ABSTRACT
The entire world witnessed the covid-19pandemicinthe year 2020. The actual outbreak of this corona virus was first reported in Wuhan, China and later declared to be epidemic by (WHO) World Health Organization. The whole world was under tremendous pressure in monitoring health, managing, and maintaining hospitals and inventing new drugs. Initially, India was very much worried because of the huge population. The pandemic posed a critical challenge for healthcare sectors, since doctors and nursing professionals were among the most severely affected and it's clear that India must adopt new measures to increase healthcare proportional ratio and adoption of new technologies to manage large population groups. Robotics is one area which may largely always support the segment. The proposed research project emphasized on developing robotic devices with robotic vision, sensors-based motion planning, dynamic obstacle detection, and autonomous navigation in a hospital environment and supported the medical and nursing teams in reducing their workload and improving patient health monitoring, also the research explored multi-robot exploration and integration. © 2022 IEEE.
ABSTRACT
Covid Security System is a non-contact sanitizer dispenser, that also monitors vital parameters such as temperature, heart rate, and spo2 sensors based on Internet of Things (IOT) data collection and processing. This device is vital in workplaces like hospitals, colleges, and many more. The system that has the capability to record human body temperature based on contactless mechanism efficiently with pandemic situation has looked up to usage of infrared thermometers. In this paper via our research we realize the human body temperature fast non-contact by utilizing infrared thermometer (MLX90614) along with a pulse oximeter using a pulse sensor (MAX30100) to measure the heart rate in real-time. Parameter like the oxygen level of the user is also rendered and stored on our designed IOT processing framework which can provide alerts both online or offline based on previous maintained records. In this research we have recorded parameters of the sample space comprising of 500 users. The main aspect of the research is the cost affectability where is the system can be easily interfaced with any existing framework of workplaces.
ABSTRACT
Entire world is passing through the corona virus disease (COVID-19) outbreak badly. According to the WHO, corona virus affects respiratory system. This corona virus majorly spreads when someone comes in contact with an infected person and respiratory droplets that generates by coughing or sneezing play major role in spreading the infection. These respiratory droplets can spread infection when inhaled by someone or contaminate hands and surfaces in contact. During the treatment of such infectious disease, the safety of healthcare workers becomes the matter of primary concern as they are directly involved during the process of diagnosis as well as treatment and care of COVID‐19 patients;hence, they are always open to infection, and their chances of getting infected with SARS‐CoV‐2 virus become very high. A lot of challenges hospitals and staff are facing, and few of them need to be addressed technologically. In present work, in this paper, we have proposed a Bluetooth and IOT-based wireless healthcare monitoring system. The proposed system can be utilized to get real-time online physiological conditions of a patient. Doctors can monitor their COVID-19 patients remotely. A robotic trolley could be pressed into service (serve or fulfill the patient need) in hospital in order to remove direct connection and minimize the risk of spreading infection between healthcare workers who are directly involved in treating COVID-19 patients. This system continuously monitors the real-time temperature and pulse rate of the patient and send data remotely to the doctors. A medicine reminder system also reminds the patient about the medicine with date and time through voice system. © 2022, The Author(s), under exclusive license to Springer Nature Singapore Pte Ltd.
ABSTRACT
COVID-19 has been one of the most disastrous pandemics of the decade which has impacted several human lives and global economy. It is really difficult to control this kind of problem in a developing country like India where we have huge population. It is also difficult to maintain social distancing in such places. So, we have come up with an idea for the people to self-monitor and protect themselves from the spread of the virus. This paper aims to implement a smart mask which uses digital technology, for detection, prevention and precaution from this deadly virus. This virus is bound to spread in the event of interaction with other people, and we use technology to detect and prevent the virus by forming a personalized mask, which is capable of monitoring your vitals and indicating if the patient is infected by the virus. We are integrating the heart rate pulse sensor, infrared thermometer—MLX90614, respiratory sensor and Dht11 sensor which are used to monitor the inner temperature and humidity present inside the mask. This sensor is mounted on the mask which helps us to monitor the person who is wearing it 24/7. The overall equipment is less bulky with all the required features, rechargeable and replaceable filter. The vitals are monitored through personalized cloud using ThinkSpeak and mobile-based monitoring with alert system. The mask has an OLED display for real-time monitoring. © 2022, The Author(s), under exclusive license to Springer Nature Singapore Pte Ltd.