Research & Projects

Exploring the frontiers of artificial intelligence through innovative research and practical applications

Publications

Improved Energy Valley Optimizer for Wildfire Prediction Under review

Oluwayomi, M.

Environmental Modelling & Software (2025)

Benchmarks the Energy Valley Optimizer and spiral variants for province-specific wildfire forecasting across Canada.

Wildfire Prediction Energy Valley Optimizer Metaheuristics Environmental Modeling

Spiral-Enhanced Liver Cancer Algorithm for Feature Selection Under review

Oluwayomi, M.

Journal of Computational Science (2025)

Introduces spiral-based feature-selection method improving sensitivity in imbalanced datasets.

Feature Selection Spiral Optimization Wildfire Prediction Metaheuristics

Advanced Wildfire Prediction with Machine Learning Published

Oluwayomi, M.

MSc Thesis, Thompson Rivers University Library (2025)

Comprehensive thesis exploring machine learning approaches for wildfire prediction using metaheuristic optimization and spiral-based algorithms.

Wildfire Prediction Machine Learning Metaheuristics Feature Selection Thesis

Research Projects

Spiral Optimization Framework

Spiral Optimization Framework

Development of spiral-enhanced metaheuristic algorithms for feature selection and optimization in imbalanced wildfire and environmental datasets.

Technologies:

Python NumPy Scikit-learn Matplotlib
Algorithm Accuracy F1-Score Time (s)
Spiral-Enhanced 94.2% 0.91 2.3
PSO 89.1% 0.85 1.8
GA 87.3% 0.82 3.1
Simulation-Driven Reinforcement Learning

Simulation-Driven Reinforcement Learning

Design of multi-fidelity simulation environments that bridge physical data and AI models, improving generalization and decision-making in safety-critical domains.

Technologies:

Python PyTorch OpenAI Gym TensorBoard
Environment Success Rate Episodes Reward
High-Fidelity 87.3% 1000 0.92
Medium-Fidelity 82.1% 500 0.88
Low-Fidelity 76.8% 250 0.84
Vision-Language Grounding for Environmental AI

Vision-Language Grounding for Environmental AI

Exploration of multimodal models integrating satellite imagery and textual reports through large language models for explainable geospatial reasoning.

Technologies:

Python Transformers OpenAI API Satellite Imagery