / lesssensitive applications / wireless gateway / wireless body area sensor network / mobile devices / post-facto auditing / generalpurpose applications / treatment protocol / secure applications / form-factor special-purpose device / software distribution / sensor-software prescrip / holster device / Some home devices / nearby device / body parameter analysis using body sensor networks / ubiquitous computing / sensor device / wireless body-area communications / healthmanagement applications / purchased medical device / 2Net product / software prescription / sufficient processing power / healthcare / dual-persona phone software / multipurpose computing platforms / Sensor-data processing / nearby devices / energy resources / retail cost / secure communications / energy storage / Internet gateway / mobile technology / health-monitoring applications / wireless body area sensor networks / trustworthy mHealth companion device / safer and trustworthy computing environment / secure key management / heterogeneous radio technologies / wearable devices / authentic devices / pervasive health monitoring systems / / MedicalCondition PDA / allergies / BMC Cardiovascular Disorders / stroke / Diabetes / atrial fibrillation / chronic medical conditions / disease / / MedicalTreatment insulin pump / insulin therapy / treatment protocol / / OperatingSystem MacOS / / Organization Dartmouth College / Electronic Society / FDA / Institute for Security / e.g. / National Science Foundation / Department of Health and Human Services / Myongji University / / Person Helen / Zachary Marois / Future / Ronald Peterson / David Kotz / Jacob Sorber / Cory Cornelius / / Position physician / pharmacist / MP / model / and code deployment / / Product iPhone / Amulet / 2Net / / ProvinceOrState New York / New Hampshire / / PublishedMedium IEEE Communications Magazine / Machine Learning / Lecture Notes in Computer Science / / TVStation WBAN / / Technology mHealth technology / treatment protocol / API / heterogeneous radio technologies / Mobile phones / mobile devices / encryption / secure device pairing protocols / USA ABSTRACT Mobile technology / low-power wireless technologies / PDA / Bluetooth / home network / smart phones / smartphone / Machine Learning / android / mobile device / Wi-Fi / cellular telephone / telemedicine / public key / smartphones / Mobile Computing / http / gesture recognition / / URL http / SocialTag