Engineering

The Engineering degree program gives students the option to pursue new areas of engineering and interdisciplinary combinations of engineering and other fields. Each student in the Engineering degree program designs a concentration that has depth, breadth, coherence, and rigor and also satisfies the Olin College graduation requirements. All paths to graduation with the Engineering degree provide for all outcomes required by the ABET General Criteria.

Students submit a plan of study when they declare a major. The plan lists the courses the student intends to take to fulfill graduation requirements, and demonstrates that these courses (along with additional required courses) constitute a major in engineering that has depth, breadth, coherence, and rigor.

A set of predefined concentrations in Bioengineering, Computing, Design, and Robotics are provided below. Students may design their plan of study using one of these predefined concentrations or may create a new concentration that addresses their own interests. Students may choose a name for their self-designed concentration. This concentration name appears on the diploma but not on the official transcript.

The plan of study must be signed by the student’s advisor and two faculty members whose area of expertise is relevant to the proposed area of study (if the advisor’s area is relevant, the advisor can count as one of the two).

Plans of study are reviewed by faculty from the Curriculum Working Group. This group is responsible for checking the following criteria:

  • Do the proposed courses constitute a major in Engineering that has breadth, depth, coherence and rigor?
  • Do the faculty who approved the plan have relevant expertise? Should other faculty be consulted?
  • Is the plan feasible based on a reasonable forecast of course offerings? The availability of faculty and other resources determines which classes are offered and their schedule, which may limit a student’s ability to complete a particular concentration.
  • Is the plan comparable to the sample concentrations and previous student-designed concentrations? If a student-designed concentration is named, is the proposed name accurate and appropriate?

All course plans go through the same review process whether they are modeled after one of the sample concentrations or self-designed. The plan of study is provisional. If approved and completed, a student may use it to graduate. Minor substitutions may be made with advisor approval; substantive changes require approval of the Curriculum Working Group.

Engineering: Bioengineering (E:Bio)

Bioengineering (also called Biomedical Engineering) is a broad field. As such, the concentration is meant to be an interdisciplinary one, rooted in engineering problem solving and a deep understanding of biology. Bioengineering subspecialties include areas such as medical devices, biomechanics, assistive technology, bioinformatics, cell and tissue engineering, neurotechnology, computational biology, drug delivery, medical imaging, and many more. The Engineering major with a concentration in Bioengineering (E:Bio) prepares students to approach problems important to biology, medical research, and clinical studies, regardless of the subspecialty they choose to pursue. Note that some students interested in Bioengineering will take Bioengineering-relevant courses while pursuing another concentration (i.e. Mechanical Engineering, Computing, or Electrical and Computer Engineering).

Students wishing to pursue the E:Bio concentration should develop a program of study in consultation with bioengineering faculty. As Bioengineering encompasses many subspecialties, students develop a course plan that supports their area of study. E:Bio course plans may include classes at Babson, Brandeis, Wellesley, or other institutions.

Some of the courses that may be included in an E:Bio course plan are listed below. Students must take at least 4 credits of advanced Math and advanced Biology in addition to at least 16 credits of relevant Bioengineering courses.

E:Bio Bioengineering

Sixteen credits of coursework appropriate to the Bioengineering program of study form the core of a BioE focus. These courses may have the designation of 36xx (the Bioengineering prefix) but do not need to do so. They do not all need to be ENGR courses; however all students do have to meet the minimum number of engineering credits required for graduation. Relevant SCI (advanced Biology, relevant Physics, Chemistry), Mechanical Engineering, Electrical Engineering, and Computing courses that build relevant skills can be used for certain Bioengineering subspecialties.

 

Example courses include, but are not limited to:

(note: courses not hyperlinked are offered at Wellesley College)

 

ENGR2330Introduction to Mechanical Prototyping

4 ENGR

ENGR2510Software Design

4 ENGR

ENGR3232Biomedical Device Design

4 ENGR

ENGR3260Design for Manufacturing

4 ENGR

ENGR3520Foundations of Computer Science

4 ENGR

ENGR3610Biomedical Materials

4 ENGR

ENGR3650Structural Biomaterials

4 ENGR

ENGR3699Special Topics in Bioengineering

Variable Credits ENGR

 

ENGR3635Neurotechnology, Brains and Machines

2 ENGR

MTH2135Neurotechnology, Brains and Machines

2 MTH

 

BISC303Bioinformatics

4 SCI

CS313Computational Biology

4 ENGR

E:Bio Advanced Biology

Four credits of advanced Biology appropriate to the program of study, examples include, but are not limited to:

(note: courses not hyperlinked are offered at Wellesley College)

SCI2210Immunology

4 SCI

SCI2214Microbial Diversity

4 SCI

SCI2215Emerging Technologies in Cancer Research, Diagnosis and Treatmt w/ Laboratory

4 SCI

SCI2299Special Topics in Biological Sciences

Variable Credits SCI

 

BISC203Comparative Physiology and Anatomy of Vertebrates with Laboratory

4 SCI

SCI2299 Special Topics in Biological Sciences offerings may be used as advanced biology by petition only (often the registration materials will specify if it will satisfy; otherwise students should petition to have it count via their plan of study).

