Artificial Neural Networks for Determining Magnetospheric Conditions

Jacob Bortnik; Xiangning Chu; Qianli Ma; Wen Li; Xiaojia Zhang; Richard M. Thorne; Vassilis Angelopoulos; Richard E. Denton; Craig A. Kletzing; George B. Hospodarsky; Harlan E. Spence; Geoffrey D. Reeves; Shrikanth G. Kanekal; Daniel N. Baker

doi:10.1016/B978-0-12-811788-0.00011-1

Book chapter

Artificial Neural Networks for Determining Magnetospheric Conditions

Jacob Bortnik, Xiangning Chu, Qianli Ma, Wen Li, Xiaojia Zhang, Richard M. Thorne, Vassilis Angelopoulos, Richard E. Denton, Craig A. Kletzing, George B. Hospodarsky, …

Machine Learning Techniques for Space Weather, pp.279-300

Elsevier

2018

DOI: 10.1016/B978-0-12-811788-0.00011-1

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Abstract

This chapter presents a neural-network-based technique that allows for the reconstruction of the global, time-varying distribution of some physical quantity Q, that has been sparsely sampled at various locations within the magnetosphere, and at different times. We begin with a general introduction to the problem of prediction and specification, and why it is important and difficult to achieve with existing methods. We then provide a basic introduction to neural networks, and describe our technique using the specific example of reconstructing the electron plasma density in the Earth's inner magnetosphere on the equatorial plane. We then show more advanced uses of the technique, including 3D reconstruction of the plasma density, specification of chorus and hiss waves, and energetic particle fluxes. We summarize and conclude with a general discussion of how machine learning techniques might be used to advance the state-of-the-art in space weather prediction, and insight discovery.

Lunar And Planetary Science And Exploration

Details

Title: Subtitle: Artificial Neural Networks for Determining Magnetospheric Conditions
Creators: Jacob Bortnik - California Univ
Xiangning Chu - California Univ
Qianli Ma - California Univ
Wen Li - Boston University
Xiaojia Zhang - California Univ
Richard M. Thorne - California Univ
Vassilis Angelopoulos - California Univ
Richard E. Denton - Dartmouth Coll
Craig A. Kletzing - Iowa Univ
George B. Hospodarsky - Iowa Univ
Harlan E. Spence - New Hampshire Univ
Geoffrey D. Reeves - Space Science and Applications Group
Shrikanth G. Kanekal - Goddard Space Flight Center
Daniel N. Baker - Colorado Univ
Resource Type: Book chapter
Publication Details: Machine Learning Techniques for Space Weather, pp.279-300
Publisher: Elsevier; Cambridge, MA
DOI: 10.1016/B978-0-12-811788-0.00011-1
ISBN: 9780128117880; 0128117885
Language: English
Date published: 2018
Description audience: PUBLIC
Academic Unit: Physics and Astronomy
Record Identifier: 9984428811102771

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