Priyanka Bagade

Priyanka Bagade
Arizona State University | ASU · School of Computing, Informatics, and Decision Systems Engineering

About

11
Publications
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96
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Introduction

Publications

Publications (11)
Chapter
Cyber-physical systems (CPSs), such as smart grids, unmanned aerial vehicles, and medical devices, are complex systems consisting of networks of computing units that interact in a stochastic manner with their physical environment. This interaction between the networked computing system and the physical environment gives rise to unexpected configura...
Conference Paper
Mobile medical apps (MMAs) work closely with human physiology through sensing and control. As such it is essential for them to achieve intended functionality, without having harmful effects on human physiology, affecting the availability of the service and compromising the privacy of health data. However for a mobile app manufacturer generating evi...
Chapter
Full-text available
According to industry surveys, by 2018, more than 1.7 billion smartphone and tablet users will have downloaded at least one mobile medical app (MMA) [40]. Such widespread adoption of smartphone based medical apps is opening new avenues for innovation, bringing MMAs to the forefront of low cost healthcare delivery. These apps often control human phy...
Conference Paper
Full-text available
Data sharing between mobile apps that are co-located in a smartphone may lead to synergistic benefits to the user especially in the health-care domain. Mobile apps that monitor and control user behavior can interact to engage the user into a healthy schedule over a long term. In the current app development paradigm, apps are being developed individ...
Conference Paper
Full-text available
Sensors aesthetically embedded in accessories such as jewelry, piercings or contact lenses are being proposed recently. These symbiotic wearable wireless sensors are envisioned to operate on scarce harvested energy resources from the human body. In addition to the hardware and software constraints arising from the form-factor and low energy operati...
Conference Paper
We demonstrate bHealthy, a physiological feedback-based mobile wellness application suite. bHealthy, monitors physiological signals using electrocardiogram, electroencephalogram, and accelerometer sensors; uses a suite of assessment applications to detect mental state of the user; suggests apps to enhance wellbeing; and tracks the performance of th...
Conference Paper
Privacy of physiological data collected by a network of embedded sensors on human body is an important issue to be considered. Physiological signal-based security is a light weight solution which eliminates the need for security key storage and complex exponentiation computation in sensors. An important concern is whether such security measures are...
Conference Paper
Well-being and fitness are major focuses pushing the need for a simple and effective method to monitor health. Researchers have pointed out safety, lifetime, and reliability as the key requirements of medical devices. Mismatch between requirements of wearable medical sensor and smart phone and their implementation is one of the major causes of fail...
Article
Full-text available
Implementing requirements verified body worn medical sensors and smart phones, acting as base stations, in Body Sensor Networks (BSNs), is of extreme importance for development of reliable pervasive health monitoring systems (PHMS). Models of BSNs have been used to analyze designs with respect to requirements such as energy consumption, lifetime, a...

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