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Introduction to Statistical Communication Theory. Introduction To Statistical Decision Theory, Discrimination Between a Finite Number of Possible Signals. The Optimal Receiver For Known Signals Embedded in Additive White Gaussian Noise. The Correlation Receiver and The Matched Filter. The Error Probability and Bounds. Basic Digital Modulation Methods. Efficient Signal Design For Binary Digital Communication. Detection of Signals With Unknown Parameters and Non-coherent Communications. The Classic Radar Problem. Elements of Estimation Theory With Application to Radar And Ppm. Binary Communication in The Poisson Regime (optional).

Faculty: Electrical and Computer Engineering
|Undergraduate Studies |Graduate Studies

Pre-required courses

44202 - Random Signals

• A foundation in digital communication - Lapidoth, Amos
• A foundation in digital communication - Lapidoth, Amos
• A foundation in digital communication - Lapidoth, Amos,
• Detection of signals in noise - McDonough, Robert N.
• Detection, estimation, and modulation theory - Van Trees, Harry L.
• Detection, estimation, and modulation theory - Van Trees, Harry L.
• Detection, estimation, and modulation theory. - Van Trees, Harry L.
• Digital communications - Proakis, John G.
• Principles of communication engineering - Wozencraft, John M.
• Principles of digital communication - Gallager, Robert G.
• Principles of digital communication : a top-down approach - Rimoldi, Bixio
• Statistical theory of signal detection. - Helstrom, Carl W.