ece4305_L01

ece4305_L01 - Introduction ECE4305: Software-Dened Radio...

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Introduction ECE4305: Software-Defined Radio Systems and Analysis Professor Alexander M. Wyglinski Department of Electrical and Computer Engineering Worcester Polytechnic Institute Lecture 1 Professor Alexander M. Wyglinski ECE4305: Software-Defined Radio Systems and Analysis
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Introduction Course Information Digital Communication System Overview Course Schedule and Information I Lectures I MTRF 3:00 PM – 3:50 PM in Room AK116 I 27 classes in total I All lecture slides available online via course website I Supervised Laboratories I W 2:00 PM – 3:50 PM in Room AK227 I Five laboratory assignments and one course project I All laboratory handouts available online via course website I Office Hours I TR 11:00 AM – 12:00 PM in Room AK230 (or by appointment) Professor Alexander M. Wyglinski ECE4305: Software-Defined Radio Systems and Analysis
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Introduction Course Information Digital Communication System Overview Course Textbook and Course Website I Course Textbook I Michael Rice, Digital Communications: A Discrete-Time Approach , Prentice Hall, 2008, ISBN: 0130304972. I Course Website I http://www.wireless.wpi.edu/ courses/ece4305d10/index.html Professor Alexander M. Wyglinski ECE4305: Software-Defined Radio Systems and Analysis
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Introduction Course Information Digital Communication System Overview Recommended Background I A basic understanding of various digital communication techniques (ECE3311 or equivalent) I A basic understanding of probability (MA2621 or equivalent) I Familiarity with Simulink I Familiarity with general programming Professor Alexander M. Wyglinski ECE4305: Software-Defined Radio Systems and Analysis
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Introduction Course Information Digital Communication System Overview Course Material I Digital Signaling and Data Transmission I Inphase/quadrature and magnitude/phase representations of digital transmissions, waveform/vector representations, deterministic and probabilistic signals, noise I Error Performance of Digital Communications in Noise I Modulation/demodulation, bit error rate, error bounds, performance between modulation schemes I Receiver Structures I Correlator realization, matched filtering realization, orthonormal basis functions, Gram-Schmidt Orthogonalization I Multicarrier Data Transmission Techniques I Orthogonal frequency division multiplexing, cyclic extension, peak-to-average power ratio, adaptive power allocation, adaptive rate allocation I Spectrum Sensing and Identification I Energy detection, cyclostationary detection, dynamic spectrum access, electromagnetic spectrum characterization Professor Alexander M. Wyglinski ECE4305: Software-Defined Radio Systems and Analysis
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This note was uploaded on 01/13/2011 for the course ECE 4305 taught by Professor Wy during the Spring '10 term at WPI.

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ece4305_L01 - Introduction ECE4305: Software-Dened Radio...

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