Skip Ribbon Commands
Skip to main content
   YU Faculty Websites>>  Dr. Asma A. Alqudah Sign In
Use SHIFT+ENTER to open the menu (new window).
CME 456
Communication systems
Mobile communication systems
Special topics in communications CME 596
The goal of this course is to familiarize students with some selected topics in the context of Telecommunications Engineering. Topics discussed in this class include: Waveform coding, structured sequences, redundancy, linear block codes, vector spaces, error correction, Hamming codes, convolutional coding, the trellis diagram, the Viterbi convolutional decoding, modulation and coding-tradeoffs, power- and bandwidth-limited systems, synchronization, and diversity combining.
2016, 2017, 2020
Analog Communication Systems CME 450
This course is mandatory for nonmajor students. It introduces the students to the fundamentals and basics of analog and digital communications systems. The course covers the following topincs; review of signals and Fourier analysis, amplitude modulation (AM) and detection, frequency modulation (FM), phase modulation (PM), demodulation of FM and PM signals, Noise in AM, FM and PM systems, Pulse amplitude modulation, pulse code modulation, Time division multiplexing.
2016, 2017, 2018, 2020
Signals and Systems
Continuous and discrete time signals and systems, continuous and discrete time convolution, continuous and discrete LTI systems, Fourier analysis for continuous-time signals, properties and applications of Fourier Transform, Laplace Transform and z-Transform.
Engineering Analysis Methods CME 216
Vectors and scalars (net force analysis, acceleration, velocity, energy, volume and liquid flow, orthogonal coordinate systems), Fourier series, various types of differential equations encountered in physical systems (wave, heat and Laplace equations), separation of variables (rectangular and circular waveguides), solution by Fourier and Laplace transforms (electrical circuits), basic complex variables, Stokes’ and Green's theorems, surface and volume integrals, stability system analysis (divergence and conservative fields).
2018, 2019, 2020