ENG Declare a Concentration Name(Required) First Last Email(Required) BU ID #(Required) Major(Required)Biomedical EngineeringComputer EngineeringElectrical EngineeringMechanical EngineeringExpected Graduation Date(Required) MonthJanuaryMayAugust Year Concentration(Required)--Aerospace EngineeringEnergy Technologies and SustainabilityMachine LearningManufacturing EngineeringNanotechnologyRoboticsTechnology InnovationAerospace EngineeringPlease note: In addition to the required courses a concentration in Aerospace requires an Experiential Component. Aerospace Concentration DetailsPlease confirm you have read the requirements for the concentration.(Required) Elective 1(Required)--ENG ME 403 – Atmospheric Flight Mechanics and ControlENG ME 406 – Dynamics of SpaceflightENG ME 408 – Aircraft Performance & DesignENG ME 409 - Structural MechanicsENG ME 421 – AerodynamicsENG ME 425 – Compressible Flow & PropulsionENG ME 441 – Mechanical VibrationENG ME 515 – Vibration of Complex Mechanical Systems (requires ENG ME441 as a prerequisite)CAS AS 414 – Solar and Space PhysicsElective 2(Required)--ENG ME 403 – Atmospheric Flight Mechanics and ControlENG ME 406 – Dynamics of SpaceflightENG ME 408 – Aircraft Performance & DesignENG ME 409 - Structural MechanicsENG ME 421 – AerodynamicsENG ME 425 – Compressible Flow & PropulsionENG ME 441 – Mechanical VibrationENG ME 515 – Vibration of Complex Mechanical Systems (requires ENG ME441 as a prerequisite)CAS AS 414 – Solar and Space PhysicsElective 3(Required)--ENG ME 403 – Atmospheric Flight Mechanics and ControlENG ME 406 – Dynamics of SpaceflightENG ME 408 – Aircraft Performance & DesignENG ME 409 - Structural MechanicsENG ME 421 – AerodynamicsENG ME 425 – Compressible Flow & PropulsionENG ME 441 – Mechanical VibrationENG ME 515 – Vibration of Complex Mechanical Systems (requires ENG ME441 as a prerequisite)CAS AS 414 – Solar and Space PhysicsEnergy Technologies and SustainabilityPlease note: In addition to the required courses a concentration in Energy Technologies and Sustainability requires an Experiential Component. Energy Technologies and Sustainability DetailsPlease confirm you have read the requirements for the concentration.(Required) Note: QST SI 453, and CAS EE 250, 304, 309 and 545 cannot be used to satisfy a Technical, Advanced, or Professional Elective requirement.Restricted Elective(Required)--ENG EK 408 - Introduction to Clean Energy and Storage TechnologiesENG EC 417 - Electric Energy Systems: Adapting to Renewable ResourcesAdditional Course 1(Required)--ENG EK 408 – Introduction to Clean Energy and Storage TechnologiesENG EC 417 – Electric Energy Systems: Adapting to Renewable ResourcesENG ME 533 – Energy ConversionENG ME 535 / MS 535– Green ManufacturingENG EC 543 / ME 543 / SE 543 – Sustainable Power Systems: Planning, Operation and MarketsENG ME 545 / MS 545 – Electrochemistry of Fuel Cells and BatteriesENG EK 546 – Assessment of Sustainable Energy TechnologiesENG EC 573 / MS 573 – Solar Energy SystemsENG EC 583 – Power Electronics for Energy SystemsQST SI 453 – Strategies for Environmental SustainabilityCAS EE 250 – The Fate of Nations: Climate, Resources and InstitutionsCAS EE 304 / IR 304 – Environmentally Sustainable DevelopmentCAS EE 309 – Intermediate Environmental Analysis and PolicyCAS EE 545 – Methods of Environmental Policy AnalysisENG EK 335 – Introduction to Environmental EngineeringPlease note that only one CAS EE course or ENG EK 335 may be applied to the concentration.Additional Course 2(Required)--ENG EK 408 – Introduction to Clean Energy and Storage TechnologiesENG EC 417 – Electric Energy Systems: Adapting to Renewable ResourcesENG ME 533 – Energy ConversionENG ME 535 / MS 535– Green ManufacturingENG EC 543 / ME 543 / SE 543 – Sustainable Power Systems: Planning, Operation and MarketsENG ME 545 / MS 545 – Electrochemistry of Fuel Cells and BatteriesENG EK 546 – Assessment of Sustainable Energy TechnologiesENG EC 573 / MS 573 – Solar Energy SystemsENG EC 583 – Power Electronics for Energy SystemsQST SI 453 – Strategies for Environmental SustainabilityCAS EE 250 – The Fate of Nations: Climate, Resources and InstitutionsCAS EE 304 / IR 304 – Environmentally Sustainable DevelopmentCAS EE 309 – Intermediate Environmental Analysis and PolicyCAS EE 545 – Methods of Environmental Policy AnalysisENG EK 335 – Introduction to Environmental EngineeringPlease note that only one CAS EE course or ENG EK 335 may be applied to the concentration.Machine LearningPlease note: In addition to the required courses a concentration in Machine Learning requires an Experiential Component. Machine Learning DetailsConcentration DetailsPlease confirm you have read the requirements for the concentration.