Utilization of Real-Time Heart Rate Changes to Classify Emotions Based on Low-Cost Device Development

Performing real-time monitoring for human vital signs during sleep at home is of vital importance to achieve timely detection and rescue. However, the existing smart equipment for monitoring human vital signs suffers the drawbacks of high complexity, high cost, and intrusiveness, or low accuracy. Thus, it is of great need to develop a simplified, nonintrusive, comfortable and low cost real-time monitoring system during sleep. In this study, a novel intelligent pillow was developed based on a low-cost piezoelectric ceramic sensor. It was manufactured by locating a smart system (consisting of a sensing unit i.e. a piezoelectric ceramic sensor, a data processing unit and a GPRS communication module) in the cavity of the pillow made of shape memory foam. The sampling frequency of the intelligent pillow was set at 1000 Hz to capture the signals more accurately, and vital signs including heart rate, respiratory rate and body movement were derived through series of well established algorithms, which were sent to the user’s app. Validation experimental results demonstrate that high heart-rate detection accuracy (i.e. 99.18%) was achieved in using the intelligent pillow. Besides, human tests were conducted by detecting vital signs of six elder participants at their home, and results showed that the detected vital signs may well predicate their health conditions. In addition, no contact discomfort was reported by the participants. With further studies in terms of validity of the intelligent pillow and large-scale human trials, the proposed intelligent pillow was expected to play an important role in daily sleep monitoring.

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Monitoring and sensing COVID-19 symptoms as a precaution using electronic wearable devices

International Journal of Pervasive Computing and Communications ◽

10.1108/ijpcc-06-2020-0067 ◽

2020 ◽

Vol 16 (4) ◽

pp. 341-350 ◽

Cited By ~ 1

Author(s):

Josephine M.S. ◽

Lakshmanan L. ◽

Resmi R. Nair ◽

Visu P. ◽

Ganesan R. ◽

...

Keyword(s):

Heart Rate ◽

Real Time ◽

Mobile Apps ◽

Low Cost ◽

Wearable Devices ◽

Point Of View ◽

Diverse Range ◽

Content Type ◽

The Status ◽

Medium Risk

Purpose The purpose fo this paper is to Monitor and sense the sysmptoms of COVID-19 as a preliminary measure using electronic wearable devices. This variability is sensed by electrocardiograms observed from a multi-parameter monitor and electronic wearable. This field of interest has evolved into a wide area of investigation with today’s advancement in technology of internet of things for immediate sensing and processing information about profound pain. A window span is estimated and reports of profound pain data are used for monitoring heart rate variability (HRV). A median heart rate is considered for comparisons with a diverse range of variable information obtained from sensors and monitors. Observations from healthy patients are introduced to identify how root mean square of difference between inter beat intervals, standard deviation of inter-beat intervals and mean heart rate value are normalized in HRV analysis. Design/methodology/approach The function of a human heart relates back to the autonomic nervous system, which organizes and maintains a healthy maneuver of inter connected organs. HRV has to be determined for analyzing and reporting the status of health, fitness, readiness and possibilities for recovery, and thus, a metric for deeming the presence of COVID-19. Identifying the variations in heart rate, monitoring and assessing profound pain levels are potential lives saving measures in medical industries. Findings Experiments are proposed to be done in electrical and thermal point of view and this composition will deliver profound pain levels ranging from 0 to 10. Real time detection of pain levels will assist the care takers to facilitate people in an aging population for a painless lifestyle. Originality/value The presented research has documented the stages of COVID-19, symptoms and a mechanism to monitor the progress of the disease through better parameters. Risk factors of the disease are carefully analyzed, compared with test results, and thus, concluded that considering the HRV can study better in the presence of ignorance and negligence. The same mechanism can be implemented along with a global positioning system (GPS) system to track the movement of patients during isolation periods. Despite the stringent control measurements for locking down all industries, the rate of affected people is still on the rise. To counter this, people have to be educated about the deadly effects of COVID-19 and foolproof systems should be in place to control the transmission from affected people to new people. Medications to suppress temperatures, will not be sufficient to alter the heart rate variations, and thus, the proposed mechanism implemented the same. The proposed study can be extended to be associated with Government mobile apps for regular and a consortium of single tracking. Measures can be taken to distribute the low-cost proposal to people for real time tracking and regular updates about high and medium risk patients.

