Automated characterization of magnetic reconnection using … · 2020. 5. 6. · EGU 2020 06 May...
Transcript of Automated characterization of magnetic reconnection using … · 2020. 5. 6. · EGU 2020 06 May...
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EGU 2020 06 May 2020
This project AIDA receives funding from the European
Union’s Horizon 2020 Research and Innovation programme
under grant agreement No 776262.
Automated characterization of magnetic reconnection using particle distributions
06 May 2020
Contributors: R. Dupuis, M. V. Goldman, D. L. Newman, J. Amaya, and G. Lapenta
EGU 2020 – ST 1.9 “Theory and Simulation of Solar
System plasmas”
Romain Dupuis
KU Leuven
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EGU 2020 06 May 2020
Magnetic reconnection
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EGU 2020 06 May 2020
Magnetic Reconnection
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Complex physical phenomenon
Break of the frozen-in magnetic field
Magnetic energy release
Transport mechanism, particle acceleration
Magnetic Electron Diffusion Region (EDR)
Occurring in many plasma environments
Sun: flares, CME
Earth’s magnetosphere: magnetopause, magnetotail
MMS mission
Image Credit: NASA MMS
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Detection of reconnection
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Burch et al. 2016
EDR is very small
The precise detection is hard
Use of indirect signatures
Usually two groups
Field quantities
Statistical moments
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EGU 2020 06 May 2020
Detection of reconnection
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Burch et al. 2016
EDR is very small
The precise detection is hard
Use of indirect signatures
Usually two groups
Field quantities
Statistical moments
Third approach: using directly the distribution
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Particle distributions
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Burch et al. 2016
Rich part of the information
MMS mission: crescent shape
Electron dynamics dominates
Beams, power law, top-hat
But very large data
3D velocity space
Spatial space
Temporal aspect
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EGU 2020 06 May 2020
Particle distributions
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Burch et al. 2016
Rich part of the information
MMS mission: crescent shape
Electron dynamics dominates
Beams, power law, top-hat
But very large data
3D velocity space
Spatial space
Temporal aspect
Extract automatically information from the particle distributions
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EGU 2020 06 May 2020
Machine learning
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Supervised vs. unsupervised
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Supervised learning
Regression
Classification
Unsupervised learning
Clustering
Dimension reduction
Density estimation
Credit S. CarrazzaCredit S. Carrazza
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Related work
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Automated classification of plasma regions using 3D
particle energy distribution. MMS mission: crescent
shape, Olshevsky V. et al, 2019
Automatic Detection of Magnetospheric Regions around
Saturn using Cassini Data, Yeakel, K et al., 2017
Automatic detection of magnetopause reconnection
diffusion regions, Garnier P. et al.
We want to privilege unsupervised approaches
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Density estimation
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Building an estimate of the probability density function
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Density estimation
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Building an estimate of the probability density function
Non-parametric methods
Histogram
Kernel Density Estimation
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Density estimation
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Building an estimate of the probability density function
Non-parametric methods
Histogram
Kernel Density Estimation
Parametric methods
Fitting given distributions
Gaussian Mixture Models (GMM)
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Density estimation
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Building an estimate of the probability density function
Non-parametric methods
Histogram
Kernel Density Estimation
Parametric methods
Fitting given distributions
Gaussian Mixture Models (GMM)
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Gaussian Mixture models
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Gaussian probability distribution
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Gaussian Mixture models
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Gaussian probability distribution
Sum of Gaussians (mixture)
Parameters to find
Credit Rémi Emonet
𝑝 𝑥 = 0.3𝑁1 + 0.7𝑁2
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Gaussian Mixture models
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Gaussian probability distribution
Sum of Gaussians (mixture)
Parameters to find
Credit Rémi Emonet
Number of
components
𝑝 𝑥 = 0.3𝑁1 + 0.7𝑁2
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Gaussian Mixture Model
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How to infer the best parameters ? Maximum likelihood estimation
Maximizing the likelihood estimation
Non linear maximization problem
No closed form
Need to find numerical local maximum: Expectation Maximization
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Expectation Maximization
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Very effective for models with unobserved latent variables
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Expectation Maximization
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Very effective for models with unobserved latent variables
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Expectation Maximization
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Very effective for models with unobserved latent variables
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Expectation Maximization
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Very effective for models with unobserved latent variables
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Expectation Maximization
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Very effective for models with unobserved latent variables
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Expectation Maximization
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Very effective for models with unobserved latent variables
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Model selection
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How to determine the number of components K?
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Model selection
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How to determine the number of components K?
Information theory
Aikaike Information Criterion
Bayesian Information Criterion
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Model selection
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How to determine the number of components K?
