Skip to content

IChowdhury01/ECE-302-Probability-Models-and-Stochastic-Processes

Folders and files

NameName
Last commit message
Last commit date

Latest commit

 

History

6 Commits
 
 
 
 
 
 
 
 

Repository files navigation

ECE-302: Probability Models and Stochastic Processes

Projects for ECE-302: Probability Models and Stochastic Processes

Project Descriptions

  • BayesianMLEstimation: Implementation of a Bayesian MMSE MLE estimators. Estimators are tested on various systems such as Rayleigh distributions and BPSK signals with interference. Results are comparatively analyzed.

  • D&DSimulation: Simulations of the game Dungeons and Dragons are constructed and tested. Different random distributions are used to generate player characters and enemies with varying stats, as well as to calculate damage dealt in attacks. Results are plotted.

  • Detection: Pattern recognition using machine learning. A MAP classifier is built, trained on the iris plant dataset. Simulations are run to estimate mean and covariance matrices, and a 4D pdf is computed.

Course Description

Topics in probability, random variables and stochastic processes applied to the fields of electrical and computer engineering. Probability, events, random variables, expectation, moments, characteristic functions, conditional probability and expectation. Functions of random variables, random vectors, Gausian random vectors, Poisson points. Bounding and limit theorems. Relations among important distributions and probability models.Stochastic processes: stationarity, ergodicity, Brownian motion, Markov processes. Deterministic systems with stochastic inputs, correlation and power spectral density, ARMA models. Hilbert space and applications: orthogonality principle, discrete Wiener and Kalman filters, linear prediction, lattice filters.

Releases

No releases published

Packages

No packages published

Languages