DCU Expo 2024 - Final Year Projects

50 60. Multiplayer InfiniteWorld Ancient Brain Game This project is amulti-player, infinite-world game based on Ancient Brain. The game has an open world with environmental changes (such as the flow of time accompanied by the alternation of the sun and the moon, and climate changes). The game can support two people playing at the same time on different devices through the connection of the Ancient Brain world. They can collect items by exploring the infinite open world to gain scores, and ultimately, the winner will be determined by the score. Student Programme Computer Applications Project Area 3-DModelling, Gaming, Graphics Project Technology JavaScript, Node.js Student Name(s) Michael Walsh  | Mengte Zhu Email michael.walsh252@mail.dcu.ie   | mengte.zhu2@mail.dcu.ie Supervisor Dr Mark Humphrys 61. The Life Story App In today’s fast-paced world, the memories and stories of our deceased loved ones can often be forgotten or fade away over time. However, a new app has emerged that aims to preserve the memory of their loved ones and share their life stories, ensuring that their legacy lives on for generations to come. Life Story app allows for the creation of a comprehensive and interactive narrative, including text, photos, videos and audio recordings, providing a platform for capturing and sharing personal narratives and accomplishments that is accessible anytime fromanywhere. The main feature of our mobile application is the timeline of life. Our User Interface will be user-friendly, ensuring accessibility for individuals of varying technological proficiency. Student Programme Enterprise Computing Project Area Web Application Project Technology CSS, HTML5, JQuery, JavaScript, MySQL, Python, Django Student Name(s) Enkhjin Orgil  |  Ryan Lannon Email enkhjin.orgil2@mail.dcu.ie  |   ryan.lannon3@mail.dcu.ie Supervisor Dr Hyowon Lee 62. The Deformation and Failure Behaviour of MosquitoMeshes as a Substitute for Medical-GradeMeshes This project investigates and compares the deformation and failure behaviour of twomosquitomeshes. Mosquito netting has been used and has demonstrated effectiveness as a viable substitute for medical- grade mesh. This study aims to create testing conditions that closely mimic an in vivo environment to accurately assess how the mesh behaves. It investigates the mechanical behaviour as well as the effect of the anisotropic behaviour of the mesh. Student Programme Biomedical Engineering (Year 4) Project Area Biomedical Engineering, Materials Testing Project Technology Excel/VB Student Name(s) Bláithín Clune Email blaithin.clune2@mail.dcu.ie Supervisor Dr Garrett McGuinness