International Journal of Innovative Research in                 Electrical, Electronics, Instrumentation and Control Engineering

A monthly Peer-reviewed & Refereed journal

ISSN Online 2321-2004
ISSN Print 2321-5526

Since  2013

Abstract: This paper deals in representation of the severity of asthma using the measured content of nitric oxide in the exhaled breath through hardware and software perspective. An innovative design is made up for the scope of simplicity, mass implementation and fabrication. The design is predominantly in the scope of clustering specific nano sensors at needful time based on varying environmental conditions for trial-and-error methods. This paper aims to understand the severity of asthma based on various internal factors such as mutation, hypoxemia and external factors such as smoking, pollution, climatic change. As for the software perspective, we here apply the concept of telemedicine into the system software designed, along with presence or absence of asthma. We here- monitor, analyze and store the data collected for implementing an algorithm of our own and to give feedback about the condition of the subjects to the healthcare professionals through the app designed. The designed software acts as a path of communication between the doctors and the patients.

Keywords: Nano sensory circuit, dual actuator, asthma diagnosing inhaler, exhaling proboscis, asthma application software.


PDF | DOI: 10.17148/IJIREEICE.2022.10321

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