A Comparative Study of Transfer Learning, Convolutional Neural Network, and Random Forest for Satellite-Image-Based Land Use Classification
- Wahayb Alotaibi,
- Jessica Torres,
- Yousif Alsekait,
- William Gretzinger,
- Omar Al Blushi,
- Jana Alsabyani,
- Madhawi Alharbi,
- Dinghan Wang,
- Siddharth Misra
Wahayb Alotaibi
Department of Petroleum Engineering, Harold Vance, Texas A&M University College Station
Jessica Torres
Department of Petroleum Engineering, Harold Vance, Texas A&M University College Station
Yousif Alsekait
Department of Petroleum Engineering, Harold Vance, Texas A&M University College Station
William Gretzinger
Department of Petroleum Engineering, Harold Vance, Texas A&M University College Station
Corresponding Author:[email protected]
Author ProfileOmar Al Blushi
Department of Petroleum Engineering, Harold Vance, Texas A&M University College Station
Jana Alsabyani
Department of Petroleum Engineering, Harold Vance, Texas A&M University College Station
Madhawi Alharbi
Department of Petroleum Engineering, Harold Vance, Texas A&M University College Station
Dinghan Wang
Department of Petroleum Engineering, Harold Vance, Texas A&M University College Station
Siddharth Misra
Department of Petroleum Engineering, Harold Vance, Texas A&M University College Station
Abstract
As the accessibility of satellite imagery grows, the necessity for precise classification models intensifies. This research endeavors to construct robust classification models capable of accurately discerning ten distinct land-use categories from satellite images. To attain this objective, the study delves into various methodologies, such as transfer learning, convolutional neural networks (CNNs), and the application of a Random Forest classifier in conjunction with Principal Component Analysis (PCA). Each approach presents distinct strengths and obstacles in tackling the intricacies inherent in satellite image classification. The dataset utilized for this investigation originates from the EuroSAT dataset, providing a standardized foundation for analysis and comparison. Through rigorous evaluation and comparison of these methodologies, this study aims to contribute to the advancement of land-use classification techniques, facilitating more accurate and efficient utilization of satellite imagery in diverse applications.13 May 2024Submitted to ESS Open Archive 15 May 2024Published in ESS Open Archive