Timeroom: Fall 2020

Displaying 1 - 7 of 7 Results for: Subject = ECE; Level = All Graduate; Attributes = EUNH
Durham   Engineering&Physical Sciences :: Electrical&Comp Engineering

ECE 814 (1SY) - Introduction to Digital Signal Processing

Intro Digital Signal Process

Course Delivery Method: Scheduled meeting time, Online (no campus visits), EUNH
Credits: 4.0
Term: Fall 2020 - Full Term (08/31/2020 - 12/11/2020)
Class Size:   19  
CRN: 10980
Introduction to digital signal processing theory and practice, including coverage of discrete time signals and systems, frequency domain transforms and practical spectral analysis, digital filter terminology and design, and sampling and reconstruction of continuous time signals. Laboratory component providing an introduction to DSP design tools and algorithm implementation. Lab.
You must sign up in the Dept Office before registering through WEBCAT.
Equivalent(s): EE 814
Instructors: Wayne Smith
Start Date End Date Days Time Location
8/31/2020 12/11/2020 Hours Arranged ONLINE
8/31/2020 12/11/2020 T 2:10pm - 3:00pm ONLINE
Durham   Engineering&Physical Sciences :: Electrical&Comp Engineering

ECE 857 (1SY) - Fundamentals of Communication Systems

Fundmtls Communication Systems

Course Delivery Method: Scheduled meeting time, Online (no campus visits), EUNH
Credits: 4.0
Term: Fall 2020 - Full Term (08/31/2020 - 12/11/2020)
Class Size:   2  
CRN: 12551
Spectra of deterministic and random signals, baseband and bandpass digital and analog signaling techniques, transmitter and receiver architectures, performing analysis of digital and analog signaling in additive noise channels, carrier and symbol timing synchronization methods. Lab.
You must sign up in the Dept Office before registering through WEBCAT.
Equivalent(s): EE 857
Instructors: Nicholas Kirsch
Start Date End Date Days Time Location
8/31/2020 12/11/2020 MWF 9:10am - 10:00am ONLINE
8/31/2020 12/11/2020 T 3:40pm - 6:00pm ONLINE
Durham   Engineering&Physical Sciences :: Electrical&Comp Engineering

ECE 857 (2SY) - Fundamentals of Communication Systems

Fundmtls Communication Systems

Course Delivery Method: Scheduled meeting time, Online (no campus visits), EUNH
Credits: 4.0
Term: Fall 2020 - Full Term (08/31/2020 - 12/11/2020)
Class Size:   2  
CRN: 10981
Spectra of deterministic and random signals, baseband and bandpass digital and analog signaling techniques, transmitter and receiver architectures, performing analysis of digital and analog signaling in additive noise channels, carrier and symbol timing synchronization methods. Lab.
You must sign up in the Dept Office before registering through WEBCAT.
Equivalent(s): EE 857
Instructors: Nicholas Kirsch
Start Date End Date Days Time Location
8/31/2020 12/11/2020 MWF 9:10am - 10:00am ONLINE
8/31/2020 12/11/2020 R 2:10pm - 4:30pm ONLINE
Durham   Engineering&Physical Sciences :: Electrical&Comp Engineering

ECE 857 (3SY) - Fundamentals of Communication Systems

Fundmtls Communication Systems

Course Delivery Method: Scheduled meeting time, Online (no campus visits), EUNH
Credits: 4.0
Term: Fall 2020 - Full Term (08/31/2020 - 12/11/2020)
Class Size:   2  
CRN: 14529
Spectra of deterministic and random signals, baseband and bandpass digital and analog signaling techniques, transmitter and receiver architectures, performing analysis of digital and analog signaling in additive noise channels, carrier and symbol timing synchronization methods. Lab.
You must sign up in the Dept Office before registering through WEBCAT.
Equivalent(s): EE 857
Instructors: Nicholas Kirsch
Start Date End Date Days Time Location
8/31/2020 12/11/2020 MWF 9:10am - 10:00am ONLINE
8/31/2020 12/11/2020 M 1:10pm - 3:00pm ONLINE
Durham   Engineering&Physical Sciences :: Electrical&Comp Engineering

ECE 900A (1ON) - Research and Development from Concept to Communication I

R&D Concept to Communication 1

Course Delivery Method: Online (no campus visits), EUNH
Credits: 2.0
Term: Fall 2020 - Full Term (08/31/2020 - 12/11/2020)
Class Size:   20  
CRN: 14014
The course will introduce students to the general tools of scientific research and technical development. The course will also introduce students to tools and practices for reading, writing and reviewing documents that describe completed or proposed scientific research and technical development, as well as tools and practices for giving oral presentations about such documents to different types of audiences. Part one of a two course sequence.
You must sign up in the Dept Office before registering through WEBCAT.
Repeat Rule: May be repeated for a maximum of 4 credits.
Equivalent(s): ECE 900
Instructors: Richard Messner
Start Date End Date Days Time Location
8/31/2020 12/11/2020 Hours Arranged ONLINE
Durham   Engineering&Physical Sciences :: Electrical&Comp Engineering

ECE 920 (1ON) - Wireless Communication Systems

Wireless Communication Systems

Course Delivery Method: Online (no campus visits), EUNH
Credits: 3.0
Term: Fall 2020 - Full Term (08/31/2020 - 12/11/2020)
Class Size:   20  
CRN: 15929
Principles of wireless communication systems including analysis of radio wave propagation and modeling, large scale and small scale signal fading, cellular communication architectures, multi-access systems, advanced modulation techniques, signal diversity systems, multiple antenna communications, cognitive radio, and software defined radio.
You must sign up in the Dept Office before registering through WEBCAT.
Instructors: Nicholas Kirsch
Start Date End Date Days Time Location
8/31/2020 12/11/2020 Hours Arranged ONLINE
Durham   Engineering&Physical Sciences :: Electrical&Comp Engineering

ECE 951 (1SY) - Advanced Control Systems I

Advanced Control Systems I

Course Delivery Method: Scheduled meeting time, Online (no campus visits), EUNH
Credits: 3.0
Term: Fall 2020 - Full Term (08/31/2020 - 12/11/2020)
Class Size:   9  
CRN: 17141
State-space representation of multivariable systems, analysis using state transition matrix. Controllability and observability, pole placement using state and output feedback, Luenberger observers. Introduction to computer-controlled systems (sampling, discrete state representation, hybrid systems), nonlinear analysis (Liapunov, Popov, describing function). (Also offered as ME 951.)
You must sign up in the Dept Office before registering through WEBCAT.
Equivalent(s): EE 951, ME 951
Instructors: May-Win Thein
Start Date End Date Days Time Location
8/31/2020 12/11/2020 TR 3:40pm - 5:00pm ONLINE