Hegermiller, ChristieThomson, JimLeClair, Malcolm James2026-02-052026-02-052026-02-052025LeClair_washington_0250O_29134.pdfhttps://hdl.handle.net/1773/55181Thesis (Master's)--University of Washington, 2025A machine learning algorithm is developed to detect breaking waves in optical remote sensing data collected under visually diverse conditions along a kilometer-scale beach in Duck, NC. Bore speeds are estimated from the breaking-wave detections and are compared with theoretical models using surveyed bathymetry. Bathymetry inversion from the derived bore speeds is then explored, revealing low but systematic bias within the surf zone. Despite this limitation, a qualitative analysis of the inverted bathymetry demonstrates that the method captures morphological change over the course of the experiment. This method shows promise as a robust, low-cost approach for measuring wave-breaking patterns and dynamics across large surf zones. The results highlight important considerations for the data resolution, quality, and processing needed to achieve robust measurements of breaking waves using optical remote sensing.application/pdfen-USCC BY-NCbathymetry inversionbreaking wavesmachine learningremote sensingRemote sensingPhysical oceanographyCivil engineeringThesis