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Bong Siaw Wee
Politeknik Mukah, Sarawak, Malaysia
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Development of To-Do List and Monetary Management System Diana anak Ringgau; Chen Wong Keong; Bong Siaw Wee
International ABEC 2021: Proceeding International Applied Business and Engineering Conference 2021
Publisher : International ABEC

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (909.139 KB)

Abstract

Currently, most of the available “To-Do List” Applications on Android or iOS are just consisted of a “To-Do list” and integrated with an electronic calendar. These applications are just suitable for individual use for keeping alert daily “To Do List” and its functionality is limited to update the status of each task. The other limitation of these applications is the “To-Do List” could not be easily shared and updated if involved other group members. Therefore, a new “Group To- Do List” plus Monetary Management System application was proposed. The proposed application can be shared and updated by group members of interest in communicating and monitoring “To Do List’ and fund management. This application was developed based on Rapid Application Development Method (RAD) by understanding the natural practices of task management and quantities of tasks taken on by team members. Therefore, this app can be expanded and customized to integrate other attractive functions based on user requests. This new application is suitable for family members, project group members, or even individuals from all walks of life who are interested in managing a total integrated “To-Do List” plus finance management system. Some of the important features of this application are its ability to identify tasks that need to be completed on daily basis with indications of which tasks need financial support, and which tasks could generate income. An interactive table and bar charts have summarized all of these tasks with details of expenditure/income and are integrated into an electronic calendar. The status of these tasks could be updated by group members with ease on individual tablets/handphones/computers/laptops. This application can be expanded/customized to integrate other attractive functions based on user requests.
Design and Implementation of an Arduino-Based Body Temperature and Pulse Rate Monitoring System Bong Siaw Wee; Kong Shuet Fang
International ABEC 2021: Proceeding International Applied Business and Engineering Conference 2021
Publisher : International ABEC

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (1371.16 KB)

Abstract

Health is an important aspect of human existence, and vital indicators such as blood pressure, body temperature, respiration rate, and pulse rate/heart rate are widely known in the medical field. According to the World Health Organization (WHO), 2,200 people die in the United States (U.S.) each day as a result of heart disease. Each year, heart disease and stroke cost about 312.6 billion in health-care expenses. Especially during COVID 19 Pandemic outbreak, rural citizens need a more effective and affordable way for personal healthcare monitoring system before they decide to travel to the nearby medical center for medical assistance. Therefore, the Arduino-Based Body Temperature and Pulse Rate Monitoring System was proposed and developed in this project. The Arduino Software was used to write the programming for this project, which interfaced with the Arduino UNO board. The temperature sensor detects the temperature while the heartbeat sensor counts the pulse rate for a certain interval of time and calculates beats per minute. Both data are delivered to the Arduino UNO for transmission to reception. The results of the measurements will be shown on the Liquid-Crystal Display (LCD) screen. The measured data will be entered into the body temperature and pulse rate app. This App is a platform that presents a graph of the data so that the user can quickly see if the measurements have changed significantly. This app was created utilizing the AppSheet platform's user-friendly features and can be used on a number of platforms, including phones, tablets, and web browsers. The user can retrieve their measurement data anytime and anywhere so that early detection of the heart disease or symptoms of COVID-19. The typical normal temperature of the human body is between 36°C and 37 °C. Low fever is defined as 37.3°C-38 °C, whereas severe fever is defined as 38.1-41 °C. Another function for this innovation project can be used to measure the pulse rate. The normal pulse rate is 60 to 100 beats per minute. People who exceed 100 beats per minute are very dangerous, so they need to refer to the nearest clinic for further medical consultation.
Design and Implementation of an Arduino Based Smart Fingerprint Authentication System for Key Security Locker Bong Siaw Wee
International ABEC 2021: Proceeding International Applied Business and Engineering Conference 2021
Publisher : International ABEC

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (955.557 KB)

Abstract

Human beings have always prioritized security. Simple mechanical locks with the key as the authentication factor were among the earliest forms of security. A key is a tiny, shaped piece of metal with incisions made to match the wards of a certain lock that is placed into the lock and twisted to open or close it. People tend to misplace the keys and it is troublesome for other users to use the keys because it is hard to find the right key. Moreover, the keys are without any protection. Anyone besides the user can easily access the keys. Therefore, an Arduino Based Smart Fingerprint Authentication System for Key Security Locker was proposed and developed in this research. The Key Security Locker System is designed to make sure that the keys are stored in a more organized and effective location. Biometrics is the science of determining an individual's identification based on physical, chemical, or behavioral characteristics. The importance of biometrics in modern society has been strengthened by the necessity for large-scale identity management systems, the operation of which is dependent on the precise assessment of an individual's identity in the context of many applications. This technology recognizes authorized personal's unique fingerprints and allows them access. To utilize the fingerprint scanner, the user must place their finger on it. The event will capture new human minutiae through fingerprint scanning. These new minutiae will be compared to those in the database to determine if the individual is authorized or nonauthorized. The Liquid-Crystal Display (LCD) will show "Fingerprint Match" if the fingerprint matches the fingerprint in the database. Then, the microcontroller will instruct relay and solenoid lock to unlock the locker door. If the fingerprint is not matched, the LCD will appear "Not Matching". Then, the locker door will remain locked. Hence, the proposed system provides better security, higher efficiency, and in many instances, increased user convenience due to it being built based on a biometric system.
Co-Authors Chen Wong Keong Diana anak Ringgau Kong Shuet Fang