Processing Pdf 179971

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ma7165d statistical digital signal processing pre requisites nil l t p c 3 1 0 3 total hours 39 course outcomes co1 students acquire knowledge about random processes and their ...

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MA7165D STATISTICAL DIGITAL SIGNAL PROCESSING

Pre-requisites: Nil
L T P C
3 1 0 3
Total hours: 39

Course Outcomes:

CO1 Students acquire knowledge about random processes and their classification.
CO2: Learn and apply concepts of signal modelling.
CO3: Understand basic results about Lattice filters and Wiener filtering.
CO4: Learn about power spectrum estimation and application to real world problems.

Module 1: (10 hours)

Discrete-Time Random Processes: Random Variables, Random Processes, Filtering Random
Processes, Spectral Factorization, Special Types of Random Processes.

Module 2: (12 hours)

Signal Modeling: The Least Squares Method, The PadeApproximtion, Prony’s Method, Finite Data
Records, Stochastic Models.

Module 3: (17 hours)

Lattice Filters and Wiener Filtering: The FIR Lattice Filter, Split Lattice Filter, IIR Lattice Filters,
Stochastic Modeling, The FIR Wiener Filter, IIR Wiener Filter, Discrete Kalman Filter.
Spectrum Estimation: Nonparametric Methods, Minimum Variance Spectrum Estimation, The Maximum
Entropy Method, Parametric Methods, Frequency Estimation, Principal Components Spectrum
Estimation.

References:

1. M. H. Hayes; “Statistical Digital Signal Processing and Modeling”, John Wiley & Sons, 2004.
2. G. J. Miao and M. A. Clements; “Digital Signal Processing and Statistical Classification”, Artech
House, London, 2002.
3. R. M. Gray and L. D. Davisson ; “An Introduction to Statistical Signal Processing”, Cambridge
University Press, 2004.

MA7165D STATISTICAL DIGITAL SIGNAL PROCESSING

Pre-requisites: Nil
L T P C
3 1 0 3
Total hours: 39

Brief Syllabus:

Discrete-Time Random Processes, Filtering Random Processes, Spectral Factorization, Special Types
of Random Processes, Signal Modeling, The Least Squares Method, The PadeApproximtion,
Prony’sMethod,Stochastic Models, The FIR Lattice Filter, Split Lattice Filter, IIR Lattice Filters,
Stochastic Modeling, The FIR Wiener Filter, IIR Wiener Filter, Discrete Kalman Filter, Spectrum
Estimation: Nonparametric Methods, Minimum Variance Spectrum Estimation, The Maximum Entropy
Method, Parametric Methods, Frequency Estimation, Principal Components Spectrum Estimation

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...Mad statistical digital signal processing pre requisites nil l t p c total hours course outcomes co students acquire knowledge about random processes and their classification learn apply concepts of modelling understand basic results lattice filters wiener filtering power spectrum estimation application to real world problems module discrete time variables spectral factorization special types modeling the least squares method padeapproximtion prony s finite data records stochastic models fir filter split iir kalman nonparametric methods minimum variance maximum entropy parametric frequency principal components references m h hayes john wiley sons g j miao a clements artech house london r gray d davisson an introduction cambridge university press brief syllabus smethod...

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