The program leading to the BS in Systems and Industrial Engineering prepares students for a professional career in systems engineering. The program reflects the systems engineer's unique perspective, which considers all aspects of a system throughout its lifetime. Mason's systems engineering program is interdisciplinary, drawing from engineering, computer science, operations research, psychology, and economics. The core systems engineering courses tie these diverse threads to provide a global understanding of how individual engineering disciplines fit into the development of complex, large-scale systems. Students gain depth in a technical area by selecting a sequence of technical electives that constitute an emphasis. Students choose their own emphasis with the help of their advisor. A year-long senior design project provides hands-on experience in applying various systems engineering methods and tools. In the first two years, students obtain a basic foundation in mathematics, natural sciences, computing, writing, humanities, arts, and social sciences. The systems engineering program builds on this foundation, teaching theoretical knowledge, practical skills, and the ability to apply systems thinking to problems. Teamwork, collaborative learning, analytical skills, practical problem solving, and oral and written communication are strongly stressed.

Mission

The mission of the undergraduate program is to equip students with the ability to participate productively in the many professional activities associated with engineering a trustworthy system that satisfies client needs. The term "system" is interpreted broadly to include information, telecommunication, defense, health delivery, transportation, energy or manufacturing systems, as well as corporate processes.

Objectives

The program educational objectives of the Systems and Industrial Engineering program are what we expect our students to attain within three to five years of graduation. Graduates earning the Bachelor of Science degree in Systems and Industrial Engineering at George Mason University will:

  • Use critical thinking, quantitative methods, and emerging techniques in systems and industrial engineering to address global societal challenges in a rapidly changing world.
  • Apply systems and industrial engineering methods, using model-based and data-driven approaches, to the engineering of complex systems satisfying diverse stakeholder needs.
  • Ethically and professionally collaborate in diverse teams to advance the objectives of their organizations, profession, and society in support of a just, free, and prosperous world.

Policies

Change of Major

See Change of Major for more information. 

Grade Requirements

Students in the Systems and Industrial Engineering, BS program must complete all mathematics, science, and CEC courses with a grade of C or better. However, students may apply for a one-time grade waiver for no more than one mathematics, science, or CEC course with grade of C- or D.

Students must also complete any course required by the program that is a prerequisite to another course applicable to the degree with a grade of C or better.

Banner Code: EC-BS-SSIE

Formerly: EC-BS-SYST

Degree Requirements

Total credits: 123

Mathematics and Statistics

MATH 113Analytic Geometry and Calculus I (Mason Core)4
or MATH 123
MATH 124		 Calculus with Algebra/Trigonometry, Part A
and Calculus with Algebra/Trigonometry, Part B (Mason Core)
MATH 114Analytic Geometry and Calculus II4
MATH 203Linear Algebra3
MATH 213Analytic Geometry and Calculus III3
MATH 214Elementary Differential Equations3
STAT 344Probability and Statistics for Engineers and Scientists I3
STAT 354Probability and Statistics for Engineers and Scientists II3
Total Credits23

Natural Science 

PHYS 160
PHYS 161		University Physics I (Mason Core)
and University Physics I Laboratory (Mason Core)		4
PHYS 260
PHYS 261		University Physics II (Mason Core)
and University Physics II Laboratory (Mason Core)		4
Total Credits8

Computing

Select from options below:7
SYST 130
Introduction to Computing for Digital Systems Engineering (Mason Core)
or CS 112
 Introduction to Computer Programming (Mason Core)
or ENGR 125T
 Introduction to Engineering Methods - Transfer (Mason Core)
and
SYST 230
Object-oriented Modeling and Design
or CS 211
 Object-Oriented Programming
Total Credits7

Communication and Economics

COMM 100Public Speaking (Mason Core)3
or COMM 101 Fundamentals of Communication (Mason Core)
or completion of Honors College curriculum
ECON 103Contemporary Microeconomic Principles (Mason Core)3
Total Credits6

Systems and Industrial Engineering

Students must complete each of these courses with a grade of C or better.

SYST 101Understanding Systems and Industrial Engineering3
SYST 210Systems Design3
SYST 220Dynamical Systems I3
SYST 221Systems Modeling Laboratory1
SYST 320Dynamical Systems II3
SYST 330Systems Methods3
SYST 335Discrete Systems Modeling and Simulation3
SYST 371Systems Engineering Management3
SYST 375Engineering Economy3
SYST 395Applied Systems and Industrial Engineering3
SYST 470Human Factors Engineering3
SYST 473Decision and Risk Analysis3
or SYST 573 Decision and Risk Analysis
SYST 475Production Systems Analysis3
SYST 489Senior Seminar (Mason Core)3
SYST 490Senior Design Project I3
SYST 495Senior Design Project II (Mason Core)3
OR 441Deterministic Optimization3
or OR 541 Operations Research: Deterministic Optimization
OR 442Stochastic Models3
or OR 542 Operations Research: Stochastic Models
Select 3 approved technical electives selected from one of the Technical Emphasis Areas below9
Total Credits61

Additional Mason Core

Students must complete all Mason Core requirements not fulfilled by major requirements.

