๐ Contact
Email: [email protected]
GitHub: moonriver1997
๐ PROFILE
Researcher and former software engineer with a strong focus on real-time seismic monitoring and earthquake early warning systems. With over two years of experience in software development and one year of hands-on research in earthquake early warning, I work at the intersection of technical system development and seismological applications. My research interests include high-density seismic networks, rapid magnitude estimation, and real-time system operations, particularly in the context of Taiwan. I am committed to advancing earthquake early warning capabilities through interdisciplinary approaches and system-level development.
๐ EDUCATION
Ph.D. in Geosciences (In progress)
National Taiwan University, Taipei, Taiwan
Master of Science in Earth and Environmental Science
National Chung Cheng University, Chiayi, Taiwan
Bachelor of Science in Earth and Environmental Science
National Chung Cheng University, Chiayi, Taiwan
๐ PUBLICATIONS
Journal
- Wu, Y.M., Mittal, H., Lin, Y.H. and Chang, Y.H. (2023). Magnitude determination using cumulative absolute absement for earthquake early warning. Geosci. Lett. 10, 59. doi: 10.1186/s40562-023-00314-6 [Link]
- Wu, Y.M., Lin, Y.H., Yang, B.M. and Ke, S.S. (2025). Performance of the P-alert real-time shakemaps system and onsite warning during the 2025 ML6.4 Dapu earthquake. Terr. Atmos. Ocean. Sci. 36, 3. (2025). doi: 10.1007/s44195-025-00086-w [Link]
- Lin, Y.H. and Wu, Y.M. (2025). Magnitude determination for earthquake early warning using P-alert low-cost sensors during 2024 Mw7.4 Hualien, Taiwan earthquake. Sci. Rep. 15, 12538. doi: 10.1038/s41598-025-97748-z [Link]
- Mittal, H., Lin, Y.H. and Wu, Y.M. (2026). Enhancing earthquake magnitude determination: leveraging cumulative absolute absement for early warning systems using low-cost sensors. Geoenviron. Disasters 13, 8. doi: 10.1186/s40677-025-00358-0 [Link]
Conferences Abstracts
- Wu, Y.M. and Lin, Y.H. (2025). Magnitude determination for Earthquake Early Warning using P-Alert low-cost sensors during 2024 Mw7.4 Hualien, Taiwan earthquake, EGU General Assembly 2025, Vienna, Austria, 27 Aprโ2 May 2025, EGU25-2965, doi: 10.5194/egusphere-egu25-2965 [Link]
Masterโs Thesis
- Lin, Y.H. and Lu, H.Y. Seasonal Variation of Groundwater in the mountain area Using satellite imagery and data analysis methods, Graduation Thesis in National Chung Cheng University, Chiayi, Taiwan, Jul 2021.
๐ป Technical Skills
Backend Programming Languages: C, C++, Fortran, Python, Java, .NET Framework, MATLAB and PHP.
Frontend Programming Languages: HTML5, CSS, jQuery, JavaScript (Vue.js, AngularJS, and React.js).
Cloud & Container Technologies: Microsoft Azure, Docker, Kubernetes and AWS.
Database Platforms: SQL Server, MySQL, MSSQL, MariaDB, and Oracle.
Development Tools: VS Code, Visual Studio and Eclipse.
Others: Linux, PowerShell, JSON, UML, Open API, and Web Services.
๐ผ EXPERIENCES
EKC Energy and Environmental Control, Ltd
Intern (Junior Programmer), Taipei, Taiwan
- Developed and maintained various system platforms, managing both frontend and backend web development.
- Organized, established, and managed databases.
- Implemented system functionalities, including deep learning model integration and message notifications.
Graduate Institute of Educational Policy and Administration, National Taiwan Normal University
Software Engineer, Web Developer, Taipei, Taiwan
- Developed, tested, and maintained software applications while designing and implementing scalable software solutions.
- Optimized codebase and refactored legacy code to enhance application performance, maintainability, and scalability.
- Conducted code reviews and implemented automated testing to uphold code quality and minimize bugs in production.
- Participated in the full software development lifecycle (SDLC), including requirements gathering, design, development, testing, and deployment.
- Designed, maintained and optimized databases architectures, ensuring data integrity, scalability, and performance.