UPLB ICS Peak One

Student transcripts can take a while to process, due to manual checks that have to be done in order to verify that all entries are correct. Blockchain-based solutions for industry use-cases have become more popular, more so than their cryptocurrency counterparts. The blockchain can prove to be a reliable data store when it comes to record-keeping, due to its tamper-resistant design. The study aimed to create a blockchain-based academic transcript solution that can generate transcripts and view them without requiring administrator intervention, and for those transcripts to be verifiable by a third party. The study was able to create a blockchain-based academic transcript solution using Hyperledger Fabric, Node.js, Angular, and MongoDB. Three web applications were made, each for a different set of users (students, administrators/professors, third party users). Students are able to view their own grades, view and request for new transcripts, as well as send transcripts to a different organization at their convenience. Professors are able to add, edit, and submit grades, while Administrators are able to verify grades, do CRUD operations on users, and approve or reject new transcripts. Third party users can view user-submitted transcripts. With the help of transaction IDs, data history, and identities, users are assured of the data’s integrity, reliability, and authenticity. While the study is limited by the lack of a more production-ready configuration, as well as conformity to current-day data privacy laws and internal university policies, the study is able to prove that blockchain holds a promising use-case in the academia when it comes to student records, and has room for improvement.

Households and establishments have been reliant on their internet service connection for their everyday needs to the point where they cannot afford to tolerate long duration of service interruptions. With that, a mobile application was developed in order to assist in the operational activities of professionals who are in charge of resolving such issues. The respondents evaluated the application as Good and Acceptable in the SUS Scale proving that the application is effective enough to use in their operations.

As people spend more time indoors and as door-to- door delivery services become more prevalent, there is a need for people to see their location and to navigate indoors. Due to obstructions, GPS results to unreliable location approximation and there is no existing mapping up to the room-level. With that, a user application was developed in order to compute the user’s location and to aid the user in navigation which made use of existing Wi-Fi infrastructure within the specified building. While getting the current location resulted to a high error, the pathfinder is still able to accurately show the optimal path by inputting room names.

The aim of the study is to design and develop a 2D Android game in GDevelop that teaches Christian values while providing entertainment.

Network security reports are important tools in assessing the security level of any given computer network. These reports are often long and cumbersome, rendering them unintelligible to clients. In this study, a desktop application caled SwiftVuln, which utilizes OpenVAS and a weighted role- based mathematical model, is used to quantify the security of a network by producing one scalar value (from 0 to 10) and a description of that value to describe the state of a network. The resulting information is straightforward and uncomplicated, enabling the dissemination of information to have better reach. This, in turn, would trigger interventions that would ultimately lead to increasing the overall security of a network.