Courses
View courses in
-
ENG BE 791: PhD Biomedical Engineering Laboratory Rotation System
This course allows PhD students to take part in a laboratory rotation system. During these rotations, students become familiar with research activity within departmental laboratories that are of interest to them. These rotations help students identify the laboratory in which they will perform their dissertation research. Postbachelor's PhD students must complete three rotations: one in their first semester of matriculation, and two in their second semester. Post-master's PhD students must complete a minimum of two rotations, one of which must be in their first semester of matriculation. Normally each rotation will last up to seven weeks. -
ENG BE 792: Critical Literature Review
Peer-reviewed publications in the area of biomedical engineering will be critically evaluated. Scientific ethics and the process of review and publication of manuscripts will be discussed. The classes will be a mix of didactic information and group discussion. Methodological issues covered will include study design, techniques used, and interpretation of research findings. Students completing this course will understand the principles underlying preparation and publication of scientific manuscripts and will be able to apply these principles as they read the scientific literature. 2 cr. -
ENG BE 801: Teaching Practicum
This course cannot be used to meet the structured course requirements. Practical teaching experience for an assigned course, includes some combination of running discussion sections, managing laboratory sections, providing some lectures, preparing homework and solution sets, exams, and grading. Attend lectures/seminars on best teaching practices. -
ENG BE 900: Research
Participation in a research project under the direction of a faculty advisor. Includes research leading to the development of an MS thesis proposal or PhD prospectus, as well as the work necessary to generate an original MS thesis or PhD dissertation. -
ENG BE 901: Thesis/Prospectus
Preparation of an original MS thesis and/or PhD prospectus under the guidance of a faculty advisor. Students should enroll for this course during the semester they intend to complete and present this document. -
ENG BE 951: Independent Study
A course of reading under the direction of a faculty advisor covering subject matter not available in a lecture course. Final report or examination normally required. -
ENG BE 991: Dissertation Research
Research performed on the dissertation topic. -
ENG BF 501: Masters Project
-
ENG BF 502: Masters Project
-
ENG BF 527: Applications in Bioinformatics
The field of bioinformatics is concerned with the management and analysis of large biological datasets (such as the human genome) for the purpose of improving our understanding of complex living systems. This course introduces graduate students and upper-level undergraduate students to the core problems in bioinformatics, along with the databases and tools that have been developed to study them. Computer labs emphasize the acquisition of practical bioinformatics skills for use in students research. Familiarity with basic molecular biology is a prerequisite; no prior programming knowledge is assumed. Specific topics will include the analysis of biological sequences, structures, and networks. E-mail questions to the instructors, Eric Franzosa (franzosa@bu.edu) and Jignesh Parikh (jparikh@bu.edu). -
ENG BF 541: Bioinformatics Internship
Internships provide the bridge between classroom/laboratory study and “real-world” employment. Each student must complete an internship with a minimum of 400 hours of on-the-job experience (e.g., 10 weeks full-time work in the summer). The format is very flexible, and part-time internships running concurrently with classes or employment are acceptable. Students must consult with their academic advisor to assess the suitability of a proposed internship. -
ENG BF 778: Physical Chemistry for Systems Biology
This course introduces students to quantitative modeling in bioinformatics and systems biology. We begin with basic principles of statistical thermodynamics, chemical kinetics, with selected applications in biomolecular systems. Next we describe molecular driving forces in biology, and computation with biomolecular structures. Finally we discuss quantitative models of biomolecular networks, and design principles of biological circuits. -
ENG BF 810: Phd Lab Rotat'N
-
ENG BF 820: Bioinfo Opps
-
ENG BF 821: Bioinformatics Graduate Seminar
TBA -
ENG BF 900: Res Bioinfo
-
ENG BF 901: Thesis Bioinfo
-
ENG EC 311: Introduction to Logic Design
Introduction to hardware building blocks used in digital computers. Boolean algebra, combinatorial and sequential circuits: analysis and design. Adders, multipliers, decoders, encoders, multiplexors. Programmable logic devices: read-only memory, programmable arrays, FRGAs, Verilog. Counters and registers. Includes lab. 4 cr, -
ENG EC 327: Introduction to Software Engineering
This course aims to introduce students to software design, programming techniques, data structures, and software engineering principles. The course is structured bottom up, beginning with basic hardware followed by an understanding of machine language that controls the hardware and the assembly language that organizes that control. It then proceeds through fundamental elements of functional programming languages, using C as the case example, and continues with the principles of object-oriented programming, as principally embodied in C++ but also its daughter languages Java, C#, and objective C. The course will conclude with an introduction to elementary data structures and algorithmic analysis. Throughout, the course develops core competencies in software engineering, including programming style, optimization, debugging, compilation, and program management, utilizing a variety of Integrated Development Environments and operating systems. 4 cr. -
ENG EC 330: Applied Algorithms for Engineers
Introduction to the general concept of algorithms. Efficiency and run-time of algorithms. Graph algorithms, priority queues, search trees. Various approaches to design of algorithms and data structures, together with their applications to numerical and non-numerical problems. 4 cr.
Note that this information may change at any time.

