JeongGil Ko scite author profile

In healthcare, there is a strong need to collect physiological data and sensor networking; this paper reviews recent studies and points to the need for future research.By JeongGil Ko, Chenyang Lu, Mani B. Srivastava, John A. Stankovic, Fellow IEEE, Andreas Terzis, and Matt Welsh ABSTRACT | Driven by the confluence between the need to collect data about people's physical, physiological, psychological, cognitive, and behavioral processes in spaces ranging from personal to urban and the recent availability of the technologies that enable this data collection, wireless sensor networks for healthcare have emerged in the recent years. In this review, we present some representative applications in the healthcare domain and describe the challenges they introduce to wireless sensor networks due to the required level of trustworthiness and the need to ensure the privacy and security of medical data. These challenges are exacerbated by the resource scarcity that is inherent with wireless sensor network platforms. We outline prototype systems spanning application domains from physiological and activity monitoring to large-scale physiological and behavioral studies and emphasize ongoing research challenges.

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Challenging the IPv6 Routing Protocol for Low-Power and Lossy Networks (RPL): A Survey

Kim

Culler

et al. 2017

IEEE Commun. Surv. Tutorials

243

135

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A Measurement Study of BLE iBeacon and Geometric Adjustment Scheme for Indoor Location-Based Mobile Applications

Paek

Ko²,

Shin

2016

Mobile Information Systems

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Bluetooth Low Energy (BLE) and the iBeacons have recently gained large interest for enabling various proximity-based application services. Given the ubiquitously deployed nature of Bluetooth devices including mobile smartphones, using BLE and iBeacon technologies seemed to be a promising future to come. This work started off with the belief that this was true: iBeacons could provide us with the accuracy in proximity and distance estimation to enable and simplify the development of many previously difficult applications. However, our empirical studies with three different iBeacon devices from various vendors and two types of smartphone platforms prove that this is not the case. Signal strength readings vary significantly over different iBeacon vendors, mobile platforms, environmental or deployment factors, and usage scenarios. This variability in signal strength naturally complicates the process of extracting an accurate location/proximity estimation in real environments. Our lessons on the limitations of iBeacon technique lead us to design a simple class attendance checking application by performing a simple form of geometric adjustments to compensate for the natural variations in beacon signal strength readings. We believe that the negative observations made in this work can provide future researchers with a reference on how well of a performance to expect from iBeacon devices as they enter their system design phases.

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Comprehensive clinical follow-up of late effects in childhood cancer survivors shows the need for early and well-timed intervention

et al. 2009

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MoMoRo: Providing Mobility Support for Low-Power Wireless Applications

Chang

2015

IEEE Systems Journal

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JeongGil Ko

Wireless Sensor Networks for Healthcare

Challenging the IPv6 Routing Protocol for Low-Power and Lossy Networks (RPL): A Survey

A Measurement Study of BLE iBeacon and Geometric Adjustment Scheme for Indoor Location-Based Mobile Applications

Comprehensive clinical follow-up of late effects in childhood cancer survivors shows the need for early and well-timed intervention

MoMoRo: Providing Mobility Support for Low-Power Wireless Applications

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