to view the 2005-2007 Undergraduate Catalog. - Lawrence ...
to view the 2005-2007 Undergraduate Catalog. - Lawrence ...
to view the 2005-2007 Undergraduate Catalog. - Lawrence ...
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C OLLEGE OF E NGINEERING<br />
EEE5264 ADVANCED<br />
MICROPROCESSORS<br />
Prerequisite: Graduate standing<br />
or department approval. Design<br />
and applications microcomputers.<br />
Topics include: 16 bit vs. 32 bit<br />
processor organization, controller<br />
design, I /O port interfacing,<br />
memory structure, addressing<br />
methods, keyboard and display<br />
interface, and hardware arithmetic<br />
functions. Design and interface<br />
considerations for peripheral and<br />
interrupt devices. Lect. 4 hrs.<br />
4 hours credit<br />
EEE5274 IMAGE<br />
PROCESSING<br />
Prerequisite: Graduate standing<br />
or department approval. Image<br />
understanding, image enhancement<br />
and res<strong>to</strong>ration, image<br />
encoding design, feature extraction,<br />
image interpretation, object<br />
recognition and applications.<br />
Lect. 4 hrs. 4 hours credit<br />
EEE5284 PARALLEL<br />
ARCHITECTURES<br />
Prerequisite: Graduate standing<br />
or department approval. In-depth<br />
study of <strong>the</strong> design, engineering,<br />
and evaluation of modern parallel<br />
computers. Fundamental design,<br />
naming, synchronization, latency,<br />
and bandwidth. Architectural evolution<br />
and technological driving<br />
forces. Parallel programming<br />
models and communication primitives.<br />
Lect. 4 hrs. 4 hours credit<br />
EEE5324 NETWORK<br />
SYNTHESIS<br />
Prerequisite: Graduate standing<br />
or department approval. Network<br />
functions, filters, normalization,<br />
magnitude approximation, phase<br />
approximation, time-domain considerations,<br />
sensitivity. Properties<br />
and syn<strong>the</strong>sis of LC driving point<br />
functions, properties of transfer<br />
functions, syn<strong>the</strong>sis of transfer<br />
functions. Single amplifier filters,<br />
op-amp parasitics, state-variable<br />
filters, universal active filter, biquadratic<br />
filters, active networks<br />
for direct realization, switched<br />
capaci<strong>to</strong>r filters. Lect. 4 hrs.<br />
4 hours credit<br />
EEE5354 ANALOG<br />
INTEGRATED<br />
CIRCUIT DESIGN<br />
Prerequisite: Graduate standing<br />
or department approval. Analysis<br />
and design of monolithic operational<br />
amplifiers and wide-band<br />
amplifiers. Methods of achieving<br />
wide-band amplification, gain<br />
band-width considerations, analysis<br />
of noise, and low-noise design.<br />
Precision passive elements; analog<br />
switches, amplifiers, and compara<strong>to</strong>rs;<br />
parallel analog-<strong>to</strong>-digital<br />
converters. Switched capaci<strong>to</strong>r<br />
and CCD filters, applications,<br />
and case studies. Lect. 4 hrs.<br />
4 hours credit<br />
EEE5364 COMPUTER<br />
NETWORKING<br />
Prerequisite: Graduate standing<br />
or department approval.<br />
Advanced treatment of <strong>the</strong><br />
following: OSI model, TCP/IP<br />
encoding and modulation, transmission<br />
and signals of digital<br />
data; interfaces and modems,<br />
transmission media, multiplexing,<br />
error detection and correction,<br />
data link control and pro<strong>to</strong>cols,<br />
LANS/MANS/VLANS/VPNS,<br />
switching. point-<strong>to</strong>-point pro<strong>to</strong>col<br />
(PPP), network security, hardware<br />
including: ISDN; X.25; frame<br />
relay; ATM; SONET/SDH.<br />
Lect. 4 hrs. 4 hours credit<br />
EEE5444 DIGITAL<br />
COMMUNICATIONS<br />
Prerequisite: Graduate standing<br />
or department approval. Design<br />
of baseband and passband digital<br />
communication systems.<br />
Modulation techniques including<br />
PAM, QAM, PSK, FSK, and<br />
spread spectrum. Optimal demodulation<br />
techniques and <strong>the</strong>ir performance.<br />
Analysis evaluation,<br />
and design of integrated circuits<br />
