Speaker
Description
As gravitational wave detectors become increasingly sensitive, the number of observed sources continues to rise. Unlocking the full scientific potential of these detections depends on robust and efficient data analysis, making gravitational wave data analysis a rapidly evolving and essential field. In this talk, we introduce the core principles of gravitational wave data analysis, emphasizing the current limitations in methodology and computational efficiency. We then highlight recent advances in algorithms and computational techniques designed to mitigate the substantial resource demands while preserving statistical integrity. Finally, we discuss the emerging challenges posed by next-generation observatories such as the Einstein Telescope and LISA, and how they are reshaping the landscape of gravitational wave data analysis.
