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Browsing Undergraduate by Adviser "ASST. PROF. MARYCRIS A. MANALANG"
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- ItemDESIGN AND DEVELOPMENT OF AN IT ASSET MANAGEMENT SYSTEM WITH QR-CODE TAGGING FOR PHINMA-EDUCATION NETWORK(2024-03-21) DOMINGO, NORLENE KEITH. B.; URBANO, MARK JOSHUA T.; VALMADRID, JAYMIE ALELIE R.The PHINMA - Education Network is composed of various educational institutions, each with its own set of IT assets. These assets are vital for ensuring that the institution operates with excellence in both delivering quality education to its students, running its processes effectively and a receipt for their budget. The management of several IT resources, including hardware, software, licenses, and other technology-related resources, is under the responsibility of the university's IT services department. Since it consists of a single sheet containing bulk data, this could lead to issues and produce information that is unorganized. The purpose of this proposal is to design and develop an IT asset management system that can effectively replace the existing Google Sheets-based system and help the PHINMA - Education Network in managing, monitoring, producing accurate data analysis reports for its IT assets. Additionally, the system will tag each asset with a QR code to effectively and easily update their hardware and software assets.
- ItemGROWGREEN: AN ANDROID-BASED APPLICATION FOR SMART SOLAR POWERED IRRIGATION SYSTEM(2024-03-22) Buenaventura, Jasper M.; Espelimbergo, Joan M.; Yanguas, Arvin Ian C.The escalating global population and shifting weather patterns have heightened the demand for sustainable agriculture. In response, solar-powered irrigation systems have emerged as a promising solution to optimize crop yields and water usage. However, existing systems face challenges in data monitoring, control capabilities, and historical trend analysis. This research proposes an Android application seamlessly integrated with a Solar-Powered Smart Irrigation System to address these limitations. The Android app empowers farmers with remote monitoring and control, real-time water level updates, and data-driven decision-making. Utilizing the Rapid Application Development (RAD) framework, the study proceeds through the phases of Requirements Planning, User Design, Rapid Construction, and Cutover. The User Design phase employs Figma and diagrams for prototyping, testing, and refining the interface to ensure a user-centric design. The Rapid Construction phase translates prototypes into a rigorously tested functional model, while the Cutover phase evaluates the application against the ISO 25010 standard to ensure deployment readiness. Implementation results highlight successes in water level data storage, forecasting, and real-time alert delivery, all contributing to an enhanced user experience. The integration of the Android application with the Solar-Powered Smart Irrigation System marks a significant advancement in irrigation management, achieving project objectives and improving system usability. Notable discrepancies between farmer-reported irrigation activity and app data suggest a sensitivity to environmental conditions. Evaluation results underscore the need for improved precision, accuracy, and user experience, reinforcing the importance of continuous system refinement. The GrowGreen application represents a step forward in informed decision-making and adaptability to the evolving needs of farmers in modern agriculture.
- ItemPHIRECORD: A MEDICAL RECORD MANAGEMENT SYSTEM FOR HEALTH FACILITIES-RHU I AND RHU II IN UMINGAN, PANGASINAN(2024-06-13) Diaz, Allen G.; Gumtang, Adrienne Denise; Orpiada, Cristine Joy A.Traditionally, doctors have relied on paper-based methods to manage their patients' medical history and treatments. However, this approach has several issues, including inaccuracies, record misplacement, and difficulties in accessing records when needed. These problems can lead to a time-consuming and inefficient process that hinders the efficiency and effectiveness of medical care. This study developed a medical record management system that provides a centralized location for storing and sharing patients' information. This system enables doctors and nurses to access patients' medical records quickly and easily, leading to more effective and efficient care. Additionally, it allows multiple health facilities to seamlessly access and share medical records, eliminating the need for patients to provide the same information multiple times. Furthermore, the system includes a patient referral feature, allowing patients to be referred to another health facility if their doctor is not available while enabling the receiving facility to access the referred patients' information. For patient information confidentiality, doctors can only view the information of patients that are assigned to them and write doctor prescriptions. Patients can also track their health, diagnosis, and prescriptions by viewing their medical records through the system. Moreover, the system allows patients to request an official copy of their medical records from the health facility where they are registered. The developed system introduces new methods and procedures to health facilities of Umingan that will help improve the storing, sharing, and securing of patients' medical records.