E:Bio Math

A course in advanced Mathematics appropriate to the program of study, examples include, but are not limited to: 

MTH2110Discrete Math

4 MTH

MTH2131Data Science

2 MTH

MTH3120Partial Differential Equations

4 MTH

Engineering: Computing (E:C)

The Computing concentration integrates the study of computer science and software engineering within a broad interdisciplinary context. The E:C concentration offers significant flexibility, particularly with courses taken off-campus.

E:Computing - All of:

ENGR2510Software Design

4 ENGR

ENGR3525Software Systems

4 ENGR

AND

One of:

ENGR3515Data Structures and Algorithms

4 ENGR

ENGR3520Foundations of Computer Science

4 ENGR

 

or approved substitutions

E:Computing Electives

Eight additional credits in computing, examples include:

ENGR3220User Experience Design

4 ENGR

ENGR3410Computer Architecture

4 ENGR

ENGR3540Complexity Science

4 ENGR

ENGR3590A Computational Introduction to Robotics

4 ENGR

ENGR3599Special Topics in Computing

Variable Credits ENGR

advanced computer courses at Babson, Brandeis, Wellesley, or study away institutions by petition

E:Computing Math

MTH2110Discrete Math

4 MTH

Engineering: Design (E:D)

E:Design is an interdisciplinary concentration emphasizing synthesis, processes, and methods of practice that blends engineering and Arts, Humanities, Social Sciences, and Entrepreneurship (AHSE). The E: Design concentration prepares students to address important societal and environmental needs through design thinking.

E:Design students work closely with the design faculty at Olin to define individually customized programs of studies that meet Olin credit requirements. It remains the student’s responsibility to ensure that their program of study also meets the requirements for graduate programs or professional practice.

Courses used by a student to meet the Design General Requirements, such as the Design Depth requirement, may not simultaneously be used to meet the E:Design or E:Design Electives requirements.

E:Design Elective courses may be drawn from any area including AHSE, Engineering, Science, or Math. Students are strongly recommended to consider one or more AHSE courses to meet this requirement. Design Research may be accomplished through an Independent study course advised by design faculty. Design Research may count toward the E:Design requirement with approval by design faculty.

E:Design courses may be drawn from cross registration or study away institutions with prior approval by design faculty. Note that courses at design schools will often meet the E:Design Electives requirement and not the E:Design requirement.

All E:Design programs of study should be consistent with the student’s educational goals and must contain sufficient depth, breadth, coherence, and rigor. All programs of study must receive prior approval by design faculty.

All E:Design programs of study must fulfill the General Graduation Requirements.

E:Design

Eight credits of approved Intermediate or Advanced Design courses; four credits may be met by Design Research

E:Design Electives

Sixteen credits of approved coursework appropriate to the program of study

Engineering: Robotics (E:Robo)

Robotics is a multi-disciplinary field. A student may have a passion for the software, sensing, mechanics, controls or integration aspects of robotics. All of these are equally a part of the field of Robotics. Olin’s Robotics concentration deals with the design, construction, operation, and application of robots and computer systems including actuation, control, sensory feedback and information processing, integrating significant technology from multiple disciplines, with a focus on the fusion of electrical, software, and mechanical engineering.

Students wishing to pursue the E:Robo concentration within the Engineering major must develop a specific program of study in consultation with robotics faculty members. In addition, a plan of study should contain both a statement of goals – including an explanation of focus area – and enough course material to support these goals. Robotics faculty members are available to help develop appropriate course selections.

E:Robo - Software, One of:

Four credits of coursework in software

ENGR2510Software Design

4 ENGR

Substitutions for Software Design may be made in consultation with appropriate faculty and added to a students plan of study.

E:Robo - Mechanical, One of:

Four credits of coursework in mechanical engineering

ENGR2340Dynamics

4 ENGR

ENGR3370Controls

4 ENGR

or approved substitutions

Appropriate courses in mechanical engineering typically include ENGR2340, Dynamics, or ENGR3370, Controls.  Other mechanical engineering courses may be substituted if approved on a plan of study.

E:Robotics - One of:

Choose ENGR3390 or ENGR3590 based on a plan of study.

ENGR3390Fundamentals of Robotics

4 ENGR

ENGR3590A Computational Introduction to Robotics

4 ENGR

E:Robotics

ENGR3392Robotics Systems Integration

4 ENGR

E:Robo Elective

Four additional credits of related coursework

E:Robo Math - One of:

Four credits of advanced Mathematics appropriate to the program of study. 

MTH2110Discrete Math

4 MTH

MTH3120Partial Differential Equations

4 MTH

MTH3170Nonlinear Dynamics and Chaos

4 MTH

or approved substitutions