English (6 credits)6
ENGH 100
Composition for Multilingual Writers (Mason Core)
or ENGH 101
 Composition (Mason Core)
ENGH 302
Advanced Composition (Mason Core) 1
Literature3
Arts3
Global History3
Global Contexts 23
Total Credits18
1

Must complete either natural science and technology or multidisciplinary section.

2

SYST 202 Engineering Systems in a Complex World (Mason Core) is highly recommended.

Technical Emphasis Areas

The systems and industrial engineering program require 9 credits of technical electives. Students must select one of the following technical emphases, each containing three courses. Students must complete each of these courses with a grade of C or better.

Aviation Systems

SYST 420Network Analysis3
or SYST 468 Applied Predictive Analytics
or SYST 521 Network Analysis
or SYST 568 Applied Predictive Analytics
or OR 568 Applied Predictive Analytics
or OR 643 Network Modeling
SYST 460Introduction to Air Traffic Control3
or SYST 560 Introduction to Air Traffic Control
SYST 461Air Transportation System Engineering3
or SYST 660 Air Transportation Systems Modeling
Total Credits9

Bioengineering

BENG 230Continuum Biomechanics and Transport I3
BENG 320Bioengineering Signals and Systems3
BENG 330Computational Methods in Bioengineering3
Some of the courses listed above have additional prerequisites. Students should pay careful attention to prerequisites when selecting courses.
Total Credits9

Climate Change, Energy, and Sustainability

SYST 414Systems Thinking3
or SYST 514 Systems Thinking
SYST 496Sustainable Systems Methods Practicum 3
Choose one course from the following:3-4
CLIM 101
Global Warming: Weather, Climate, and Society (Mason Core)
CLIM 102
Introduction to Global Climate Change Science (Mason Core)
RENE 131
Introduction to Renewable Energy
ECE 311
Energy Infrastructure, Market, and Management
PHYS 331
Physics of Renewable Energy
ECE 411
Electricity Sector Engineering, Economics, and Regulation
EVPP 432
Energy Policy
ME 425
Renewable Energy Engineering
CEIE 100
Environmental Issues and Solutions Around the World (Mason Core)
EVPP 201
Environment and You: Issues for the Twenty-First Century (Mason Core)
INTS 210
Sustainable World (Mason Core)
EVPP 338
Economics of Environmental Policy
EVPP 361
Introduction to Environmental Policy
EVPP 434
Food-Energy-Water-Climate Nexus
EVPP 480
Sustainability in Action (Mason Core)
ECE 417
Smart Grid and Cyber Security
Some of the courses listed above have additional prerequisites. Students should pay careful attention to prerequisites when selecting courses.
Total Credits9-10

Computer Network Systems

SYST 420Network Analysis3
or SYST 521 Network Analysis
or OR 643 Network Modeling
ECE 465Computer Networking Protocols3
TCOM 500Modern Telecommunications3
Total Credits9

Cyber Security Engineering

CYSE 211Operating Systems and Lab3
CYSE 430Critical Infrastructure Protection3
And choose one of the following:3
SYST 440
Digital Twin for Systems and Industrial Engineering
SYST 448
Technologies and Security for Cryptocurrencies and Financial Transactions
or SYST 548
 Technologies and Security for Cryptocurrencies and Financial Transactions
CYSE 460
Power Systems and Smart Grid Security
CYSE 465
Transportation Systems Design
CYSE 477
Intrusion Detection
Total Credits9

Data Analytics and Operations Research

SYST 468Applied Predictive Analytics3
or SYST 568 Applied Predictive Analytics
or OR 568 Applied Predictive Analytics
And choose two from the following:6
SYST 420
Network Analysis
or SYST 521
 Network Analysis
or OR 643
 Network Modeling
SYST 438
Analytics for Financial Engineering and Econometrics
or SYST 538
 Analytics for Financial Engineering and Econometrics
SYST 440
Digital Twin for Systems and Industrial Engineering
OR 481
Numerical Methods in Engineering
IT 214
Database Fundamentals
STAT 463
Introduction to Exploratory Data Analysis
Total Credits9

Electrical Engineering

Select three courses from the following:9
ECE 201
Introduction to Signals and Systems
ECE 301
Digital Electronics 1
ECE 321
Continuous-Time Signals and Systems
ECE 330
Circuit Theory 2
or ECE 285
 Electric Circuit Analysis I
ECE 286
Electric Circuit Analysis II
SYST 421
Classical Systems and Control Theory
or ECE 410
 Applications of Discrete-Time Signal Processing
SYST 440
Digital Twin for Systems and Industrial Engineering
Total Credits9
1

Transfer credit for ECE 231 and ECE 232 will be used to fulfill ECE 301 requirement.

