BYU

Abstract by Katrina Pedersen

Personal Infomation


Presenter's Name

Katrina Pedersen

Co-Presenters

None

Degree Level

Masters

Co-Authors

None

Abstract Infomation


Department

Physics and Astronomy

Faculty Advisor

Mark Transtrum

Title

Using Machine Learning to Accurately Predict Ambient Soundscapes

Abstract

The ability to accurately characterize the soundscape, or combination of sounds, of various areas is valuable to the United States military and the National Park Service. It also holds weight in areas such as public health and ecology.  We attempt to use machine learning to correctly predict ambient sound levels throughout the contiguous United States.  Our data set consists of roughly 500 training sites, where various acoustic metrics, such as overall daytime L50 levels and frequency band levels, have been obtained.  We also have roughly 115 geospatial features, which include distances to the nearest roads or airports, and the percentage of industrialization or forest in a specific area.  Selecting useful and physically significant features is an important step in the process of creating a good model.  Feature importance measures, such as the Gini importance, help guide feature reduction.  Ideally, the feature importance rankings will have physical significance and vary depending on which acoustic metric we have created the model for.  We discuss initial results and progress in improving our model.