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Mohammad Reza Rahimi TabarCurrent Course |
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1) Advanced Stat. Phys Problems (Canonical Eensemble) 1) Stochastic Processes Part I--L1 (Time and Ensemble averaging) --L2 (Joint and conditional probability distribution functions) --L3 (Generating functions, kurtosis, skewness, correlation functions, stationary processes) --L4 (Spectral Density) --L5 ( Spectral Density - Fast Fourier Transformation (FFT )) --L6-1 (Spectral Density - Maximum Entropy Method-1 ) --L6-2 (Spectral Density - Maximum Entropy Method-2, Yule-Walker Equations) --L7 (Cumulants, Multidimensional Gaussian distribution, Wick theorem) --L8 (Classification of stochastic processes, Markov processes, Chapman-Kolmogorov equation, Markov time or length scale, Langevin equation, Brownian motion) --L9 (Synthesis of correlated Gaussian signal,
Box-Muller method, Generation of long-range, scaling correlated signal,
Fourier-Filtering Method) --L10 (Random-Walk, Detrended Fluctuation Analysis(DFA), Detrended Moving Average (DMA)) --L11 (Rescaled-Range-Analysis
(R/S), Multifractals and Singularity Spectrum) --L12 (Multi-fractal
Detrended Fluctuation Analysis(MFDFA) and Renyi exponents (or generalized
fractal dimension D(q) ),Shuffled and Surrogate time series, Fourier
Detrended Fluctuation Analysis(FDFA), Wavelet transformation-1) --L13 (Windowed Fourier
Transformation (WFT), Wavelet Transformation-2, Lipchitz Regularity, Wavelet
Transform Modulus Maxima Method (WTMM), Comparison of Multi-fractal exponents
of MFDFA and WTMM) --L14 (Density Function
Estimation: {Naive, Kernel, Sample distribution function, Nearest-Neighbors
and Variable kernel estimators}, Chi-Square Test, Estimation
of the Markov time or length scales via Chi-Square test, Kolmogorov-Simrnov
Test, Kullback-Leibler entropy (distance), Anderson-Darling Test) --L15-1 ,L15-2 ( Maximum Likelihood Function, Confidence Levels and Intervals)
Part II
--L16 (Kramers-Moyal Forward and Backward Expansions, Formal Solution, Karamers-Moyal coefficents of Brownian Motion) --L17 (Pawula Theorem, Stationary Solution of the Fokker-Planck Equation, Transition Probability Density for Small Times, Path-Integral Solutions of Time Dependent PDF) --L18 (Wiener Process,
Non-Differentiability of Sample Path, -L19 (First-Passage-Time and Its Moments in terms of Drift and Diffusion Coefficients, Escape Over a Potential Barrier, Level Crossing ) -L20 ( The Ito and Stratonovich Integrals, Nonparticipating Functions, Ito Relation, Fokker-Planck Equation of the General Langevin Equation, Kubo Oscillator, Black-Scholes Stochastic Differential Equation)
Part III-L21 ( Scaling Functions and Scaling Invariance, Discrete Scale Invariance, Scaling Invariance in Stochastic Prosseses, Fractional Brownian Motion (FBM),Fractional Gaussian noise (FGn), The realation between the DFA exponent and Hurst exponent of FBM and FGn signals, Generation of FBM signal as an optimization problem)
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