Industrial Engineering
Location: 2014 Cherry Building, Phone (409) 880-8804
Chair: Brian Craig, Ph.D., PE, CPE, (409) 880-8804, 2014 Cherry Engineering Building
Degree Coordinators:
Bachelor of Science in Industrial Engineering Advisor, Brian Craig, Ph.D., PE, CPE, (409) 880-8804, 2014 Cherry Engineering Building
Bachelor of Science in Industrial Technology Advisor, Kerrie Frederick, (409) 880-8242. 202 Carl Parker Building
Bachelor of Science in Industrial Technology Program Director, Gary Yentzen, M.B.A., (409) 880-8806, 2624 Cherry Engineering Building
Bachelor of Science in Industrial Technology Program Associate Director, Alberto Marquez, Ph.D., PE, (409) 880-8809, 2203 Cherry Engineering Building
Master of Engineering Management Advisor, Alberto Marquez, Ph.D., PE, (409) 880-8809, 2203 Cherry Engineering Building
Master of Engineering in Industrial Engineering, Master of Engineering Science in Industrial Engineering and Doctor of Engineering in Industrial Engineering Advisor, Weihang Zhu, Ph.D., (409) 880-8876, 2210 Cherry Engineering Building
The Â鶹AV Bachelor of Science in Industrial Engineering is accredited by the Engineering Accreditation Commission of ABET,
Degrees Offered
Bachelor of Science degrees in Industrial Engineering and in Industrial Technology
Bachelor of Science in Industrial Engineering, Bachelor of Science in Industrial Technology, Bachelor of Science in Industrial Technology 2+2
Graduate degrees in Industrial Engineering and Engineering Management
Master of Engineering (non-thesis), Master of Engineering Science (thesis), Master of Engineering Management, Doctor of Engineering
Mission Statement
Our mission is to provide quality education and meaningful career opportunities for both undergraduate and graduate students. We develop highly qualified graduates with potential to assume positions of increasing responsibility.
Our mission will be accomplished by recruiting and educating qualified students in an accredited curriculum of academic course work and experiences. demand for graduates will be driven by frequent contact with employers through initiatives such as advisory council meetings, continuing education, co-op programs, consultation, research/development/publications, and student projects.
Vision
Our vision is to be the “Preferred Provider of Industrial Engineering Graduates and Technology.” We will accomplish our vision by (1) recruiting quality students, (2) developing employer-focused relationships (3) increasing supporting resources, and (4) integrating academic course work and industrial engineering experiences.
Industrial Engineering Department Goals
- Recruit high-quality industrial engineering students
- Prepare students with skills to compete through course work in accredited program
- Enhance students' career opportunities through frequent employer contracts and work experiences
- Encourage students to develop leadership skills
- Encourage students to pursue life-long learning
- Develop relationships with employers of industrial engineering skills
- Increase department resources through growth in enrollment, development and funded projects
- Conduct applied research and publish results with the ultimate goal of technology transfer for the betterment of mankind
- Provide exemplary service for the benefit of the university, the Beaumont metropolitan community, the State of Texas and global business and industrial organizations, and the engineering professions
Undergraduate Degree Plans
Bachelor of Science in Industrial Engineering – 121 hours
Bachelor of Science in Industrial Technology - 120 Hours
Bachelor of Science in Industrial Technology 2+2 – 120 hours
Bachelor of Science – Industrial Engineering
Suggested Program of Study – Total Min. Hours: 121
Industrial engineering serves vital functions in today’s world and provides a wide range of career opportunities. It is particularly well positioned to develop individuals who provide solutions for the fields of supply chain management, logistics, operations research, project management, six sigma and "lean" engineering, economic analysis and associated solutions, quality assurance management, plant operation control/design, and managerial problem solving that require knowledge of fundamental science and engineering practices including human-system interaction. Industrial engineering deals not only with technology but also with people. It especially deals with managerial problems and human factors, ergonomics, and safety, requiring knowledge of fundamental science and engineering practice for their solutions. The department of Industrial Engineering at Â鶹AV is one of the leaders in integrating computer applications, including computer-integrated manufacturing, simulation, lean manufacturing, and micro-meso machining into the curriculum. The curriculum also focuses on the human user and how human performance within a system can be improved while decreasing human error and injury.
Industrial engineers combine advanced study in management systems, economics, and decision-making to answer such questions as: “What products or services should we offer? What materials and methods should we use? How can we best motivate and reward people? How can we improve quality, productivity, service, and employee safety?” Typical responsibilities of the industrial engineer involve design, operation, and management. While the manufacturing industry demands many graduates, increasing numbers are finding satisfying employment in other kinds of businesses, such as airlines, banks, restaurant chains, department stores, hospitals, and governmental agencies.
An advisory committee of successful alumni from industry supports the department’s academic staff. The Â鶹AV Industrial Engineering department provides a campus home and friendly team atmosphere with a focus on preparation of students for career leadership.
