Senior Lecturer
Mathematics and Computer Science Department
Hello there! I'm an enthusiastic and creative individual with a passion for exploring the vast realms of knowledge. As a lifelong learner, I thrive on absorbing new information and finding innovative solutions to challenges. My background is diverse, spanning various fields such as technology, science, mathematics, and logic. I relish engaging in thoughtful conversations, exchanging ideas, and collaborating on projects that stimulate my curiosity. With a love for algorithms, data mining, and visualisations, I find joy in expressing complex ideas in simple, understandable terms. I am a firm believer in the power of mathematically proven facts to inspire, inform, and connect people. Whether it's delving into the intricacies of emerging technologies or crafting compelling narratives, I enjoy the process of turning information into a meaningful and accessible experience. Beyond the digital realm, you can find me immersed in nature, appreciating the beauty of the outdoors, or lost in a good book, exploring the imaginative worlds created by talented authors. A firm advocate for balance and well-being, I seek to combine knowledge and creativity to make a positive impact on the world. I hold a bachelor's degree in mathematics, a master's degree, and a Ph.D in computer science. Presently, I am a senior lecturer in the faculty. Let's connect, share ideas, and embark on a journey of continuous learning and growth!
(2023). PARD: Simplified Machine Learning Predictor for Missing Unidimensional Academic Results Dataset
(2020). Choosing the Right Transportation Management System:
(2020). Evaluation of Security in Cloud Service Providers
(2020). Storage Security in Cloud Computing Challenges And Solutions
(2020). Benefits of Cloud-Based Transportation Management System:
(2011). A Prototype of Augmented Reality for Visualising Large Sensors’ Datasets:
(2011). AR- Based system prototype for visualising pipeline sensors’ datasets:
(2011). Estimating and minimizing pincushion distortion for AR applications:
(2011). Visualising Pipeline Sensor Datasets with Modified Incremental Orthogonal Centroid Algorithm
(2011). Improved Incremental Orthogonal Centroid Algorithm for Visualising Pipeline Sensor Datasets
(2011). Real-Time Shadow using a Combination of Stencil and the Z-Buffer
(2011). Visualizing Pipeline Sensors Datasets Using Augmented Reality Based Prototype.
(2011). An Approach to Minimising Estimated Pincushion Camera Distortions:
(2011). Augmented Reality Prototype for Visualising Large Sensors Datasets
(2009). An Algorithm for Treating Uncertainties in the Visualisation of Pipeline Sensors’ Datasets
olufemi.folorunso@elizadeuniversity.edu.ng
08077345672