Deep Learning Approaches for Earthquake Forecasting and Early Warning Systems in Seismically Active Regions
DOI:
https://doi.org/10.32628/IJSRST25123112Keywords:
Earthquake Forecasting, Deep Learning, Early Warning Systems, Seismically Active Regions, AI in GeophysicsAbstract
Earthquakes pose a significant threat to human life and infrastructure, especially in seismically active regions. Over the past few decades, numerous attempts have been made to enhance the accuracy and timeliness of earthquake forecasting and early warning systems (EEWS). Traditional approaches rely heavily on geological, seismological, and statistical models that often fail to deliver reliable predictions. The rise of deep learning has introduced a paradigm shift by enabling models to extract complex spatiotemporal features from seismic signals, satellite data, and geophysical indicators. This paper reviews state-of-the-art deep learning approaches for earthquake forecasting and EEWS, including convolutional neural networks (CNNs), long short-term memory (LSTM) networks, generative adversarial networks (GANs), and A IoT integrations. We analyze twenty recent studies, highlighting their methodologies, advantages, and limitations. Furthermore, comparative study, recent technical challenges, and future research directions are presented. The findings emphasize that deep learning models significantly improve real-time detection, blind zone reduction, and public safety response mechanisms. However, challenges like data quality, model generalization, and real-time deployment persist. This review aims to provide researchers, seismologists, and policymakers with a comprehensive understanding of the current state and future scope of AI-powered earthquake prediction systems to mitigate natural disaster impacts effectively.
Downloads
References
Z. Wang and B. Zhao, “A probability-based approach for estimating ground motion using initial P-wave for earthquake early warning,” Journal of Asian Earth Sciences, vol. 279, p. 106450, 2025.
S. A. Hamouda, “Advanced Techniques for Pre-Earthquake Prediction,” Saudi J Eng Technol, vol. 10, no. 4, pp. 200–205, 2025.
U. V Anbazhagu, R. Sonia, R. K. Grover, E. A. Banu, C. Jothikumar, and M. Sudhakar, “AI and Machine Learning in Earthquake Prediction: Enhancing Precision and Early Warning Systems,” in Modern SuperHyperSoft Computing Trends in Science and Technology, IGI Global Scientific Publishing, 2025, pp. 1–32.
M. Esposito, A. Belli, L. Falaschetti, L. Palma, and P. Pierleoni, “An AIoT System for Earthquake Early Warning on Resource Constrained Devices,” IEEE Internet of Things Journal, 2025.
D. Chaudhary, R. B. Uppara, S. S. Kumar, R. V. Ambekar, P. P. Prasanth, and D. Pulugu, “An innovative method for earthquake prediction system based on LSTM-GAN model,” in Hybrid and advanced technologies, CRC Press, 2025, pp. 113–118.
D. Murray et al., “Characterisation of precursory seismic activity towards early warning of landslides via semi-supervised learning,” Scientific Reports, vol. 15, no. 1, p. 1026, 2025.
J. Li, D. Sornette, and Y. Feng, “Estimating earthquake early warning effectiveness via blind zone sizes: a case study of the new seismic network in Chinese mainland,” Natural Hazards, pp. 1–27, 2025.
V. Kuna, A. T. Ringler, and D. Melgar, “Evaluation of an open earthquake early warning system in Mexico, and laboratory tests of their sensors,” Seismological Research Letters, vol. 96, no. 2A, pp. 980–989, 2025.
H. Mittal et al., “India’s Earthquake Early Warning Systems: A Review of Developments and Challenges,” Surveys in Geophysics, pp. 1–25, 2025.
J. Li, S. Tang, J. Zhang, B. Tang, and S. Zhang, “Multitask intelligent early warning of rockbursts based on classification-regression cascaded network model,” International Journal of Rock Mechanics and Mining Sciences, vol. 189, p. 106103, 2025.
Q. Cheng, H. Ren, X. Meng, A. Li, and L. Xie, “Real-time seismic response prediction method of high-rise buildings based on deep learning for earthquake early warning,” International Journal of Disaster Risk Reduction, vol. 119, p. 105294, 2025.
M. S. Abdalzaher and O. M. Saad, “Remote Sensing Technologies for Earthquake Management,” in Remote Sensing for Geophysicists, CRC Press, 2025, pp. 485–497.
M. Wood et al., “Simulating Human Behavior Under Earthquake Early Warning,” Heliyon, 2025.
E. Mehmet, “Transmission of Earthquake Early Warning Message through a Different Channel: Karliova Case Study,” Journal of the Geological Society of India, vol. 101, no. 5, pp. 676–684, 2025.
K. Pathinettampadian, N. Nagarani, and A. Al Mohamed Bilal, “A novel approach on IoT-based natural disaster prediction and early warning systems (EWS),” in Utilizing AI and Machine Learning for Natural Disaster Management, IGI Global, 2024, pp. 189–207.
P. Kolivand et al., “A systematic review of Earthquake Early Warning (EEW) systems based on Artificial Intelligence,” Earth Science Informatics, vol. 17, no. 2, pp. 957–984, 2024.
S. Tunç, B. Tunç, D. Çaka, and E. Budakoğlu, “An Overview of Traditional and Next-Generation Earthquake Early Warning Systems,” Journal of Advanced Research in Natural and Applied Sciences, vol. 10, no. 3, pp. 747–760, 2024.
L. Mizrahi et al., “Developing, testing, and communicating earthquake forecasts: Current practices and future directions,” Reviews of Geophysics, vol. 62, no. 3, p. e2023RG000823, 2024.
D. Shah, J. Shah, V. Parwanda, S. Vyas, and S. Mishra, “Earthquake Forecasting using Time Series Data,” in 2024 3rd International Conference for Advancement in Technology (ICONAT), 2024, pp. 1–7.
S. Bharti, P. Pahwa, S. Gupta, and A. Kumar, “Enhancing sensing and prediction accuracy of earthquake using machine learning algorithms,” in Advances in AI for Biomedical Instrumentation, Electronics and Computing, CRC Press, 2024, pp. 171–176.
Downloads
Published
Issue
Section
License
Copyright (c) 2025 International Journal of Scientific Research in Science and Technology
This work is licensed under a Creative Commons Attribution 4.0 International License.