Information theory
Aikaike Information Criterion
Bayesian Information Criterion
Goodness of fitComplexity
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Model selection
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How to determine the number of components K?
Information theory
Aikaike Information Criterion
Bayesian Information Criterion
Various interpretation to the number of components K
Beams/electron subpopulation
Complex distribution
Deviation from a Gaussian (tail, mode width, etc.)
Goodness of fitComplexity
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Simulations
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Simulations
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Access to the complete description of the plasma over all the spatial grid
2.5D collisionless Particle In Cell simulations
iPic3D (Markidis et al.)
Double Harris sheet case, weak guide field
Grid: 769 x 1025 (30di x 40 di)
196,000,000 particles (~250 particles/cell)
Weighted particle injection
B-field-aligned basis
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Number of components
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Number of components (GMM) Measure of gyrotropy (Moment based)
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Number of components
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Number of components (GMM) Measure of gyrotropy (Moment based)
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Number of components (GMM) Measure of gyrotropy (Moment based)
EDR OutflowInflow
Number of components
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Number of components (GMM) Measure of gyrotropy (Moment based)
Number of components
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Analyzing the mixtures
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Thermal energy of the distribution
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Analyzing the mixtures
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Thermal energy of the distribution
Variance of the mixture:
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Analyzing the mixtures
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Thermal energy of the distribution
Variance of the mixture:
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Analyzing the mixtures: energy drop and deviation
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Thermal energy of the distribution
Variance of the mixture:
Diagnostic quantities𝐸𝑡ℎ𝑒𝑟𝑚𝑎𝑙(𝐾)
𝐸𝑑𝑒𝑣(𝐾)
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Analyzing the mixtures: energy drop and deviation
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Closer look to the distributions
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Closer look to the distributions
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Closer look to the distributions
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Closer look to the distributions
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Closer look to the distributions
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Closer look to the distributions
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Closer look to the distributions
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Closer look to the distributions
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Closer look to the distributions
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Closer look to the distributions
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Closer look to the distributions
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Closer look to the distributions
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Next steps
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Simulation: focus on less documented cases
2D turbulent reconnection
3D reconnection
Other kind of simulations
Observation: distributions from in situ space missions
MMS data
Reconstruction of the particle sampling
Machine learning: potential improvement
Convolutional methods and auto encoder
Dual problem with kernel method
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MMS observation: day side 2015
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Reconnection event: 16 October 2015-13:07:02.235 (Burch et al.)
Gap due to low energy channels
Complex preprocessing pipeline
Identify crescent shape
Auto encoder may help (Olshevsky et al)
Extract 3D features
Use the PDF directly
Vpara
Vperp
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Turbulent simulation
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Identification of potential current layers
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Turbulent simulation
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Identification of potential current layers
Edev
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Conclusion
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GMM is able to identify complex distributions in various cases
Reconnection with weak and strong guide fields
Help to analyze and identify reconnection
No real physical interpretation and no unique solution
GMM as a start in applying ML on simulations and particles
Other ML methods are considered
Auto encoder, SOM, etc.
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References
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Bishop, Christopher M. Pattern recognition and machine learning. springer, 2006.
Burch et al., “Electron-scale measurements of magnetic reconnection in space.”, 2016b, Science, vol. 352, no 6290, p. aaf2939
Dupuis, Romain, et al. "Characterizing magnetic reconnection regions using Gaussian mixture models on particle velocity
distributions." The Astrophysical Journal 889.1 (2020): 22.
Garnier P. et al., Automatic detection of magnetopause reconnection diffusion regions
Gebru, Israel Dejene, et al. "EM algorithms for weighted-data clustering with application to audio-visual scene analysis." IEEE
transactions on pattern analysis and machine intelligence 38.12 (2016): 2402-2415.
Markidis, S., & Lapenta, G. (2010). Multi-scale simulations of plasma with iPIC3D. Mathematics and Computers in Simulation, 80(7),
1509-1519.
Olshevsky et al., “Automated classification of plasma regions using 3D particle energy distribution”, submitted to JGR-Space physics
Shuster et al. “Highly structured electron anisotropy in collisionless reconnection exhausts”, 2014, Geophysical Research Letters, 41,
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Yeakel, K et al., Automatic Detection of Magnetospheric Regions around Saturn using Cassini Data, 2017
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Acknowledgments
This work has received funding from the European Unions Horizon 2020 research and innovation programme under grant agreement No 776262 (AIDA, www.aida-space.eu).
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Gaussian Mixture Model
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How to infer the best parameters ?
Maximizing the likelihood estimation
Non linear maximization problem
No closed form
Need to find numerical local maximum: Expectation Maximization
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EM Algorithm
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Expectation Step
Maximization Step
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Detection algorithm
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