ABSTRACT
This paper describes the design and software implementation of a wearable prototype that allows users to monitor the vital signs of COVID-19 patients in quarantine areas. This prototype consists of two parts, the bracelet, andthe Base control unit (BCU). The bracelet is built with ESP8266 and sensors as main components, as well as the battery and other parts needed to fulfill the system's purpose (monitoring the vital signs of COVID-19 patients). At the same time, the Raspberry Pi (SCB) single board computer and GSM/GPRS/HAT are the main components of the Basic Control Unit (BCU). The current work describes the main parts of the pseudocode, as well as the activity diagram for the microcontroller and Raspberry Pi. This paper describes the mechanism of sending alert messages, whereby the system's ability to configure two types of alert messages;(1) physician Messages (these Messages will be sent to the physicianassociated with the patient if one or more vital signs reach a critical value;these messages contain all measurements of a patient's vital signs);(2) Authorize messages (these messages will be sent if the quarantine rules are violated;the patient's location will be sent to the authorized person as a Google Mapslink). Also, this paper describes the graphical user interface for communication, management,. and interaction between the users of the system. © 2022 IEEE.
ABSTRACT
Computers and cell phones have become more commonplace in a society in addition to the many benefits they provide in our daily lives. Internet communication (through websites and applications) has become essential as a result of the Corona pandemic and the issues it brought up. The difficulty in locating a trustworthy blood bag could result in the loss of many lives. Blood donation is crucial for patients with thalassemia, cancer patients, accident victims, and surgical procedures. To donate blood, one must research and visit a blood bank. In a time crunch, it could be challenging to choose the best donor. Because unusual blood types aren't always available at all blood banks, recipients often struggle to find the appropriate blood donor. To address the issue of a lack of blood bags, it is evident in a blood bank's inadequate management, the elimination of uncommon blood types, a lack of understanding and confidence, and the challenge of determining a specific blood group. This project aims to design and deploy a mobile application. It is advised to make use of a blood donation app that is connected to the main database that compiles and arranges information from all blood donation drives and blood banks. All necessary blood donation processes are managed and controlled by the proposed application. The front end of the application is built using JavaScript in this project (React native is used as the framework for JS), and the back end is built using Firebase as the database. © 2022 IEEE.
ABSTRACT
Coronavirus Disease 2019 (COVID-19), caused by the novel severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), is currently a threat to the global human population. Infectious viruses, such as SARS-CoV-2, are easily transmitted from person to person and spread very quickly. These viruses are likely to spread anywhere there are massive crowds in confined spaces-and the Hajj pilgrimage to Makkah, Saudi Arabia is no exception. This work aims to prevent the spread of infection in the early stages of an outbreak. This paper explores the various methods for monitoring and controlling infectious disease during the Hajj including strengthening disease control and methods for providing the Saudi Ministry of Health (MOH) insights to enable them to plan for the specific challenges of controlling Coronavirus disease during the Hajj. This paper proposes a model, based on the Radio Frequency Identification Devices (RFID), Global Positioning System (GPS), wearable watch technology, and cloud computing infrastructure, which detects and monitors infected pilgrims and also aids in the identification of those pilgrims exposed to sources of a virus. Disciplinary: Information System, Technology, and Application, Healthcare Management. (C) 2022 INT TRANS J ENG MANAG SCI TECH.