|Title||PhD Forum: Multimodal IoT and EMR Based Smart Health Application for Asthma Management in Children|
|Publication Type||Conference Paper|
|Year of Publication||2017|
|Conference Name||2017 IEEE International Conference on Smart Computing (SMARTCOMP)|
|Conference Location||Hong Kong, China|
|Keywords||Air quality, Humidity, Medical services, Monitoring, Pediatrics, Sensors, Temperature measurement|
According to a study done in 2014 by National Health Interview Survey around 6.3 million children in United States suffer from asthma . Asthma remains one of the leading reasons for pediatric admissions to children's hospitals, and has a prevalence rate of approximately 10% in children and it leads to missed days from school and other societal costs. This occurs despite improved medications to control asthma symptoms. Asthma management is challenging as it involves understanding asthma causes and avoiding asthma triggers that are both multi- factorial and individualistic in nature. It is almost impossible for doctors to constantly monitor each patient's health and environmental triggers. According to a recent article, the IoT device market in health-care will increase to a worth of 17 billion by the year 2020 .The monitoring segment of IoT devices have been predicted to increase 15 billion in 2017 . The sales of smart watches, fitness and health trackers, are expected to account for more than 70% of all wearables sale worldwide in 2016 . According to IBM, the volume of health-care data has reached to 150 exabytes in 2017 . The data generated from these consumer graded devices is increasing day by day. This data collection has exacerbated the problem of understanding the data and making sense of it. We can use these low-cost sensors and consumer graded devices for continuous monitoring and management of asthma patients. We developed kHealth , a framework for continuous monitoring of the patient's personal, public and population-based health signals and send alerts to the patient when a condition deserves patient's or clinician's attention. This can assist the clinician in determining the triggers and deciding the future course of action for prevention and treatment of the disease. More importantly, it can also help a patient to better take control of his/her health management by taking more timely actions (e.g., in case of asthma, using an inhaler in a more timely manner to ward off an attack). Our kHealth framework goes well beyond the efforts of data collection and focuses on contextual and personalized processing of multi-modal data to help understand asthma control level and vulnerability score (change in conditions that increases the chances of an adverse event, thus requiring proactive action). Another unique aspect of our research is close collaboration with clinician combined with on-going evaluation of clinician's at the Dayton Children's hospital which involves an ongoing trial of our novel technical approach with a cohort of 200 patients.
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