2

Credit cannot be received for both ECE 285 and ECE 330. Students are highly recommended to take ECE 330 in place of ECE 285.

 

Some of the courses listed above have additional prerequisites. Students should pay careful attention to prerequisites when selecting courses.

Environmental Engineering

CEIE 240Hydraulics3
And choose two from the following:6
CEIE 340
Water Resource Engineering
CEIE 355
Environmental Engineering and Science
CEIE 441
Engineering for Climate Adaptation
CEIE 445
Flood Hazards Engineering and Adaptation
CEIE 450
Environmental Engineering Systems
CEIE 451
Air Pollution Formation and Control
CEIE 452
Climate Change Engineering and Policy
CEIE 453
Water and Wastewater Treatment Processes
Some of the courses listed above have additional prerequisites. Students should pay careful attention to prerequisites when selecting courses.
Total Credits9

Financial Engineering

SYST 438Analytics for Financial Engineering and Econometrics3
or SYST 538 Analytics for Financial Engineering and Econometrics
SYST 488Financial Systems Engineering3
or SYST 588 Financial Systems Engineering I: Introduction to Options, Futures, and Derivatives
And choose one of the following:3
SYST 448
Technologies and Security for Cryptocurrencies and Financial Transactions
or SYST 548
 Technologies and Security for Cryptocurrencies and Financial Transactions
SYST 468
Applied Predictive Analytics
or SYST 568
 Applied Predictive Analytics
or OR 568
 Applied Predictive Analytics
STAT 455
Experimental Design
STAT 463
Introduction to Exploratory Data Analysis
MBUS 304
Entrepreneurship: Starting and Managing a New Enterprise
Total Credits9

Mechanical Engineering

Select one of the following options:9
Option 1: Mechanical Design
ME 211
Statics
or CEIE 210
 Statics
And choose two from the following:
ME 212
Solid Mechanics
or CEIE 310
 Mechanics of Materials
ME 231
Dynamics
ME 341
Design of Mechanical Elements
SYST 440
Digital Twin for Systems and Industrial Engineering
Option 2: Thermal Fluids
ME 221
Thermodynamics
And choose two from the following:
ME 231
Dynamics
ME 322
Fluid Mechanics
ME 323
Heat Transfer
ME 342
Design of Thermal Systems
SYST 440
Digital Twin for Systems and Industrial Engineering
Some of the courses listed above have additional prerequisites. Students should pay careful attention to prerequisites when selecting courses.
Total Credits9

Software-Intensive Systems

CS 310Data Structures 13
CS 321Software Engineering (Mason Core)3
SWE 443Software Architectures3
Total Credits9
1

CS 310 requires CS 112 Introduction to Computer Programming (Mason Core) and CS 211 Object-Oriented Programming computing sequence. Students should pay careful attention to prerequisites when selecting courses.

General Electives

Choose one from the following:3
SYST 414
Systems Thinking 1
or SYST 514
 Systems Thinking
SYST 420
Network Analysis 1
or SYST 521
 Network Analysis
or OR 643
 Network Modeling
SYST 438
Analytics for Financial Engineering and Econometrics
or SYST 538
 Analytics for Financial Engineering and Econometrics
SYST 460
Introduction to Air Traffic Control
or SYST 560
 Introduction to Air Traffic Control
SYST 468
Applied Predictive Analytics 1
or SYST 568
 Applied Predictive Analytics
or OR 568
 Applied Predictive Analytics
OR 481
Numerical Methods in Engineering 1
Choose two from the following:6-7
SYST 414
Systems Thinking 1
or SYST 514
 Systems Thinking
SYST 420
Network Analysis 1
or SYST 521
 Network Analysis
or OR 643
 Network Modeling
SYST 440
Digital Twin for Systems and Industrial Engineering
SYST 448
Technologies and Security for Cryptocurrencies and Financial Transactions
or SYST 548
 Technologies and Security for Cryptocurrencies and Financial Transactions
SYST 461
Air Transportation System Engineering
or SYST 660
 Air Transportation Systems Modeling
SYST 468
Applied Predictive Analytics 1
or SYST 568
 Applied Predictive Analytics
or OR 568
 Applied Predictive Analytics
SYST 488
Financial Systems Engineering
or SYST 588
 Financial Systems Engineering I: Introduction to Options, Futures, and Derivatives
SYST 496
Sustainable Systems Methods Practicum
OR 481
Numerical Methods in Engineering 1
EVPP 480
Sustainability in Action (Mason Core)
STAT 455
Experimental Design
STAT 463
Introduction to Exploratory Data Analysis
ENGR 107
Introduction to Engineering 2
Some of the courses listed above have additional prerequisites. Students should pay careful attention to prerequisites when selecting courses.
Total Credits9-10
1

