Timeroom: Fall 2021

Displaying 261 - 270 of 1164 Results for: Level = All Graduate
Durham   Engineering&Physical Sciences :: Electrical&Comp Engineering

ECE 815 (01) - Introduction to VLSI

Introduction to VLSI

Credits: 4.0
Term: Fall 2021 - Full Term (08/30/2021 - 12/13/2021)
Grade Mode: Letter Grading
Class Size:   5  
CRN: 16069
Principles of VLSI (Very Large Scale Integration) systems at the physical level. CMOS circuit and logic design, CAD tools, CMOS system case studies. Students exercise the whole development cycle of a VLSI chip: design and layout with the up-to-date commercial EDA tools. An IA (continuous grading) grade is given at the end of semester I.
You must sign up in the Dept Office before registering through WEBCAT.
Equivalent(s): EE 815
Instructors: MD Shaad Mahmud
Start Date End Date Days Time Location
8/30/2021 12/13/2021 TR 3:40pm - 5:00pm KING N101
8/30/2021 12/13/2021 F 5:10pm - 7:00pm KING S324
Durham   Engineering&Physical Sciences :: Electrical&Comp Engineering

ECE 857 (01) - Fundamentals of Communication Systems

Fundmtls Communication Systems

Credits: 4.0
Term: Fall 2021 - Full Term (08/30/2021 - 12/13/2021)
Grade Mode: Letter Grading
Class Size:   2  
CRN: 12116
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
8/30/2021 12/13/2021 MWF 9:10am - 10:00am KING N343
8/30/2021 12/13/2021 T 3:40pm - 6:00pm KING S316
Durham   Engineering&Physical Sciences :: Electrical&Comp Engineering

ECE 857 (02) - Fundamentals of Communication Systems

Fundmtls Communication Systems

Credits: 4.0
Term: Fall 2021 - Full Term (08/30/2021 - 12/13/2021)
Grade Mode: Letter Grading
Class Size:   2  
CRN: 10836
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
8/30/2021 12/13/2021 MWF 9:10am - 10:00am KING N343
8/30/2021 12/13/2021 R 2:10pm - 4:30pm KING S316
Durham   Engineering&Physical Sciences :: Electrical&Comp Engineering

ECE 857 (03) - Fundamentals of Communication Systems

Fundmtls Communication Systems

Credits: 4.0
Term: Fall 2021 - Full Term (08/30/2021 - 12/13/2021)
Grade Mode: Letter Grading
Class Size:   2  
CRN: 13641
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
8/30/2021 12/13/2021 MWF 9:10am - 10:00am KING N343
8/30/2021 12/13/2021 M 1:10pm - 3:00pm KING S316
Durham   Engineering&Physical Sciences :: Electrical&Comp Engineering

ECE 875 (01) - Applications of Integrated Circuits

Appl of Integrated Circuits

Credits: 4.0
Term: Fall 2021 - Full Term (08/30/2021 - 12/13/2021)
Grade Mode: Letter Grading
Class Size:   4  
CRN: 13408
Design and construction of linear and nonlinear electronic circuits using existing integrated circuits. Limitations and use of operational amplifiers. Laboratory course in practical applications of non-digital integrated circuit devices. Lab.
You must sign up in the Dept Office before registering through WEBCAT.
Equivalent(s): EE 875
Instructors: John LaCourse
Start Date End Date Days Time Location
8/30/2021 12/13/2021 W 1:10pm - 2:00pm KING N113
8/30/2021 12/13/2021 W 2:10pm - 5:00pm KING S220
Durham   Engineering&Physical Sciences :: Electrical&Comp Engineering

ECE 896 (01) - Special Topics in Electrical or Computer Engineering

Spc Top/Syst Design&Data Anlys

Can be taken by students who are remote.
Credits: 4.0
Term: Fall 2021 - Full Term (08/30/2021 - 12/13/2021)
Grade Mode: Letter Grading
Class Size:   10  
CRN: 11663
New or specialized courses and/or independent study. Some sections may use credit/fail grading.
Section Comments: Full Title: Internet of Smart Things ? System Design and Data Analysis
You must sign up in the Dept Office before registering through WEBCAT.
Equivalent(s): EE 896
Instructors: Diliang Chen
Start Date End Date Days Time Location
8/30/2021 12/13/2021 MWF 11:10am - 12:00pm PETT 114
8/30/2021 12/13/2021 R 6:10pm - 7:00pm KING S324
Additional Course Details: 