(Required) Please see here for the requirements.Required Course(Required)--ENG EC 414 – Introduction to Machine LearningENG EC 503 – Learning from DataOnly one of these courses can be taken for credit towards the concentration. Additional Course 1(Required)--ENG BE 403 – Biomedical Signals and Controls (cannot be applied for BME majors)ENG BE 500†3 – AI and Systems BiologyENG BE 500†6 – Deep Learning for Biomedical Images and SignalsENG BE/EC 519 Speech Processing by Humans and MachinesENG BE 562 – Computational Biology: Machine Learning FundamentalsENG BE 570 – Introduction to Computational VisionENG EC 401 – Signals and Systems (cannot be applied for EE majors)ENG EC 402 – Control SystemsENG EC 415 – Software RadiosENG EC 418 – (Olshevsky) Reinforcement LearningENG EC 500†5 – (Ohn-Bar) Robot Learning and Vision for NavigationENG EC 504 – Advanced Data Structures and AlgorithmsENG EC 505 – Stochastic Processes and InferenceENG EC 516 – Digital Signal ProcessingENG EC 517 – Introduction to Information TheoryENG EC 518 – Robot LearningENG EC 520 – Digital Image Processing and CommunicationENG EC 523/ CAS CS 523 – Deep LearningENG EC/SE 524 – Optimization Theory and MethodsENG EC 525 – Optimization for Machine LearningENG EC 526 – Parallel Programming for High Performance ComputingENG EC 527 – High Performance Programming with Multicore and GPUsENG EC 528 – Cloud ComputingENG ME 404 – Dynamics and Control of Mechanical SystemsENG ME 416 – Introduction to RoboticsENG ME 570 – Robot Motion PlanningAdditional Course 2(Required)--ENG BE 403 – Biomedical Signals and Controls (cannot be applied for BME majors)ENG BE 500†3 – AI and Systems BiologyENG BE 500†6 – Deep Learning for Biomedical Images and SignalsENG BE/EC 519 Speech Processing by Humans and MachinesENG BE 562 – Computational Biology: Machine Learning FundamentalsENG BE 570 – Introduction to Computational VisionENG EC 401 – Signals and Systems (cannot be applied for EE majors)ENG EC 402 – Control SystemsENG EC 415 – Software RadiosENG EC 418 – (Olshevsky) Reinforcement LearningENG EC 500†5 – (Ohn-Bar) Robot Learning and Vision for NavigationENG EC 504 – Advanced Data Structures and AlgorithmsENG EC 505 – Stochastic Processes and InferenceENG EC 516 – Digital Signal ProcessingENG EC 517 – Introduction to Information TheoryENG EC 518 – Robot LearningENG EC 520 – Digital Image Processing and CommunicationENG EC 523/ CAS CS 523 – Deep LearningENG EC/SE 524 – Optimization Theory and MethodsENG EC 525 – Optimization for Machine LearningENG EC 526 – Parallel Programming for High Performance ComputingENG EC 527 – High Performance Programming with Multicore and GPUsENG EC 528 – Cloud ComputingENG ME 404 – Dynamics and Control of Mechanical SystemsENG ME 416 – Introduction to RoboticsENG ME 570 – Robot Motion PlanningManufacturing EngineeringPlease note: In addition to the required courses for a concentration in Manufacturing requires an Experiential Component.Manufacturing Concentration DetailsPlease confirm you have read the requirements for the concentration.(Required) Required Course(Required) ENG ME 345 - Automation and Manufacturing MethodsElective Course 1(Required)--ENG ME 357/358 (2 units each) (cannot be applied for ME majors)ENG ME 420 – Supply Chain EngineeringENG ME 500 (Boley) — Advanced Manufacturing: Functional Materials & AutomationENG ME 500 (Chomyszak) — Manufacturing Processes for Design and ProductionENG ME 510 – Production Systems AnalysisENG ME 518 – Product QualityENG ME 535 / ENG MS 535 – Green ManufacturingENG ME 537 – Product RealizationENG ME 555 – MEMS: Fabrication and MaterialsENG ME 557 – Additive ManufacturingENG ME / MS 576 – Nanomanufacturing and Hierarchical MaterialsENG ME/MS 579 – Nano/Microelectronic Device TechnologyENG ME 560 – Precision Machine Design and InstrumentationENG ME 584 – Manufacturing