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Continuation of E&C-ENG 415. Design of small electronic system built, refined, tested, and demonstrated. Final prototype shown to meet initial specifications. Final design review. Prerequisite: E&C-ENG 415.

This course will introduce students to the notion of waves through the context of transmission lines and electromagnetic propagation in simple unbounded media, and also introduce the theory of electromagnetism and electromagnetic fields and waves and their interaction with simple media and structures. The course includes the following topics: Transmission lines modeled as distributed circuits; introduction to one dimensional waves and the wave equation; wave velocity. Time-harmonic representation of waves and Helmholtz equation; wavelength and wavenumber.

This course explores the principles of computer networking and how the theoretical principles are implemented in practice. Introduction to concepts, principles, and practice of computer communication networks and the Internet with examples from existing architectures, protocols and standards. Emphasis on physical layer communication, data link layer protocols, routing protocols, transport layer protocols, application layer programming, network management, network security and wireless networks.
Prerequisites: E&C-ENG 122 (or CMPSCI 121) & E&C-ENG 242 (or CMPSCI 187)

This course will introduce students to the notion of waves through the context of transmission lines and electromagnetic propagation in simple unbounded media, and also introduce the theory of electromagnetism and electromagnetic fields and waves and their interaction with simple media and structures. The course includes the following topics: Transmission lines modeled as distributed circuits; introduction to one dimensional waves and the wave equation; wave velocity. Time-harmonic representation of waves and Helmholtz equation; wavelength and wavenumber.

Overview of the electrical and computer engineering field, including introduction to various subdisciplines and the corresponding upper-level ECE courses.

In-depth examination of semiconductor devices. The physics of semiconductors, p-n junction diodes, bipolar transistors, Schottky barriers, JFETs, MFSFETs, MIS diodes, CCDs, and MOSFETs. Prerequisite: E&C-Eng 344, or introductory semiconductor theory course.

Unified treatment of techniques for representation of signals and signal processing operations. Emphasis on physical interpre-tation of vector spaces, linear operators, transform theory, and digital signal processing with wavelet filter banks. Prerequisite: graduate standing.

Waveform coding, source coding and data compression. Pulse modulation systems: signal spaces, optimal receivers, probability of error. Baseband and bandpass data transmission. Introduction to channel coding. Prerequisite: E&C-ENG 563.