Course Description:

Internet of Things (IoT) has migrated from hype to the mainstream. It is a key technology to enable digital transformation which has significant impacts on almost all aspects of human life. Organizations and industries require data to be gathered from objects and value and insight to be extracted from the data. This course aims to provide a hands-on experience to the design of IoT systems for sensor data acquisition and Artificial Intelligence (AI) algorithms for sensor data analysis. This course will provide an introduction to cutting-edge technologies in the aspects of IoT systems and AI algorithms, including IoT architecture, sensors, low-power wireless technologies, AI for IoT, and IoT security. This course will help you gain access to new opportunities in the job market and equip you with new data acquisition and analysis methods for your research.

Topics Covered:

  • Introduction to the applications of IoT
  • IoT architecture and core IoT modules
  • Sensors, endpoints, and power systems
  • Low-power wireless technologies
  • AI for IoT
  • IoT security

What You Will Learn:

  • What the IoT is, how it works, and what it can do.
  • How to design an IoT system for sensor data acquisition.
  • How to collect sensor data from IoT devices in the Cloud.
  • How to make the IoT systems smarter with AI algorithms.
Durham   Engineering&Physical Sciences :: Electrical&Comp Engineering

ECE 899 (01) - Master's Thesis

Master's Thesis

Credits: 1.0 to 6.0
Term: Fall 2021 - Full Term* (08/30/2021 - 12/13/2021)
Grade Mode: Graduate Credit/Fail grading
Class Size:   20  
CRN: 10837
May be repeated up to a maximum of 6 credits. Cr/F.
Repeat Rule: May be repeated for a maximum of 6 credits.
Equivalent(s): EE 899
Instructors: STAFF
Start Date End Date Days Time Location
8/30/2021 12/13/2021 Hours Arranged TBA
Durham   Engineering&Physical Sciences :: Electrical&Comp Engineering

ECE 899 (02) - Master's Thesis

Master's Thesis

Credits: 1.0 to 6.0
Term: Fall 2021 - Full Term* (08/30/2021 - 12/13/2021)
Grade Mode: Graduate Credit/Fail grading
Class Size:   5  
CRN: 15946
May be repeated up to a maximum of 6 credits. Cr/F.
Repeat Rule: May be repeated for a maximum of 6 credits.
Equivalent(s): EE 899
Instructors: Edward Song
Start Date End Date Days Time Location
8/30/2021 12/13/2021 Hours Arranged TBA
Durham   Engineering&Physical Sciences :: Electrical&Comp Engineering

ECE 899 (03) - Master's Thesis

Master's Thesis

Credits: 1.0 to 6.0
Term: Fall 2021 - Full Term* (08/30/2021 - 12/13/2021)
Grade Mode: Graduate Credit/Fail grading
Class Size:   10  
CRN: 16364
May be repeated up to a maximum of 6 credits. Cr/F.
Repeat Rule: May be repeated for a maximum of 6 credits.
Equivalent(s): EE 899
Instructors: Kent Chamberlin
Start Date End Date Days Time Location
8/30/2021 12/13/2021 Hours Arranged TBA
Durham   Engineering&Physical Sciences :: Electrical&Comp Engineering

ECE 899 (04) - Master's Thesis

Master's Thesis

Credits: 1.0 to 6.0
Term: Fall 2021 - Full Term* (08/30/2021 - 12/13/2021)
Grade Mode: Graduate Credit/Fail grading
Class Size:   10  
CRN: 16365
May be repeated up to a maximum of 6 credits. Cr/F.
Repeat Rule: May be repeated for a maximum of 6 credits.
Equivalent(s): EE 899
Instructors: Nicholas Kirsch
Start Date End Date Days Time Location
8/30/2021 12/13/2021 Hours Arranged TBA