StrategyElective Course 2(Required)--ENG ME 357/358 (2 units each) (cannot be applied for ME majors)ENG ME 420 – Supply Chain EngineeringENG ME 500 (Boley) — Advanced Manufacturing: Functional Materials & AutomationENG ME 500 (Chomyszak) — Manufacturing Processes for Design and ProductionENG ME 510 – Production Systems AnalysisENG ME 518 – Product QualityENG ME 535 / ENG MS 535 – Green ManufacturingENG ME 537 – Product RealizationENG ME 555 – MEMS: Fabrication and MaterialsENG ME 557 – Additive ManufacturingENG ME / MS 576 – Nanomanufacturing and Hierarchical MaterialsENG ME/MS 579 – Nano/Microelectronic Device TechnologyENG ME 560 – Precision Machine Design and InstrumentationENG ME 584 – Manufacturing StrategyNanotechnology ConcentrationPlease note: In additional to the required courses a concentration in Nanotechnology requires an Experiential Component. Nanotechnology Concentration DetailsPlease confirm you have read the requirements for the concentration.(Required) Required Course(Required)--ENG BE 437 - Nanometer Scale Processes in Living SystemsENG EK 481 - Fundamentals of Nanomaterials and NanotechnologyElective Course 1(Required)--CAS PY 313 / 314 – Waves and Modern Physics (cannot be applied for EE majors)CAS PY 543 – Introduction to Solid State PhysicsENG BE 424 – Thermodynamics and Statistical Mechanics (cannot be applied for BME majors)ENG BE 437 - Nanometer Scale Processes in Living SystemsENG BE504/MS504/ME504 - Polymer & Soft Materials - effective starting Fall 2025ENG BE 505 – Molecular Bioengineering IENG BE 518 – Modern Optical MicroscopyENG BE 526 – Fundamentals of BiomaterialsENG BE/EC 555 - Introduction to Biomedical OpticsENG EC 471 – Physics of Semiconductor DevicesENG EC 560 – Introduction to PhotonicsENG EC 571 – Digital VLSI Circuit DesignENG EC/MS 574 – Physics of Semiconductor MaterialsENG EC/MS 577 – Electronic, Optical and Magnetic Properties of MaterialsENG EC 578 – Fabrication Technology for Integrated CircuitsENG EK 481 - Fundamentals of Nanomaterials and NanotechnologyENG ME 506 - Engineering Device Applications: From Physics to DesignENG ME 526 / MS 526 – Simulation of Physical ProcessesENG ME 555 / MS 555 - Fabrication and MaterialsENG ME 576 / MS 576 - Nanomanufacturing and Hierarchical MaterialsENG ME 579 / EC 579 – Nano/Microelectronic Device TechnologyGRS CH 629 – DNA NanotechnologyENG BE/EC 745 – Nanomedicine – Principles and ApplicationsENG EC 777 – Nanostructure OpticsENG ME 778 – Micromachined TransducersStudents cannot receive credit for both CAS PY 313/314 and ENG BE 424 towards the Nanotechnology Concentration.Elective Course 2(Required)--CAS PY 313 / 314 – Waves and Modern Physics (cannot be applied for EE majors)CAS PY 543 – Introduction to Solid State PhysicsENG BE 424 – Thermodynamics and Statistical Mechanics (cannot be applied for BME majors)ENG BE 437 - Nanometer Scale Processes in Living SystemsENG BE504/MS504/ME504 - Polymer & Soft Materials - effective starting Fall 2025ENG BE 505 – Molecular Bioengineering IENG BE 518 – Modern Optical MicroscopyENG BE 526 – Fundamentals of BiomaterialsENG BE/EC 555 - Introduction to Biomedical OpticsENG EC 471 – Physics of Semiconductor DevicesENG EC 560 – Introduction to PhotonicsENG EC 571 – Digital VLSI Circuit DesignENG EC/MS 574 – Physics of Semiconductor MaterialsENG EC/MS 577 – Electronic, Optical and Magnetic Properties of MaterialsENG EC 578 – Fabrication Technology for Integrated CircuitsENG EK 481 - Fundamentals of Nanomaterials and NanotechnologyENG ME 506 - Engineering Device Applications: From Physics to DesignENG ME 526 / MS 526 – Simulation of Physical ProcessesENG ME 555 / MS 555 - Fabrication and MaterialsENG ME 576 / MS 576 - Nanomanufacturing and Hierarchical MaterialsENG ME 579 / EC 579 – Nano/Microelectronic Device TechnologyGRS CH 629 – DNA NanotechnologyENG BE/EC 745 – Nanomedicine – Principles and ApplicationsENG EC 777 – Nanostructure OpticsENG ME 778 – Micromachined TransducersStudents cannot receive credit for both CAS PY 313/314 and ENG BE 424 towards the Nanotechnology Concentration.Robotics ConcentrationPlease note: In addition to the required courses a concentration in Robotics requires an Experiential Component. Robotics Concentration DetailsPlease confirm you have read the requirements for the concentration.