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Lecture
Discrete-Time Stochastic Processes: Wiener Filter
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Stochastic Processes: Wiener Filter
Explores stochastic processes and the Wiener filter for signal processing.
Linear Prediction and Estimation
Explores linear prediction, optimal filters, random signals, stationarity, autocorrelation, power spectral density, and Fourier transform in signal processing.
Signal Processing Fundamentals
Explores signal processing fundamentals, including discrete time signals, spectral factorization, and stochastic processes.
Wiener Filter for Discrete-Time Stochastic Processes
Covers the theory and application of the Wiener filter for discrete-time stochastic processes.
Fourier Transform and Spectral Densities
Covers the Fourier transform, spectral densities, Wiener-Khinchin theorem, and stochastic processes.
Linear Estimation & Prediction: Models & Methods
Explores linear estimation and prediction in AR parametric models, focusing on Yule Walker equations and Wiener filter.
Stochastic Models for Communications: Continuous-Time Stochastic Processes - Stationarity
Explores the concept of stationarity in continuous-time stochastic processes and its implications.
Stochastic Calculus: Itô's Formula
Covers Stochastic Calculus, focusing on Itô's Formula, Stochastic Differential Equations, martingale properties, and option pricing.
Adaptive Signal Processing: Filtering & Neural Networks
Explores adaptive signal processing, gradient descent, and the LMS algorithm for efficient filtering and neural network training.
Image Filtering: Basics and Techniques
Explores image filtering techniques, including linear and nonlinear filters, for artifact removal and feature enhancement.
