Abstract
Wandering patients frequently have diseases that demand continuous health control, such as taking pills at specific times, constant blood pressure and heart rate monitoring, temperature and stress level checkups, and so on. These could be jeopardized by their wandering behavior. Mobile applications that focus on health care have received special interest from medical specialists. These applications have been widely accepted, due to the availability of smart devices that include sensors. However, sensor-based applications are highly energy demanding and as such, they can be unaffordable in mobile e-health control due to battery constraints. This paper presents the design and implementation of a platform aimed at providing support in e-health control and provision of location services for wandering patients through real-time medical and mobility information analysis. The platform includes a configurable mobile application for heart rate and stress level monitoring based on Bluetooth Low Energy technology (BLE), and a web service for monitoring and control of the wandering patients. Due to battery limitations of smart devices with sensors, the mobile application includes energy-efficient handling and transmission policies to make more efficient the transmission of medical information from the sensor-based smart device to the web service. In turn, the web service provides e-health control services for patients and caregivers. Through the platform functionality, caregivers (and patients) can receive notifications and suggestions in response to emergency, contingency situations, or deviations from health and mobility patterns of the wandering patients. This paper describes a platform that conceals continuous monitoring with energy-efficient applications in favor of e-health control of wandering patients.
Highlights
Dementia refers to the loss of cognitive functioning
Patients with chronic diseases as well as healthy patients were monitored in indoor and outdoor areas. is experimental assessment was intended to demonstrate the capabilities of our CMA-HR-SL platform to identify abnormal heart rate, stress levels, and the GPS location of the wandering patients when alert episodes occur due to such alterations
When the time to transmit readings was set to 60 minutes, the battery consumption time was 10 hours, 24 minutes, 42 seconds with 682 abnormal readings identi ed from the 1, 328 readings inserted. ere are two reasons for this behavior: (1) e test was executed with Test Set A, where the system environment of the mobile device is not controlled which means, it has applications that raise the battery consumption; and (2) e abnormal reading identi ed in the 60 minutes transmission is above the average of the total of 50 packages 70 packages 90 packages
Summary
Samantha Yasivee Carrizales-Villagomez ,1 Marco Aurelio Nuño-Maganda ,1 and Javier Rubio-Loyola 2. Sensor-based applications are highly energy demanding and as such, they can be unaffordable in mobile e-health control due to battery constraints. Is paper presents the design and implementation of a platform aimed at providing support in e-health control and provision of location services for wandering patients through real-time medical and mobility information analysis. E platform includes a configurable mobile application for heart rate and stress level monitoring based on Bluetooth Low Energy technology (BLE), and a web service for monitoring and control of the wandering patients. Due to battery limitations of smart devices with sensors, the mobile application includes energy-efficient handling and transmission policies to make more efficient the transmission of medical information from the sensor-based smart device to the web service. Is paper describes a platform that conceals continuous monitoring with energy-efficient applications in favor of e-health control of wandering patients The web service provides e-health control services for patients and caregivers. rough the platform functionality, caregivers (and patients) can receive notifications and suggestions in response to emergency, contingency situations, or deviations from health and mobility patterns of the wandering patients. is paper describes a platform that conceals continuous monitoring with energy-efficient applications in favor of e-health control of wandering patients
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