Cannot be double counted in both groups of general electives courses, can only count once towards the general elective requirement.

2

Systems and Industrial Engineering, BS Students with sophomore, junior, and senior standings are not permitted to take ENGR 107. 

Mason Apex Requirement

The Mason Apex requirement for systems and industrial engineering majors is satisfied by successful completion of SYST 495 Senior Design Project II (Mason Core). Students who do not pass SYST 495 with a C or better must retake both SYST 490 Senior Design Project I and SYST 495.

Writing-Intensive Requirement

Mason’s writing-intensive requirement for systems and industrial engineering majors is satisfied by successful completion of SYST 489 Senior Seminar (Mason Core).

Advising and Plan of Study

All systems and industrial engineering students are assigned a faculty advisor. With the advisor’s help and approval, each student is required to complete a plan of study. This plan of study, which is available from the SEOR office, constitutes a learning plan for the degree program and must be signed by the student's advisor and the Department Chair.  The plan of study must be updated and signed by the advisor at least once per year.

Bachelor of Science in Systems and Industrial Engineering Sample Plan of Study

Detailed four year plans and degree planning checklists can be found at https://advising.gmu.edu/current-student/majors-at-mason/.

On This Page

BS (any)/Statistical Science, Accelerated MS

Overview

Highly-qualified undergraduates may be admitted to the bachelor's/accelerated master's  program (BAM) and obtain an undergraduate BS degree and the Statistical Science, MS in an accelerated time-frame after satisfactory completion of a minimum of 138 credits.

Admitted students are able to use up to 12 graduate credits in partial satisfaction of requirements for the undergraduate degree. Upon completion and conferral of the bachelor's degree and with satisfactory performance (grade of 'B' or better) in each of the graduate courses, students are given advanced standing in the master's program. 

See AP.6.7 Bachelor's/Accelerated Master's Degrees for policies related to this program.

Students in an accelerated degree program must fulfill all university requirements for the master's degree. For policies governing all graduate degrees, see AP.6 Graduate Policies.

BAM Pathway Admission Requirements

No specific undergraduate BS degree is required. Students enrolled in any BS degree may apply to the accelerated Statistical Science, MS program if such an accelerated Statistical Science, MS pathway is allowable from the student's BS program, which will be determined by the academic advisors of both the BS and MS programs.

Applicants to all graduate programs at George Mason University must meet the admission standards and application requirements for graduate study as specified in Graduate Admissions Policies and Bachelor's/Accelerated Master's Degree policies. 

Students will be considered for admission into the BAM Pathway after completion of a minimum of 60 credits with an overall GPA of 3.0. 

Students who are accepted into the BAM Pathway will be allowed to register for graduate level courses after successful completion of a minimum of 75 undergraduate credits and course-specific prerequisites.

Accelerated Master's Admission Requirements

Students already admitted in the BAM Pathway will be admitted to the Statistical Science, MS program, if they have met the following criteria, as verified on the Bachelor’s/Accelerated Master’s Transition form: 

  • Completion of Mason’s requirements for undergraduate degree conferral (graduation) and completion of application for graduation.
  • An overall GPA of 3.00.
  • Completion of the following Mason courses each with a grade of C or better:
MATH 213Analytic Geometry and Calculus III3
MATH 203Linear Algebra3
or MATH 321 Abstract Algebra
STAT 250Introductory Statistics I (Mason Core)3
or STAT 344 Probability and Statistics for Engineers and Scientists I
STAT 346Probability for Engineers3
or MATH 351 Probability
STAT 362Introduction to Computer Statistical Packages3

Accelerated Pathway Requirements

To maintain the integrity and quality of both the undergraduate and graduate degree programs, students complete all credits satisfying degree requirements for the BS and MS programs, with up to twelve credits overlap chosen from the following graduate courses:

STAT 544Applied Probability3
STAT 554Applied Statistics I3
STAT 560Biostatistical Methods3
STAT 574Survey Sampling I3
STAT 663Statistical Graphics and Data Visualization 3

All graduate course prerequisites must be completed prior to enrollment.  Each graduate course must be completed with a grade of B or better to apply toward the MS degree.

