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Course Criteria
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3.00 Credits
This course emphasizes learning algorithms and theory including concept, decision tree, neural network, comprtational, Bayesian, evolutionary, and reinforcement learning.
Prerequisite:
(MIME 4000 FOR LEVEL UG WITH MIN. GRADE OF D- AND MATH 2890 FOR LEVEL UG WITH MIN. GRADE OF D- AND EECS 2110 FOR LEVEL UG WITH MIN. GRADE OF D-)
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3.00 Credits
Foundational concepts in Computer Security: The CIA Triad, Authentication, Access Control, Least Privilege, Complete Mediation, Economy of Mechanism, Reference Monitors, Defensive Programming, Threats and Attacks, Network Security, Introduction to Cryptography, Database Security.
Prerequisite:
EECS 2110 FOR LEVEL UG WITH MIN. GRADE OF D- AND EECS 3540 FOR LEVEL UG WITH MIN. GRADE OF D-
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3.00 Credits
This course is an introduction to discovering vulnerabilities, attacking/defending systems, responding to attacks, and identifying/designing controls for attack prevention. Topics include the evolution of hacking, penetration testing; cryptology; footprinting; vulnerability scanning and exploit; wireless, web, and database attacks; traffic analysis; incident response; and defensive technologies and controls.
Prerequisite:
(EECS 2110 FOR LEVEL UG WITH MIN. GRADE OF C- AND EECS 4720 FOR LEVEL UG WITH MIN. GRADE OF C-) OR (EECS 5720 FOR LEVEL GR WITH MIN. GRADE OF C)
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4.00 Credits
Theory and practice of network security. Topics include firewalls, Windows, UNIX and TCP/IP network security. Security auditing, attacks, viruses, intrusion detection and threat analysis will also be covered.
Prerequisite:
EECS 4720 FOR LEVEL UG WITH MIN. GRADE OF D- OR EECS 5720 FOR LEVEL GR WITH MIN. GRADE OF C
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3.00 Credits
This course will cover the following topics: Assurance and Trust, VHDL, Hardware Security and Trust for Integrated Circuits, Physical Unclonable Functions (PUFs), FPGA Security and Testing, Hardware Obfuscation, Counterfeit Chip Detection, Hardware Trojans, Side Channel Attacks, Hardware Cryptography, Block Chain Technology for IC Supply Chain Protection
Prerequisite:
EECS 3100 FOR LEVEL UG WITH MIN. GRADE OF C-
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1.00 - 4.00 Credits
Pilot offerings of new courses involving emerging topics of interest are introduced using this number. One credit per lecture/recitation hour and/or 2.5 lab hours per week.
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1.00 - 4.00 Credits
Selected topics in electrical engineering or computer science and engineering. The instructor will specify the scope of the investigation and will meet regularly with the student(s). The study is expected to require an average of 3 hours student effort per week per credit.
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3.00 Credits
Introduction to the physical processes and composition of the Earth, including plate tectonics, internal structure, origin and classification of rocks and minerals, causes of geologic hazards such as earthquakes and volcanoes, surficial processes, water and natural resources, and geologic time. No credit if EEES2100 is taken. Natural sciences core course. Optional 1-credit lab, EEES 1020.
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1.00 Credits
Investigations of fundamental geological processes, the materials of the Earth, and geologic time. Identification of rocks and minerals. Interpretation of geologic features and processes from maps, aerial images and physical models. This lab supports the introductory geology courses EEES 1010, 1050 and 2100. Natural sciences lab core course.
Prerequisite:
EEES 1010 FOR LEVEL UG WITH MIN. GRADE OF D- (MAY BE TAKEN CONCURRENTLY) OR EEES 2100 FOR LEVEL UG WITH MIN. GRADE OF D- (MAY BE TAKEN CONCURRENTLY)
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3.00 Credits
Introduction to risk mitigation involving hazardous geological processes and materials: volcanic eruptions, earthquakes, floods, ground subsidence and collapse, radon, asbestos and others.
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