Courses
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ENG EC 777: Nanostructure Optics
Discussion of the fundamental physical aspects and device applications of optical fields confined and generated in nanoscale environments. Review of classical electrodynamics and angular spectrum representation of optical fields, classical and quantum models for light-matter interaction, light emission from semiconductor quantum dots and wires, surface-plasmon polaritons and sub-wavelength light transport/localization in metal nanostructures, slot waveguide structures, surface-enhanced Raman scattering (SERS) and SERS-based sensors, light scattering in complex photonic structures such as: metal-dielectric photonic crystals, fractal structrures, random lasers. -
ENG EC 782: RF/Analog IC Design - Advanced Applications
Selected topics in advanced RF/Analog integrated circuit design based on high frequency BiCMOS technology. Topics to be covered include oversampling (Sigma Delta) A/D converters, RF phase-locked loops, low voltage RF frequency synthesizers, printed circuit board design for RF applications, antennas and signal propagation, PCB filters, and other mixed-signal topics. The course will utilize selected readings from the technical literature, as well as a number of RF measurement and RF design lab assignments. -
ENG EC 892: Seminar: Electro-Physics
A weekly two-hour seminar on recent research topics in the area of electro-physics, including solid state materials and devices, photonics, electromagnetics, computers in physics, and other related areas. Speakers include faculty and graduate students in the area. -
ENG EC 900: Research
By petition only. Research carried out under the guidance of a faculty member. Variable cr. -
ENG EC 901: Thesis
By petition only. Preparation of an original MS thesis carried out under the guidance of a faculty member. Variable cr. -
ENG EC 910: Computer Engineering Design Project
By petition only. Specification and solution of a computer engineering design problem carried out under the guidance of a faculty member. A final report is required. Variable cr. -
ENG EC 911: Systems Design Project
By petition only. Specification and solution of a systems engineering design problem carried out under the guidance of a faculty member. A final report is required. Variable cr. -
ENG EC 913: Electrical Engineering Design Project
By petition only. Specification and solution of an electrical engineering design problem carried out under the guidance of a faculty member. A final report is required. Variable cr. -
ENG EC 914: Photonics Design Project
By petition only. Specification and solution of a Photonics problem carried out under the guidance of a faculty member. A final report is required. Variable cr. -
ENG EC 915: Computer Systems Engineering Team Project
The design and implementation of a significant computer systems engineering project. Teams of students utilize methods and computer-based tools acquired in the graduate degree program in the CSE area. Requires development of project specifications, plans, design, implementation, and the management of team dynamics. Oral and written communication of technical information. -
ENG EC 951: Independent Study
By petition only. Under faculty supervision, graduate students may study subjects not covered in a regularly scheduled course. A final report and/or written examination is required. Variable cr. -
ENG EC 991: Dissertation
By petition only. Preparation of an original PhD dissertation carried out under the guidance of a faculty member. Variable cr. -
ENG EK 100: Freshman Advising Seminar
This first-year experience course introduces students to Boston University,the College of Engineering, and the field of engineering. Students meet with faculty and student advisors and attend lectures to broaden their knowledge of the inner workings of the College and to gain a better understanding of engineering as a discipline and the ethical responsibilities of an engineer. Includes academic policies and special programs along with support services. -
ENG EK 102: Introduction to Linear Algebra for Engineers
Systems of linear equations and matrices. Vector spaces and linear transformation using matrix notation, determinants, and eigenvalues and eigenvectors. Examples drawn from engineering applications. Cannot be taken for credit in addition to CAS MA 142 or MA 242. -
ENG EK 127: Engineering Computation
An introduction to engineering problem solving using a modern computational environment. Basic procedural programming concepts include input/output, branching, looping, functions, file input/output, and data structures such as arrays and structures. An introduction to basic linear algebra concepts such as matrix operations and solving sets of equations. Introduction to numerical methods, for example least squares solutions and their use for curve fitting. Programming projects provided by all College of Engineering departments will reinforce these concepts and introduce engineering freshmen to the various disciplines. -
ENG EK 130: Introduction to Engineering
Introduction to engineering analysis and/or design offered by participating engineering faculty. Course presents students with key concepts and techniques relevant to an applied area of engineering. Limited to freshmen and sophomores (students with less than 64 credits toward degree requirements). 4 cr, either sem. -
ENG EK 131: Introduction to Engineering
Introduction to engineering analysis and/or design through a sequence of two modules or minicourses chosen from a selection of modules offered by participating engineering faculty. Each module presents students with key concepts and techniques relevant to an applied area of engineering. Limited to freshmen and sophomores (students with less than 64 credits toward degree requirements). 2 cr, either sem. -
ENG EK 132: Introduction to Engineering
Introduction to engineering analysis and/or design through a sequence of two modules or minicourses chosen from a selection of modules offered by participating engineering faculty. Each module presents students with key concepts and techniques relevant to an applied area of engineering. Limited to freshmen and sophomores (students with less than 64 credits toward degree requirements). 2 cr, either sem. -
ENG EK 156: Design and Manufacture
Introduction to design and processing steps required in manufacturing. Specialized project involving the design, scheduling, budgeting, and building a project selected by the student with the consent of the instructor. Includes lab. -
ENG EK 280: Technology and Society
Examination of technology as a fundamental element of and driving force in our culture. Balanced understanding of the promises, consequences, and dilemmas brought about by specific technologies. Opportunity to improve critical thinking abilities and to broaden perspectives and sense of responsibility of new professionals as they become involved in decisions related to technology. ENG EK 280 (for engineering students) meets with CAS SO 277 (for non-engineering students) and fulfills 4 credit hours of social science elective as a sociology course. The course cannot be used as a core elective.
Note that this information may change at any time.

