Machine Learning Approach
Machine learning (ML) is rapidly transforming diverse scientific fields by enabling efficient data analysis and prediction. Current research focuses on applying ML algorithms, including neural networks (e.g., autoencoders, LSTMs, and gradient boosting trees), to diverse datasets for tasks such as anomaly detection, classification, and regression. These applications range from predicting physical properties and diagnosing diseases to optimizing resource allocation and forecasting events like flight delays or air pollution. The resulting insights and predictive models offer significant advancements in various scientific disciplines and practical applications, improving efficiency, accuracy, and decision-making.
Papers
Iterative Encoding-Decoding VAEs Anomaly Detection in NOAA's DART Time Series: A Machine Learning Approach for Enhancing Data Integrity for NASA's GRACE-FO Verification and Validation
Kevin Lee
A Machine Learning Approach for Emergency Detection in Medical Scenarios Using Large Language Models
Ferit Akaybicen, Aaron Cummings, Lota Iwuagwu, Xinyue Zhang, Modupe Adewuyi
Advancements In Heart Disease Prediction: A Machine Learning Approach For Early Detection And Risk Assessment
Balaji Shesharao Ingole, Vishnu Ramineni, Nikhil Bangad, Koushik Kumar Ganeeb, Priyankkumar Patel
Machine learning approach to brain tumor detection and classification
Alice Oh, Inyoung Noh, Jian Choo, Jihoo Lee, Justin Park, Kate Hwang, Sanghyeon Kim, Soo Min Oh