While still in undergraduate status, a maximum of 6 additional graduate credits may be taken as reserve graduate credit and applied to the master's program.  Reserve graduate credits do not apply to the undergraduate degree.

For more detailed information on coursework and timeline requirements, see AP.6.7 Bachelor's/Accelerated Master's Degrees policies.

Degree Conferral

Students must apply the semester before they expect to complete the BS requirements to have the BS degree conferred. In addition, at the beginning of the student's final undergraduate semester, students must complete a Bachelor's/Accelerated Master's Transition form that is submitted to the Office of the University Registrar and Graduate Recruitment and Enrollment Services. At the completion of MS requirements, a master's degree is conferred.

Systems and Industrial Engineering, BS/Data Analytics Engineering, Accelerated MS

Overview

Highly-qualified undergraduates may be admitted to the bachelor's/accelerated master's program and obtain a Systems and Industrial Engineering, BS and a Data Analytics Engineering, MS in an accelerated time-frame after satisfactory completion of a minimum of 141 credits.

Admitted students are able to use up to 12 credits of approved advanced standing graduate courses in partial satisfaction of requirements for the undergraduate degree. Upon completion and conferral of the bachelor's degree and with satisfactory performance (grade of 'B' or better) in each of the advanced standing graduate courses, the courses are applied to partial satisfaction of requirements for the master's program.

See AP.6.7 Bachelor's/Accelerated Master's Degrees for policies related to this program.

Students in an accelerated degree program must fulfill all university requirements for the master's degree. For policies governing all graduate degrees, see AP.6 Graduate Policies.

BAM Pathway Admission Requirements

Applicants to all graduate programs at George Mason University must meet the admission standards and application requirements for graduate study as specified in Graduate Admissions Policies and Bachelor's/Accelerated Master's Degree policies.

Systems and Industrial Engineering, BS students will be considered for admission into the BAM Pathway after completion of a minimum of 60 credits with an overall GPA of at least 3.0.

For the predictive analytics and financial engineering concentrations, students must submit evidence of:

  • Satisfactory completion of courses in calculus, applied probability and statistics, and a scientific programming language.
  • Familiarity with analytical modeling software, such as spreadsheets or math packages.

Students who are accepted into the BAM Pathway will be allowed to register for graduate level courses after successful completion of a minimum of 75 undergraduate credits and course-specific pre-requisites.

Accelerated Master's Admission Requirements

Students already admitted in the BAM Pathway will be admitted to the Data Analytics Engineering, MS program, if they have met the following criteria, as verified on the Bachelor’s/Accelerated Master’s Transition form: 

  • An overall GPA of at least 3.0
  • Successfully meeting Mason’s requirements for undergraduate degree conferral (graduation) and completing the application for graduation.

Accelerated Pathway Requirements

To maintain the integrity and quality of both the undergraduate and graduate degree programs, undergraduate students interested in taking graduate courses must choose from the following:

Advanced Standing course: Students must complete all credits that satisfy requirements for both the BS and MS programs. Up to four courses (12 credits) of approved master’s level courses taken as part of the undergraduate degree may be applied to the graduate degree.

These courses may be chosen from the list of graduate courses in the following table. For Systems and Industrial Engineering, BS students, these graduate courses replace the corresponding undergraduate courses listed in the table. The undergraduate version of these courses may not be applied toward the Systems Engineering, MS.

Undergraduate Graduate  
OR 441 OR 541 Satisfies OR 531 core requirement in the graduate program. Credit may not be received for both courses.
OR 442 OR 542 This course applies to only certain concentrations; Credit may not be received for both courses.
SYST 414 SYST 514 This course applies to only certain concentrations; Credit may not be received for both courses
SYST 420 SYST 521/OR 643 This course applies to only certain concentrations; Credit may not be received for both courses
SYST 438 SYST 538 This course applies to only certain concentrations; Credit may not be received for both courses
SYST 448 SYST 548 This course applies to only certain concentrations; Credit may not be received for both courses
SYST 460 SYST 560 This course applies to only certain concentrations; Credit may not be received for both courses
SYST 461 SYST 660 This course applies to only certain concentrations; Credit may not be received for both courses
SYST 468 SYST 568 This course applies to only certain concentrations; Credit may not be received for both courses
SYST 473 SYST 573 This course applies to only certain concentrations; Credit may not be received for both courses.
SYST 488 SYST 588 This course applies to only certain concentrations; Credit may not be received for both courses

For the predictive analytics and financial engineering concentration, any other 500-level course may be applied to both the undergraduate and graduate degrees with approval of the advisor and SEOR department chair.

