http://hdl.handle.net/20.500.12281/4312 Thu, 05 Mar 2026 10:59:25 GMT 2026-03-05T10:59:25Z http://hdl.handle.net/20.500.12281/17376 3D weight tracker app Otwani, Jonathan Innocent; Kakooza, Kenneth; Namukisa, Daphine; Masolo, Derick Our modern sedentary lifestyle has resulted in unhealthy weight gain, which causes diseases like heart attack, high cholesterol, diabetes, depression, obesity. World Health Organization (WHO) [1] suggests moderate intensity workout of at-least two and half hours of vigorous-intensity aerobic physical activity of seventy-five minutes for the adults aged between eighteen and sixty-four throughout the week. Weight tracking apps have become increasingly popular tools for individuals to monitor their weight and achieve their weight loss goals. These apps typically allow users to track their weight over time, set weight loss goals, and receive reminders and motivation to stay on track. However, many existing weight tracking apps are so manual that one has to input all the required requirements, which is a waste of a lot of time and tiresome. To address this issue, we have developed a 3D weight tracker app that utilizes advanced data analysis and numerical computations to provide users with tailored and simplified way of tracking weight, achieve their weight loss goals and be able to have their body parts measurements. Our app allows users to track their weight over time using a user-friendly 3D model of their body. This model not only displays the users current weight but also allows the user to visualize their progress towards their weight loss goals. In addition, our app utilizes the smart phone camera to capture the users full image of the body and will calculate the Body Mass Index and Body Fat Percentage basing on the data results from the processed image. We believe that our 3D weight tracker app has the potential to significantly improve the effectiveness of weight management for individuals seeking to achieve their weight loss goals. In this report, we will provide an overview of the features and functionality of our app, as well as the results of user testing and feedback. We hope that this report will serve as a valuable resource for individuals seeking to improve their weight management and overall health. The purpose of the current study is therefore to design and implement an android App that will be used to track weight loss amongst a group of successful weight loss maintainers. This study focused an App because smartphone apps are the most widely used tools in the general population. A project report submitted to the School of Computing and Informatics Technology in partial fulfilment of the requirements for the award of the Degree of Bachelor of Science in Computer Science at Makerere University. Thu, 01 Jun 2023 00:00:00 GMT http://hdl.handle.net/20.500.12281/17376 2023-06-01T00:00:00Z http://hdl.handle.net/20.500.12281/14405 Academic Document Authenticity System (ADAS) Amokol, Priscilla; Aruho, Joan; Basiima, Julius; Ibanda, Andrew This book begins by showing the Github repository and the blog used by the team to develop the system. It describes the software Design Document (SDD) for our project that guided us to implement the system, these are the sections included in the SDD, Introduction to the project purpose and scope, system overview, system architecture, Data design, component design, Human interface design and requirements matrix for the system. It also describes the report of our system after the implementation. Which includes, introduction, system specifications, Design output, inspection and testing, installation and system acceptance, performance, servicing, maintenance and phase out, conclusions and recommendations. This book also contains the user manual guide, which will help users of the system (Academic Document Authenticity System) on how to interact with it. A project report submitted to the School of Computing and Informatics Technology in partial fulfilment of the requirement for the a ward of a Bachelor's Degree in software Engineering of Makerere University. Fri, 23 Sep 2022 00:00:00 GMT http://hdl.handle.net/20.500.12281/14405 2022-09-23T00:00:00Z http://hdl.handle.net/20.500.12281/4356 Academic school management mobile application Ssempala, Muhammad; Kabuunga, Hamidu; Taremwa, Joab; Magero, Timothy This a representation of the Academic School Management Mobile Application project development for schools. This project was worthy developing because of the existing need to automate school activities and phase out the manual system or paper based system.The main aim of this project was to develop a flexible mobile application that brings fundamental activities of the school like attendance, report making, timetabling and ID creation in one place. We interacted with various stakeholders and collected information through interviews, bench marking, observations and review of literature on different aspects of the project. We used Entity Relationship Diagrams and context diagrams to analyze and design our system. The prototype has been tested and it has been observed that the system successfully registers students, facilitates attendance recording by the teachers and generates a student card and overall transcript for all students and a feasible timetable satisfying the constraints (requirements). It has also been shown that the application facilitates to create the student identity card by the administrator. We hope that our application provides a feasible solution to the existing paper based school management system. Thu, 16 Aug 2018 00:00:00 GMT http://hdl.handle.net/20.500.12281/4356 2018-08-16T00:00:00Z http://hdl.handle.net/20.500.12281/17845 The affordable patient vitals monitoring and advisory system Mutesasira, Bashir; Asiimwe, Brian; Ndeke, Azah Etombi; Kasauli, Zindazed Abdshahd This project report provides a comprehensive overview of the affordable patients vitals monitor and Wellness Advisory System, covering its design, implementation, testing, installation, and maintenance. The report is organized into seven chapters, along with an appendix containing the user manual. Chapter 1: Introduction sets the context for the project, outlining the purpose and objectives of the system. It highlights the need for an affordable patient vitals monitoring and advisory system and its potential benefits in healthcare settings. Chapter 2: System Specifications presents the detailed specifications of the system, including hardware and software requirements. It provides a clear understanding of the system's capabilities and functionalities. Chapter 3: Design Output delves into the design considerations and decisions made during the development process. It describes the system architecture, component design, and human interface design, ensuring seamless integration and optimal user experience. Chapter 4: Inspection and Testing discusses the rigorous inspection and testing procedures employed to ensure the system's reliability and accuracy. It outlines the test cases, methodologies, and results, validating the system's performance and functionality. Chapter 5: Installation and System Acceptance Test provides insights into the installation process and the steps taken to ensure a successful deployment. It also covers the system acceptance test, where the system's compliance with requirements and user satisfaction is evaluated. Chapter 6: Performance, Servicing, Maintenance, and Phase Out addresses the system's performance, ongoing servicing, and maintenance requirements. It outlines best practices for maintaining system performance, troubleshooting, and eventual phase-out strategies. Chapter 7: Conclusion and Recommendations summarizes the key findings of the project and presents recommendations for future enhancements and improvements. It highlights the system's contributions to patient care and emphasizes the importance of its continued development. Appendix A: User Manual offers a detailed guide on how to operate and utilize the system effectively. It provides step-by-step instructions and explanations to ensure users can maximize the system's capabilities. This project report serves as a comprehensive resource for understanding the Affordable Patients Vitals Monitor and Wellness Advisory System. It showcases the system's specifications, design considerations, testing procedures, installation guidelines, maintenance requirements, and user manual. The report concludes with recommendations for further advancements, emphasizing the system's potential to transform the landscape of patient care. A project report submitted to the School of Computing and Informatics Technology in partial fulfillment of the requirements for the award of the degree of Bachelor of Science in Software Engineering of Makerere University. Sat, 01 Jul 2023 00:00:00 GMT http://hdl.handle.net/20.500.12281/17845 2023-07-01T00:00:00Z