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NASA NTRS · Conference Paper

Application of Support Vector Regression to Derive Crater Depth/Diameter From Satellite Images

Published 2022-02-07 From Marshall Space Flight Center 4 authors

Attribution

This is the abstract and citation. Full text lives at NASA NTRS — we link out rather than host. All credit to the authors and Marshall Space Flight Center.

Abstract

Verbatim from NASA NTRS. Not paraphrased, not summarized.

Through the study of impact crater shapes, one can draw important conclusions about the nature and evolution of planetary surfaces [e.g., 1-4].In particular, studying the depth (d) to diameter (D)ratio (d/D) of a population of impact craters, in combination with crater count statistics, can yield valuable insights regarding rates of erosion and burial[5]. Motivated by the great abundance of available planetary surface image data, the goal of this project is to develop an efficient way to estimate d/D from satellite images of impact craters for which stereo information is not available [6]. We set out to develop and train a machine learning algorithm to extract d/D from a dataset of synthetic impact crater images for which model d/D is known. The applications of machine learning to planetary science are numerous and diverse [7], including automatic planetary surface mapping [8] and the detection of impact craters [9]. Our algorithm makes use of Support Vector Regression (SVR), which is a type of Support Vector Machine (SVM) [10, 11].SVMs are a branch of supervised machine learning valued for their straightforward implementation and versatility in solving both classification and regression problems. In regression analysis, an SVR algorithm produces a hyperplane function to fit the training data points, as well as an ε-tube that surrounds the hyperplane. Tunable hyperparameters include the width of the ε-tube (ε) and the amount an algorithm is penalized for points which fall outside the ε-tube.

Authors

  • L R Chin Wellesley College
  • W A Watters Wellesley College
  • E T Chickles Massachusetts Institute of Technology
  • C I Fassett Marshall Space Flight Center

Citation: L R Chin, W A Watters, E T Chickles , et al. (2022). Application of Support Vector Regression to Derive Crater Depth/Diameter From Satellite Images. Marshall Space Flight Center. NASA NTRS ID 20210026639. https://ntrs.nasa.gov/citations/20210026639 ↗