The table below shows the most common keywords used by the author. The letters in brackets after some keywords denote if the keyword corresponds to Solar Physics (S) or Heliospheric Physics (H).
| Keyword
| Occurrences
|
|---|
| Sun: Flares [S]
| 6
|
| Astrophysics - Solar And Stellar Astrophysics [S]
| 5
|
| Methods: Data Analysis
| 4
|
| Sun: Chromosphere [S]
| 4
|
| Techniques: Spectroscopic
| 4
|
| Solar Flare Spectra
| 3
|
| Neural Networks
| 3
|
| Classification
| 2
|
| Methods: Statistical
| 2
|
| Solar And Stellar Astrophysics
| 2
|
| Techniques: Image Processing
| 2
|
| Sun: Activity
| 2
|
| Quantization
| 1
|
| Numerical Methods
| 1
|
| Methods: Observational
| 1
|
| Machine Learning
| 1
|
| Line: Profiles
| 1
|
| Instrumentation And Methods For Astrophysics
| 1
|
| Information Bottleneck Principle
| 1
|
| Dimensionality Reduction
| 1
|
| Deep Networks
| 1
|
| Decentralized Model
| 1
|
| Bayesian Information Criterion
| 1
|
| Support Vector Machine
| 1
|
| Sun: Transition Region [S]
| 1
|
| Sun: Photosphere [S]
| 1
|
| Sun: General
| 1
|
| Sun: Corona [S]
| 1
|
| Sun: Atmosphere [S]
| 1
|
| Sun Flares
| 1
|
| Spectra
| 1
|
| Solar Wind [H]
| 1
|
| Simulations
| 1
|
| Rate-distortion Theory
| 1
|
| Radiative Transfer - Machine Learning - Reinforcement Learning
| 1
|
| Astrophysics - Instrumentation And Methods For Astrophysics
| 1
|
| Algorithms
| 1
|