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Improvement of Driverless Cars' Passengers on Board Health and Safety, using Low-Cost Real-Time Heart Rate Monitoring System

2018 24th International Conference on Automation and Computing (ICAC) ◽

10.23919/iconac.2018.8748986 ◽

2018 ◽

Author(s):

R. M. Fouad ◽

A. Onsy ◽

Osama A. Omer

Keyword(s):

Heart Rate ◽

Real Time ◽

Monitoring System ◽

Low Cost ◽

Health And Safety ◽

Heart Rate Monitoring ◽

Driverless Cars

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An IoT Assisted Real-Time High CMRR Wireless Ambulatory ECG Monitoring System with Arrhythmia Detection

Electronics ◽

10.3390/electronics10161871 ◽

2021 ◽

Vol 10 (16) ◽

pp. 1871

Author(s):

Hassan Ali ◽

Hein Htet Naing ◽

Raziq Yaqub

Keyword(s):

Heart Rate ◽

Real Time ◽

Monitoring System ◽

Rural Areas ◽

Single Channel ◽

Low Cost ◽

Notch Filter ◽

Commercial Application ◽

Low Latency ◽

Ecg Monitoring

The absence of cardiovascular disease (CVD) diagnostic and management solutions cause significant morbidity among populations in rural areas and the coronavirus disease of 2019 (COVID-19) emergency. To tackle this problem, in this paper, the development of an Internet of things (IoT) assisted ambulatory electrocardiogram (ECG) monitoring system is presented. The system’s wearable single-channel data acquisition device supports 25 h of continuous operation. A right leg drive (RLD) circuit supported analog frontend (AFE) with a high common mode rejection ratio (CMRR) of 121 dB and a digitally implemented notch filter is used to suppress power-line frequency interference. The wearable device continuously sends the collected ECG data via Bluetooth to the user’s smartphone. An application on the user’s smartphone renders real-time ECG trace and heart rate and detects abnormal heart rhythms. This data are then shared in real-time with the user’s doctor via a real-time cloud database. An application on the doctor’s smartphone allows real-time visualization of this data and detection of arrhythmias. Simulations and experimental results demonstrate that reliable ECG signals can be captured with low latency and the heart rate computation is comparable to a commercial application. Low cost, scalability, low latency, real-time ECG monitoring, and improved performance of the system make the system highly suitable for the real-time remote identification and management of CVDs in users of rural areas and in the COVID-19 pandemic.

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Smartphone Application with Wireless Cardiac Monitoring Device to Analyze Real-Time ECG Using Modified Pan Tompkins Algorithm

10.1101/260034 ◽

2018 ◽

Author(s):

Usama Pervaiz ◽

Saed Khawaldeh ◽

Tajwar Abrar Aleef ◽

Vu Hoang Minh

Keyword(s):

Heart Rate ◽

Real Time ◽

Low Cost ◽

Smartphone Application ◽

Ease Of Use ◽

Cardiac Monitoring ◽

Health History ◽

Heart Patients ◽

History Of ◽

Care Assistance

Heart patients are constantly at risk of a heart failure, therefore, it is crucial to track their vitals. There is also a dire need to make a single platform which has patients and doctors on board, provides health-care assistance remotely, and have a low-cost and accessible solution that would cater large masses, both in terms of its buying accessibility as well as its ease of use. We are bringing a one stop solution, with a wearable device which monitors Electrocardiogram (ECG) and consequently measure heart rate. The wearable wireless device have an application compatibility on Smartphone which allows real time monitoring of ECG as well as it gives various post processing options, in which heart rate would be measured using modified Pan-Tompkins Algorithm and kept overtime for maintaining health history of the patient.

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