An Empirical Brief Analysis of Novelistic Approaches for Detection of Bone Marrow Cancer Health Monitoring Through Dl Model

Abstract

Deep learning, with its ability to inevitably learn hierarchical depictions from multifaceted data, has shown promise in medical applications. However, tuning the hyperparameters of deep learning models is a vital task, and metaheuristic optimization techniques offer effective results. The objective is to assess their efficiency in enhancing the recital of deep learning models for bone marrow tumor prophecy. The study employs an assorted dataset, encompassing several patient attributes and medicinal gages. Through a sequence of researches, we evaluate the convergence speed, resolution excellence, and sturdiness of each metaheuristic tactic when coupled with a deep learning model. The outcomes acme the fortes and paleness of each process, providing valuable intuitions for investigators and experts in the field of medical data investigation. This study contributes to the optimization of deep learning models for bone marrow tumor prediction, targeting to advance diagnostic accurateness and sustenance healthcare authorities in making informed verdicts for persistent care. © 2024 IEEE.