OR 541 Operations Research: Deterministic Optimization will substitute for the OR 531 Introduction to Analytics and Modeling core requirement in the MS DAEN program. Students Bachelor of Science in Systems and Industrial Engineering program are not permitted to take OR 531 Introduction to Analytics and Modeling.

Students must pay attention to the prerequisites required for a course, and the master's degree concentration that the course may satisfy.

While still in undergraduate status, a maximum of 6 additional graduate credits may be taken as reserve graduate credit and applied to the master's program. Reserve graduate credits do not apply to the undergraduate degree.

For more detailed information on coursework and timeline requirements, see AP.6.7 Bachelor's/Accelerated Master's Degrees.

Degree Conferral

Students must apply the semester before they expect to complete the BS requirements to have the BS degree conferred. In addition, at the beginning of the student's final undergraduate semester, students must complete a Bachelor's/Accelerated Master's Transition form. At the completion of MS requirements, a master's degree is conferred.

Systems and Industrial Engineering BS/Operations Research, Accelerated MS

Overview

Highly-qualified undergraduates may be admitted to the bachelor's/accelerated master's program and obtain a Systems and Industrial Engineering, BS and an Operations Research, MS in an accelerated time-frame after satisfactory completion of a minimum of 141 credits.

Admitted students are able to use up to 12 credits of approved advanced standing graduate courses in partial satisfaction of requirements for the undergraduate degree. Upon completion and conferral of the bachelor's degree and with satisfactory performance (grade of 'B' or better) in each of the advanced standing graduate courses, the courses are applied to partial satisfaction of requirements for the master's program.

See AP.6.7 Bachelor's/Accelerated Master's Degrees for policies related to this program.

Students in an accelerated degree program must fulfill all university requirements for the master's degree. For policies governing all graduate degrees, see AP.6 Graduate Policies.

BAM Pathway Admission Requirements

Applicants to all graduate programs at George Mason University must meet the admission standards and application requirements for graduate study as specified in Graduate Admissions Policies and Bachelor's/Accelerated Master's Degree policies.

Systems and Industrial Engineering, BS students will be considered for admission into the BAM Pathway after completion of a minimum of 60 credits with an overall GPA of at least 3.3, and completion of all MATH and PHYS requirements. Students must additionally  complete MATH 203 Linear Algebra prior to applying for the graduate program.

Students who are accepted into the BAM Pathway will be allowed to register for graduate level courses after successful completion of a minimum of 75 undergraduate credits and course-specific pre-requisites.

Accelerated Master's Admission Requirements

The criteria for admission are identical to criteria for admission to the Operations Research, MS program. Students already admitted in the BAM Pathway will be admitted to the Operations Research, MS program, if they have met the following criteria, as verified on the Bachelor’s/Accelerated Master’s Transition form:

  • An overall GPA of at least 3.3
  • Successfully meeting Mason’s requirements for undergraduate degree conferral (graduation) and completing the application for graduation.

Accelerated Pathway Requirements

To maintain the integrity and quality of both the undergraduate and graduate degree programs, undergraduate students interested in taking graduate courses must choose from the following:

Advanced Standing course: Students must complete all credits that satisfy requirements for both the BS and MS programs. Up to four courses (12 credits) of approved master’s level courses taken as part of the undergraduate degree may be applied to the graduate degree.

These courses may be chosen from the list of graduate courses in the following table. For Systems and Industrial Engineering, BS students, these graduate courses replace the corresponding undergraduate courses listed in the table. The undergraduate version of these courses may not be applied toward the Operations Research, MS.

Undergraduate Graduate  
OR 441 OR 541 Core course in the graduate program. Credit may not be received for both courses.
OR 442 OR 542 Core course in the graduate program. Credit may not be received for both courses.
SYST 414 SYST 514 The course applies only to certain concentrations in the graduate program; credit may not be received for both courses.
SYST 420 SYST 521/OR 643 Credit may not be received for both courses.
SYST 438 SYST 538 The course applies only to certain concentrations in the graduate program; credit may not be received for both courses.
SYST 448 SYST 548 The course applies only to certain concentrations in the graduate program; credit may not be received for both courses.
SYST 460 SYST 560 The course applies only to certain concentrations in the graduate program; credit may not be received for both courses.
SYST 461 SYST 660 The course applies only to certain concentrations in the graduate program; credit may not be received for both courses.
SYST 468 OR/SYST 568 Core course in the graduate program. Credit may not be received for both courses.
SYST 473 SYST 573 Credit may not be received for both courses.
SYST 488 SYST 588 The course applies only to certain concentrations in the graduate program; credit may not be received for both courses.

