Abstract
In order to reduce the workload of hospital staff and to provide better services to hospitalized patients, attempts are made to integrate patient monitoring systems directly into hospital networks. Monitoring systems must respond to more and more technological challenges. They are ideally portable and wireless, to free the patient from the hospital bed. At the same time, to enable better patient follow-up, a large amount of information needs to be transmitted and processed in real time. Challenges in the design of such systems include energy-efficient processing and communication, and guaranteeing the security of the measured data. This paper describes a wearable sensor system, integrated into a hospital network, that supports high data rates generated by multiple sensors. With a strongly motivated focus on end-to-end security, we explore trade-offs with respect to security schemes and implementations, and wireless network protocols. The results show that the energy efficiency of the resulting system is comparable to existing systems that support far less sensor data and that compromise on end-to-end security by offloading security operations to a delegation server. To our knowledge, this is the first work that explores the impact of the security scheme and the wireless network protocol on the energy consumption of a wearable device, while providing true end-to-end security.
Highlights
The hospital of the future consists of a multitude of interconnected devices that monitor the health of the patients and send medical sensor data to a server that interfaces with the Electronic Medical Record (EMR)
The EMR refers to the comprehensive medical records of an individual that is accessible in electronic form
We explore the impact on the energy consumption of different security schemes and implementations, as well as different wireless network protocols
Summary
The hospital of the future consists of a multitude of interconnected devices that monitor the health of the patients and send medical sensor data to a server that interfaces with the Electronic Medical Record (EMR). The device needs to be anonymously and wirelessly linked to the patient Both during communication and association, end-to-end security needs to be provided, i.e. third parties should be prevented from accessing data while these data are being transferred from one end system to another. In our case, these end systems are the wearable device and the hospital server. Raw data used for the estimation of these parameters are the electrocardiogram (ECG), the photoplethysmogram in three wavelengths (PPG), bio impedance (BioZ), the temperature (T) and the 3-axes accelerometers (ACC) These data are transmitted wirelessly from the wearable device on the patient, hereafter named patch, to the local hospital server.
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