Industrial & Systems Engineering Bachelors Degree
The Industrial & Systems Engineering program is a combination of Industrial Engineering & Systems Engineering. Industrial engineering is concerned with design, improvement and implementation of integrated processes of people, processes, information, materials, management and equipment. Systems engineering is an interdisciplinary and structured approach to designing and deploying successful systems to blend engineering, systems thinking, and management topics.
Program Educational Objectives
Program educational objectives are broad statements that describe career and professional accomplishments that the program prepares graduates to achieve during the first few years following graduation. Graduates of industrial & systems engineering will:
- Demonstrate a balance of industrial and systems engineering knowledge to meet industry expectations for design, improvement, and installation of integrated systems of people, machines, materials, information, energy, and logistics.
- Practice critical thinking to solve problems, communicate effectively, and adapt to changes.
- Apply to lifelong learning and continued professional development.
Student outcomes describe the knowledge and skills acquired by students who complete the program. Students completing the industrial & systems engineering program will have:
- An ability to identify, formulate, and solve complex engineering problems by applying principles of engineering, science, and mathematics.
- An ability to apply engineering design to produce solutions that meet specified needs with consideration of public health, safety, and welfare, as well as global, cultural, social, environmental, and economic factors.
- An ability to communicate effectively with a range of audiences.
- An ability to recognize ethical and professional responsibilities in engineering situations and make informed judgements, which must consider the impact of engineering solutions in global, economic, environmental, and societal contexts.
- An ability to function effectively on a team whose members together provide leadership, create a collaborative and inclusive environment, establish goals, plan tasks, and meet objectives.
- An ability to develop and conduct appropriate experimentation, analyze and interpret data, and use engineering judgement to draw conclusions.
- An ability to acquire and apply new knowledge as needed, using appropriate learning strategies.
Prior to enrolling in upper-level courses, students must meet the requirements needed for the College of Engineering and Engineering Technology. View engineering standing requirements.
General Education (42 Credit Hours)
See listing of requirements in the KSU Catalog.
Specific General Education Requirements for this Major
- MATH 1190 - Calculus I
- MATH 2202 - Calculus II
- PHYS 2211 - Principles of Physics I
- PHYS 2211L - Principles of Physics Laboratory I
- CHEM 1211 - General Chemistry I
- CHEM 1211L - General Chemistry I Laboratory
Lower Division Major Requirements
Area F (18 Credit Hours)
- CSE 1311 - C++ Programming for Engineers
- ENGR 1100 - Survey of Engineering Applications from Mathematics
- ISYE 1000 - Introduction to Industrial & Systems Engineering
- BIOL 1107 - Biological Principles I
- BIOL 1107L - Biological Principles I Laboratory
- CHEM 1212 - General Chemistry II
- CHEM 1212L - General Chemistry II Laboratory
- PHYS 2212 - Principles of Physics II
- PHYS 2212L - Principles of Physics Laboratory II
- One hour from Area A
- Two hours from Area D
Industrial & Systems Engineering Major Requirements
39 Credit Hours
- TCOM 2010 - Technical Writing
- MATH 3260 - Linear Algebra I
- ENGR 2214 - Engineering Mechanics - Statics
- ENGR 3325 - Engineering Economic Analysis
- EDG 1210 - Survey of Engineering Graphics
- ENGR 3250 - Project Management for Engineers
- ISYE 3150 - Design & Improvement of Quality Processes
- ENGR 4402 - Engineering Ethics
- ISYE 2600 - Applications of Probability
- ISYE 3400 - Deterministic Operations Research
- ISYE 3600 - Statistics with Applications
- ISYE 4200 - Engineering Optimization: Stochastic Decision Models
- ISYE 4500 - System Modeling & Simulation
- ISYE 4900 - Senior Design Project
Concentrations (28 Credit Hours)
Select one of the following concentrations and appropriate Technical Electives:
Industrial Engineering Concentration
- ACCT 2100 - Introduction to Financial Accounting
- ISYE 3125 - Statistical Quality Control
- ISYE 3350 - Logistics & Supply Chain Systems
- ISYE 3450 - Human Factors Engineering
- ISYE 4250 - Manufacturing & Service Systems
- ISYE 4425 - Facilities Planning & Material Handling
- Select 10 Credit Hours from the list of Technical Electives
Systems Engineering Concentration
- EE 2301 - Circuit Analysis I
- ENGR 3122 - Engineering Mechanics - Dynamics
- ME 3410 - Thermodynamics
- ISYE 3100 - Systems Reliability & Maintainability
- ISYE 3120 - Contemporary Technological Systems: Design, Analysis, & Architecture
- ISYE 3200 - Human Machine Systems
- Select 12 Credit hours from the list of Technical Electives
- EE 2301 - Circuit Analysis I
- ISYE 3398 - Internship
- ISYE 4400 - Directed Study
- ISYE 4490 - Special Topics
- Any 3xxx or 4xxx level courses in ENGR, CE, EE, ME, MTRE, ISYE, SWE, STAT, MGT, IS or ISA
Program Total (127 Credit Hours)
University-Wide Degree Requirements
Note: Program is exempt from the WELL 1000 course requirement.