Title :
A new approach to the automated mapping of pockmarks in multi-beam bathymetry
Author :
Harrison, Richard ; Bellec, Valerie ; Mann, Dave ; Wang, Wenjia
Author_Institution :
Gardline Geosurvey Ltd., Great Yarmouth, UK
Abstract :
Seabed pockmarks are of great interest to geologists and the marine geotechnical community. Identifying and mapping pockmarks rendered in multi-beam bathymetry data is an important but expensive manual process. In this paper, a new Machine Learning approach to automating the task is presented. Useful, low-dimensional feature vectors yielding very good classification accuracies are established. Overall process efficacy is subsequently evaluated by comparing counts of individual objects identified by the machine and a human analyst. Highest agreement (96.7%) occurs where there is a strong visual contrast between the pockmarks and the surrounding terrain. In low-contrast areas, our machine approach identifies several more objects than the human. Further, our process maps the boundaries of ≈ 2000 pockmarks in seconds - a task which would take days for a human to complete.
Keywords :
bathymetry; geophysics computing; image recognition; learning (artificial intelligence); human analyst; low dimensional feature vector; machine learning; multibeam bathymetry; pockmark automated mapping; seabed pockmarks; Accuracy; Feature extraction; Geology; Humans; Image segmentation; Kernel; Support vector machines; Ball Vector Machine; Feature selection; Filter; Wrapper;
Conference_Titel :
Image Processing (ICIP), 2011 18th IEEE International Conference on
Conference_Location :
Brussels
Print_ISBN :
978-1-4577-1304-0
Electronic_ISBN :
1522-4880
DOI :
10.1109/ICIP.2011.6116246
