Internet-of-Things-Based Sensor Module for Respiratory Tracking System

Respiration is a necessary process for producing energy and maintaining normal bodily functioning in all living organisms. The respiratory system and breathing frequency change per the body’s needs in response to different physical activities, such as running, and to emotional states such as joy and fear. Therefore, this work presents a simulation-based Internet-of-Things (IoT) sensor module using thermistors to estimate the respiration rate (RR) of a human subject and to compare the temperature at the time of breathing. The circuit diagram of the explained sensor was designed and validated using simulations with Proteus software. The results are presented in the form of graphs, comparing resistance and voltage. Specifically, the resistance varies with the temperature near the thermistor, subsequently changing the voltage, which is converted into a digital value to calculate the RR and length of respiration. The main focus of the proposed work for developing this basic circuit is to observe the breathing pattern of a person. From the breathing pattern, many physical activities can be predicted, like he is in a consciousness stage or unconsciousness stage, because every physical activity makes an impact on the breathing pattern. The obtained information can be stored and communicated across the cloud, from which the automated respiratory tracking system can manage and monitor accidental situations. In the case of an emergency, the system sends an alert so that necessary steps can be taken to help the user. Finally, we discuss some applications of the proposed module, specifically for reducing accidental deaths.

[1]  Songsong Qian,et al.  Investigation of Stepped-Frequency Hybrid Modulation Radar for Respiration Monitoring, 2-D Localization, and Moving Target Tracking , 2022, IEEE transactions on microwave theory and techniques.

[2]  A. Aliverti,et al.  Respiratory physiology in pregnancy and assessment of pulmonary function. , 2022, Best Practice & Research: Clinical Obstetrics & Gynaecology.

[3]  J. Pérez-Padilla,et al.  Clinical impact of obesity on respiratory diseases: A real-life study , 2021, Lung India : official organ of Indian Chest Society.

[4]  F. H. Dominski,et al.  Effects of air pollution on health: A mapping review of systematic reviews and meta-analyses. , 2021, Environmental research.

[5]  M. DeKoven,et al.  Healthcare resource utilization and exacerbations in patients with chronic obstructive pulmonary disease treated with nebulized glycopyrrolate in the USA: a real-world data analysis , 2020, Journal of medical economics.

[6]  A. S. Mohsin,et al.  Design and Development of IoT Based Accident Detection and Emergency Response System , 2020, CCIOT.

[7]  Huey-Jen Su,et al.  Cumulative effect of indoor temperature on cardiovascular disease-related emergency department visits among older adults in Taiwan. , 2020, The Science of the total environment.

[8]  Xuefang Gu,et al.  A close-up on COVID-19 and cardiovascular diseases , 2020, Nutrition, Metabolism and Cardiovascular Diseases.

[9]  Vincent Y. See,et al.  Wearing Your Heart on Your Wrist , 2020, JACC. Case reports.

[10]  T. Clasen,et al.  Effects of high altitude on respiratory rate and oxygen saturation reference values in healthy infants and children younger than 2 years in four countries: a cross-sectional study , 2020, The Lancet. Global health.

[11]  Swathi P. Pinto,et al.  Preoperative evaluation of the patient with cardiorespiratory diseases , 2019, Surgery (Oxford).

[12]  P. Chandler,et al.  Is NEWS2 old news? A review of physiological deterioration prior to adult cardiac arrest at an acute NHS Trust in Essex, UK , 2019, Resuscitation.

[13]  M. Granner,et al.  Tolerability of a comprehensive cardiorespiratory monitoring protocol in an epilepsy monitoring unit , 2018, Epilepsy & Behavior.

[14]  S. Saffari,et al.  Epidemiology and clinical characteristics of invasive mould infections: A multicenter, retrospective analysis in five Asian countries , 2018, Medical mycology.

[15]  Kenichi Nitta,et al.  Importance of respiratory rate for the prediction of clinical deterioration after emergency department discharge: a single‐center, case–control study , 2016, Acute medicine & surgery.

[16]  N. Balaganesh,et al.  Respiratory monitoring system for asthma patients based on IoT , 2016, 2016 Online International Conference on Green Engineering and Technologies (IC-GET).

[17]  Maysam Ghovanloo,et al.  A Vision-Based Respiration Monitoring System for Passive Airway Resistance Estimation , 2016, IEEE Transactions on Biomedical Engineering.

[18]  A. Prather,et al.  Association of Insufficient Sleep With Respiratory Infection Among Adults in the United States. , 2016, JAMA internal medicine.

[19]  A. Coates,et al.  Longitudinal relationship between physical activity and lung health in patients with cystic fibrosis , 2013, European Respiratory Journal.

[20]  Nazan Atalan,et al.  Morphine is a reasonable alternative to haloperidol in the treatment of postoperative hyperactive-type delirium after cardiac surgery. , 2013, Journal of cardiothoracic and vascular anesthesia.

[21]  S Leonhardt,et al.  Respiratory Monitoring System on the Basis of Capacitive Textile Force Sensors , 2011, IEEE Sensors Journal.

[22]  Changzhi Li,et al.  A Portable Noncontact Heartbeat and Respiration Monitoring System Using 5-GHz Radar , 2007, IEEE Sensors Journal.

[23]  I Homma,et al.  Anxiety and respiratory patterns: their relationship during mental stress and physical load. , 1997, International journal of psychophysiology : official journal of the International Organization of Psychophysiology.

[24]  H. Kazemi,et al.  Aging and the respiratory system. , 1983, The Medical clinics of North America.

[25]  J. Yi,et al.  A Contactless On-Bed Radar System for Human Respiration Monitoring , 2022, IEEE Transactions on Instrumentation and Measurement.

[26]  Asad Waqar Malik,et al.  A Comprehensive Study on IoT Based Accident Detection Systems for Smart Vehicles , 2020, IEEE Access.

[27]  L. Braun,et al.  Promotion of Physical Activity and Cardiac Rehabilitation for the Management of Cardiovascular Disease , 2017 .

[28]  Hyun-Seok Choi,et al.  Unconstrained respiration and heart rate monitoring system based on a PPG pillow during sleep , 2008, 2008 30th Annual International Conference of the IEEE Engineering in Medicine and Biology Society.

[29]  M. Stenbeck,et al.  Respiratory system. , 1995, Acta oncologica.