Any other 500-level course may be applied to both the undergraduate and graduate degrees with approval of the advisor and SEOR department chair. Students must pay attention to the prerequisites required for a course, and the master's degree concentration that the course may satisfy.

While still in undergraduate status, a maximum of 6 additional graduate credits may be taken as reserve graduate credit and applied to the master's program. Reserve graduate credits do not apply to the undergraduate degree.

For more detailed information on coursework and timeline requirements, see AP.6.7 Bachelor's/Accelerated Master's Degrees.

Degree Conferral

Students must apply the semester before they expect to complete the BS requirements to have the BS degree conferred. In addition, at the beginning of the student's final undergraduate semester, students must complete a Bachelor's/Accelerated Master's Transition form. At the completion of MS requirements, a master's degree is conferred.

Systems and Industrial Engineering BS/Systems Engineering, Accelerated MS

Overview

Highly-qualified undergraduates may be admitted to the bachelor's/accelerated master's program and obtain a Systems and Industrial Engineering, BS and a Systems Engineering, MS in an accelerated time-frame after satisfactory completion of a minimum of 141 credits.

Admitted students are able to use up to 12 credits of approved advanced standing graduate courses in partial satisfaction of requirements for the undergraduate degree. Upon completion and conferral of the bachelor's degree and with satisfactory performance (grade of 'B' or better) in each of the advanced standing graduate courses, the courses are applied to partial satisfaction of requirements for the master's program.

See AP.6.7 Bachelor's/Accelerated Master's Degrees for policies related to this program.

Students in an accelerated degree program must fulfill all university requirements for the master's degree. For policies governing all graduate degrees, see AP.6 Graduate Policies.

BAM Pathway Admission Requirements

Applicants to all graduate programs at George Mason University must meet the admission standards and application requirements for graduate study as specified in Graduate Admissions Policies and Bachelor's/Accelerated Master's Degree policies.

Systems and Industrial Engineering, BS students will be considered for admission into the BAM Pathway after completion of a minimum of 60 credits with an overall GPA of at least 3.3, and completion of all MATH and PHYS requirements.

Students who are accepted into the BAM Pathway will be allowed to register for graduate level courses after successful completion of a minimum of 75 undergraduate credits and course-specific pre-requisites.

Accelerated Master's Admission Requirements

The criteria for admission are identical to criteria for admission to the Systems Engineering, MS program. Students already admitted in the BAM Pathway will be admitted to the Systems Engineering, MS program, if they have met the following criteria, as verified on the Bachelor’s/Accelerated Master’s Transition form:

  • An overall GPA of at least 3.3
  • Successfully meeting Mason’s requirements for undergraduate degree conferral (graduation) and completing the application for graduation.

Accelerated Pathway Requirements

To maintain the integrity and quality of both the undergraduate and graduate degree programs, undergraduate students interested in taking graduate courses must choose from the following:

Advanced Standing course: Students must complete all credits that satisfy requirements for both the BS and MS programs. Up to four courses (12 credits) of approved master’s level courses taken as part of the undergraduate degree may be applied to the graduate degree.

These courses may be chosen from the list of graduate courses in the following table. For Systems and Industrial Engineering, BS students, these graduate courses replace the corresponding undergraduate courses listed in the table. The undergraduate version of these courses may not be applied toward the Systems Engineering, MS.

Undergraduate Graduate  
OR 441 OR 541 Credit may not be received for both courses.
OR 442 OR 542 Credit may not be received for both courses.
SYST 414 SYST 514 The course applies only to certain concentrations in the graduate program; credit may not be received for both courses.
SYST 420 SYST 521/OR 643 Credit may not be received for both courses.
SYST 438 SYST 538 The course applies only to certain concentrations in the graduate program; credit may not be received for both courses.
SYST 448 SYST 548 The course applies only to certain concentrations in the graduate program; credit may not be received for both courses.
SYST 460 SYST 560 The course applies only to certain concentrations in the graduate program; credit may not be received for both courses.
SYST 461 SYST 660 The course applies only to certain concentrations in the graduate program; credit may not be received for both courses.
SYST 468 SYST/OR 568 The course applies only to certain concentrations in the graduate program; credit may not be received for both courses.
SYST 473 SYST 573 Credit may not be received for both courses.
SYST 488 SYST 588 The course applies only to certain concentrations in the graduate program; credit may not be received for both courses.