(Required) Please see here for the requirements.Required Course(Required) ENG ME 416 - Introduction to RoboticsElective Course 1(Required)--Group A - ENG ME 403 – Atmospheric Flight Mechanics and Control*Group A - ENG ME 404 – Dynamics and Control of Mechanical SystemsGroup A - ENG EC 402 – Control SystemsGroup A - ENG BE 404 – Modern Control in Biomedical EngineeringGroup B - ENG EC 414 – Introduction to Machine LearningGroup B - ENG EC 418 – Reinforcement LearningGroup B - ENG EC 503 – Learning from DataGroup B - ENG EC 518 – Robot LearningGroup B - ENG EC 523 – Deep LearningGroup C - ENG EC 444 – Smart and Connected SystemsGroup C - ENG EC 535 – Introduction to Embedded SystemsGroup C - ENG EC/ME/SE 544 – Networking the Physical WorldGroup C - ENG EC 545 – Cyber-Physical SystemsGroup D - ENG ME 568 – Soft Robotic TechnologiesGroup D - ENG ME 571 – Medical RoboticsGroup E - ENG EC 520 – Digital Image Processing and CommunicationGroup E - ENG ME 345 – Automation & Manufacturing MethodsGroup E - ENG ME 560 – Precision Machine Design and InstrumentationGroup E - ENG ME 570 – Robot Motion PlanningTwo courses from any of the lists below, but no more than one from each group A, B, C or D (courses in group E do not have any constraints). Elective Course 2(Required)--Group A - ENG ME 403 – Atmospheric Flight Mechanics and Control*Group A - ENG ME 404 – Dynamics and Control of Mechanical SystemsGroup A - ENG EC 402 – Control SystemsGroup A - ENG BE 404 – Modern Control in Biomedical EngineeringGroup B - ENG EC 414 – Introduction to Machine LearningGroup B - ENG EC 418 – Reinforcement LearningGroup B - ENG EC 503 – Learning from DataGroup B - ENG EC 518 – Robot LearningGroup B - ENG EC 523 – Deep LearningGroup C - ENG EC 444 – Smart and Connected SystemsGroup C - ENG EC 535 – Introduction to Embedded SystemsGroup C - ENG EC/ME/SE 544 – Networking the Physical WorldGroup C - ENG EC 545 – Cyber-Physical SystemsGroup D - ENG ME 568 – Soft Robotic TechnologiesGroup D - ENG ME 571 – Medical RoboticsGroup E - ENG EC 520 – Digital Image Processing and CommunicationGroup E - ENG ME 345 – Automation & Manufacturing MethodsGroup E - ENG ME 560 – Precision Machine Design and InstrumentationGroup E - ENG ME 570 – Robot Motion PlanningTwo courses from any of the lists below, but no more than one from each group A, B, C or D (courses in group E do not have any constraints). Technology InnovationPlease note: In addition to the required courses a concentration in Technology Innovation requires an Experiential Component. Students that take QST SI 480 in the fall term are ineligible to use senior project to satisfy the Experiential Component. Technology Innovation Concentration DetailsPlease confirm you have read the requirements for the concentration.(Required) Please see here for the requirements.Note: QST SI 344, 445, 451, 453, 464, 471, 475; and CAS IR 593 cannot be used to satisfy a Technical/Advanced/Professional Elective. Students cannot receive credit toward the concentration for both ENG ME 502 and QST SI 464.Required Course 1(Required) QST SI 480 – Business of Technology Innovation – 4 units(Offered both semesters, but recommended that it be taken in junior year.)Required Course 2(Required)--HUB XC 438 – The Art of Technology Consulting – 4 unitsQST SI 482 – Strategy for Technology Based Firms – 4 units (pre-requisite: QST SI 480)Students can take both but must complete one here.Additional Course(Required)--CAS IR 593 – Grassroots Finance in Africa and the Developing WorldENG BE 428 – Device Diagnostics DesignENG BE 468 – Clinical Applications of Biomedical DesignENG BE 478 – Engineering Design for Refugee HealthENG ME 502 – Invention: Technology Creation, Protection, and CommercializationENG ME 517 – Product DevelopmentENG ME 518 – Product QualityHUB XC 438 – Cross College Challenge – The Art and Science of Technology ConsultingQST SI 344 – Entrepreneurship: Solving Problems in a Dynamic WorldQST SI 445 – Managing a Growing EnterpriseQST SI 451 – Organizing for Design & InnovationQST SI 453 – Strategies for Environmental SustainabilityQST SI 464 – Intellectual Property StrategiesQST SI 471 – International EntrepreneurshipQST SI 482 – Strategy for Technology Based FirmsQST SI/IM 475 – Global Management Experience