for communication applications.<br />
Lect. 4 hrs. 4 hours credit<br />
EEE5524 MODERN<br />
CONTROL SYSTEMS<br />
Prerequisite: Graduate standing<br />
or department approval. State<br />
space realization of transfer functions,<br />
canonical forma, fundamental<br />
and state transition matrices,<br />
introduction <strong>to</strong> optimal control,<br />
quadratic performance indices,<br />
observers, Liapunov stability <strong>the</strong>ory.<br />
Lect. 4 hrs. 4 hours credit<br />
EEE5534 DIGITAL<br />
CONTROL SYSTEMS<br />
Prerequisite: Graduate standing<br />
or department approval. Discrete<br />
time ma<strong>the</strong>matics, Z transforms,<br />
sampling rates, zero and first<br />
order hold, time delays, system<br />
stability, continuous and discrete<br />
time system interfacing, computer<br />
control implementation concepts,<br />
state space realization. Lect. 4 hrs.<br />
4 hours credit<br />
EEE5554 APPLICATIONS OF<br />
ARTIFICIAL INTELLIGENCE<br />
Prerequisite: Graduate standing<br />
or department approval. System<br />
design using AI methods; AI programming<br />
languages, intelligent<br />
vision and imaging systems, data<br />
base search methods, logic and<br />
deduction using predicate calculus.<br />
Expert system design with<br />
applications <strong>to</strong> robots. Lect. 4 hrs.<br />
4 hours credit<br />
EEE5564 INTERFACING AND<br />
CONTROL OF ROBOTS<br />
Prerequisite: Graduate standing or<br />
department approval. Shaft<br />
encoders, actua<strong>to</strong>rs, robot coordinate<br />
systems, kinematics, path<br />
control, sensors, robot vision,<br />
design of robot interfaces.<br />
Lect. 4 hrs. 4 hours credit<br />
EEE5614 COMPUTER-AIDED<br />
DESIGN OF INTEGRATED<br />
CIRCUITS<br />
Prerequisite: Graduate standing<br />
or department approval. Design,<br />
simulation, layout techniques,<br />
syn<strong>the</strong>sis, verification, and testing<br />
of digital integrated circuits using<br />
hardware description languages.<br />
FPGA design and timing verification.<br />
Lect. 4 hrs. 4 hours credit<br />
EEE5624 VLSI DESIGN<br />
Prerequisite: Graduate standing<br />
or department approval.<br />
Specification of MOSFETS and<br />
CMOS, IC fabrication, mask<br />
design, semi-cus<strong>to</strong>m and full-cus<strong>to</strong>m<br />
designs, application-specific<br />
integrated circuit design, and system<br />
design. Specific integrated<br />
circuit design, design rules, and<br />
case studies. Lect. 4 hrs.<br />
4 hours credit<br />
EEE5634 OPTICAL SYSTEMS<br />
ENGINEERING<br />
Prerequisite: Graduate standing<br />
or department approval.<br />
Maxwell’s equations, geometrical<br />
and physical optics, optical components.<br />
Gaussian beams. Fourier<br />
transforming properties of lenses.<br />
Properties of Lasers, LEDs, and<br />
detec<strong>to</strong>rs. Design of emitter and<br />
detec<strong>to</strong>r circuits. Design of free<br />
space and optical fiber systems.<br />
Lect. 4 hrs. 4 hours credit<br />
EEE5654 DIGITAL SIGNAL<br />
PROCESSING<br />
Prerequisite: Graduate standing<br />
or department approval. Sampling<br />
<strong>the</strong>ory and sampling hardware, Z<br />
transform, architecture of VLSI<br />
digital signal processors. Design<br />
and implementation of real time<br />
polynomial, FIR, IIR, and adaptive<br />
filters, spectral analysis with<br />
FFT. Design of DSP application in<br />
communication and digital control.<br />
Lect. 4 hrs. 4 hours credit<br />
EEE5784 COMMUNICATION<br />
CIRCUITS<br />
Prerequisite: Graduate standing<br />
or department approval.<br />
Transmitters and receivers. Smallsignal,<br />
high-frequency, and power<br />
amplifiers. Network noise and dis<strong>to</strong>rtion.<br />
Hybrid and transmissionline<br />
transformers. Oscilla<strong>to</strong>rs.<br />
Phase-locked loops. Modula<strong>to</strong>rs<br />
and demodula<strong>to</strong>rs. Lect. 4 hrs.<br />
4 hours credit<br />
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