Any course chosen from the above course list may be used to satisfy SYST 505 Systems Engineering Principles core requirement in the Systems Engineering, MS program. Any other 500-level course may be applied to both the undergraduate and graduate degrees with approval of the advisor and SEOR department chair. Students must pay attention to the prerequisites required for a course, and the master's degree concentration that the course may satisfy.

While still in undergraduate status, a maximum of 6 additional graduate credits may be taken as reserve graduate credit and applied to the master's program. Reserve graduate credits do not apply to the undergraduate degree.

For more detailed information on coursework and timeline requirements, see AP.6.7 Bachelor's/Accelerated Master's Degrees.

Degree Conferral

Students must apply the semester before they expect to complete the BS requirements to have the BS degree conferred. In addition, at the beginning of the student's final undergraduate semester, students must complete a Bachelor's/Accelerated Master's Transition form. At the completion of MS requirements, a master's degree is conferred.

Systems and Industrial Engineering, BS/Telecommunications, Accelerated MS

Overview

Highly-qualified undergraduates may be admitted to the bachelor's/accelerated master's program and obtain a Systems and Industrial Engineering, BS and a Telecommunications, MS in an accelerated time-frame after satisfactory completion of a minimum of 141 credits.

Admitted students are able to use up to 12 credits of approved advanced standing graduate courses in partial satisfaction of requirements for the undergraduate degree. Upon completion and conferral of the bachelor's degree and with satisfactory performance (grade of 'B' or better) in each of the advanced standing graduate courses, the courses are applied to partial satisfaction of requirements for the master's program.

See AP.6.7 Bachelor's/Accelerated Master's Degrees for policies related to this program.

Students in an accelerated degree program must fulfill all university requirements for the master's degree. For policies governing all graduate degrees, see AP.6 Graduate Policies.

BAM Pathway Admission Requirements

Applicants to all graduate programs at George Mason University must meet the admission standards and application requirements for graduate study as specified in Graduate Admissions Policies and Bachelor's/Accelerated Master's Degree policies.

Students in the Systems and Industrial Engineering, BS program who preferably have chosen to take the systems engineering of telecommunications elective sequence will be considered for admission into the BAM Pathway after completion of a minimum of 60 credits with an overall GPA of at least 3.0, and completed all MATH and PHYS requirements. Other students will be considered on their individual merit.

Students who are accepted into the BAM Pathway will be allowed to register for graduate level courses after successful completion of a minimum of 75 undergraduate credits and course-specific pre-requisites.

Accelerated Master's Admission Requirements

The criteria for admission are identical to criteria for admission to the Telecommunications, MS program. Students already admitted in the BAM Pathway will be admitted to the Telecommunications, MS program, if they have met the following criteria, as verified on the Bachelor’s/Accelerated Master’s Transition form: 

  • An overall GPA of at least 3.0
  • Successfully meeting Mason’s requirements for undergraduate degree conferral (graduation) and completing the application for graduation.

Accelerated Pathway Requirements

To maintain the integrity and quality of both the undergraduate and graduate degree programs, undergraduate students interested in taking graduate courses must choose from the following:

Advanced Standing course: Students must complete all credits that satisfy requirements for both the BS and MS programs. Up to four courses (12 credits) of approved master’s level courses taken as part of the undergraduate degree may be applied to the graduate degree.

These courses may be chosen from the list of graduate courses in the following table. For Systems and Industrial Engineering, BS students, these graduate courses replace the corresponding undergraduate courses listed in the BS program. The undergraduate version of these courses, if any, may not be applied toward the Telecommunications, MS.

TCOM 500Modern Telecommunications3
TCOM 535The TCP/IP Suite of Internet Protocols3
OR 541Operations Research: Deterministic Optimization3
SYST 530Systems Engineering Management I3
SYST 573Decision and Risk Analysis (if taken, replaces TCOM 521 in the telecommunications core requirements)3

Students must pay attention to the prerequisites required for a course, and the master's degree concentration that the course may satisfy.

While still in undergraduate status, a maximum of 6 additional graduate credits may be taken as reserve graduate credit and applied to the master's program. Reserve graduate credits do not apply to the undergraduate degree.

For more detailed information on coursework and timeline requirements, see AP.6.7 Bachelor's/Accelerated Master's Degrees.

Degree Conferral

Students must apply the semester before they expect to complete the BS requirements to have the BS degree conferred. In addition, at the beginning of the student's final undergraduate semester, students must complete a Bachelor's/Accelerated Master's Transition form. At the completion of MS requirements, a master's degree is conferred.