Bachelor of Science – Industrial Engineering Online (2+2) Option
The Department of Industrial Engineering offers a Bachelor of Science Degree in Industrial Engineering (B.S. IE) in a 2+2 online format. This program allows students to complete the final two years of an Industrial Engineering degree online with minimal travel from home. The program is designed for students who are unable to attend a traditional IE program due to geographic location and scheduling issues (work and other issues). The program also offers a lower cost approach to becoming an Industrial Engineer.
The B.S. IE degree earned with this delivery method is identical to the degree earned by on-campus students. Our on-campus students often enroll in the same online courses due to co-op and employment at local companies.
The 2+2 online program is designed for students who have completed lower division courses at a community college or four year institution and want to finish their industrial engineering degree via online instruction. All junior and senior courses are delivered via online instruction, except for a 3 day manufacturing lab that requires one weekend visit to Beaumont, Texas. Most freshmen and sophomore courses are also available online from Â鶹AV or at your local community college. A maximum of 66 hours can be transferred from 2 year community colleges. To ensure that your transfer credits are maximized, it is important that you speak with a college of engineering undergraduate advisor early in the application process.
Bachelor of Science/Master of Business Administration (M.B.A.) (five-year program)
Industrial Engineering undergraduates are also eligible to participate in a five-year academic program that leads to two degrees: a Bachelor of Science in Industrial Engineering and Master of Business Administration (M.B.A.). Industrial Engineering students will complete all of the normal Bachelor of Science in Industrial Engineering degree requirements and the industrial engineering electives are replaced with M.B.A. leveling courses. For more information about this program, please contact the Industrial Engineering department.
Special scholarships are available to qualified high school graduates. An expedited M.B.A. admission process is also available to Bachelor of Science in Industrial Engineering seniors who meet requirements.
Industrial Engineering Program Educational Objectives
Graduates of the LU B.S. IE program are expected to attain the following two program educational objectives within a few years of graduation:
- Graduates will demonstrate professional leadership (career progression, leadership positions, initiate change, etc.) and actively engage in life-long learning.
- Graduates will be successful in improving operations by solving contemporary and emerging industrial engineering problems and will effectively communicate these improvements with others at all levels.
Industrial Engineering Student Outcomes
The following outcomes are achieved in one or more courses in the B.S. IE curriculum. Graduates will have the following:
a) an ability to apply knowledge of mathematics, science, and engineering.
b) an ability to design and conduct experiments, as well as to analyze and interpret data.
c) an ability to design a system, component, or process to meet desired needs within realistic constraints such as economic, environmental, social, political, ethical, health and safety, manufacturability, and sustainability.
d) an ability to function on multidisciplinary teams.
e) an ability to identify, formulate, and solve engineering problems.
f) an understanding of professional and ethical responsibility.
g) an ability to communication effectively.
h) the broad education necessary to understand the impact of engineering solutions in a global, economic, environmental, and societal context.
i) a recognition of the need for and ability to engage in life-long learning.
j) a knowledge of contemporary issues.
k) an ability to use the techniques, skills, and modern engineering tools necessary for engineering practice.
l) an ability to design, develop, implement, and improve systems that include people, materials, information, equipment, and energy.
m) the in-depth instruction to accomplish the integration of systems using appropriate analytical, computational, and experimental practices.
Bachelor of Science – Industrial Technology
Suggested Program of Study – Total Min. Hours: 120
The department of Industrial Engineering offers a Bachelor of Science degree in Industrial Technology (B.S. IT). Â鶹AV’s Industrial Technology program prepares students with the credentials for promotion within their technical field, a career in industrial technology, or for positions in industrial management. There are two options for the B.S. IT degree; the 2+2 option and the 4-year at LU option. The 2+2 option program builds a B.S. degree focused on technology and management on top of an AAS degree with a technology focus. The B.S. IT degree is available 100% online. The 4-yeat at LU B.S. IT option is for students that do not have an AAS degree but are still interested in a technology based degree and will complete all of their coursework at Â鶹AV as described in the degree plan.
For the 2+2 option, the first two years of this program are composed primarily of technical courses. These courses are commonly taken at two-year schools such as the Â鶹AV Institute of Technology, Â鶹AV State College at Orange or Â鶹AV State College at Port Arthur. Students are also accepted from other technical two-year programs throughout the state and nation. Most students transfer 34 technical hours from an Associate of Applied Science degree, Certifications, or Military Training toward the 120 hour B.S. IT degree. Students can also transfer an additional 32 hours of academic coursework for a total of 66 hours of transfer credit. Technology courses beyond those specified in an AAS major field must be approved by the Industrial Engineering department. Admission to the B.S. IT program will be granted, upon application, after completion of a minimum of 34 semester hours towards the associate of applied science degree or the engineering common program with a GPA of at least 2.00.
Students in a two-year applied science program who intend to continue their education in the Industrial Technology program should make an appointment for advisement very early in their course work. Early advisement for the B.S. IT will ensure that courses taken during the applied science program will transfer to the Industrial Technology program.
The 4-year at LU B.S. IT option is open to any student that meets Â鶹AV's admission/academic performance requirements. The degree is a great option for students that are interested in a technology-based career. Students in either B.S. IT degree option will learn how to streamline processes, improve quality, ensure safety in the workplace, and manage production and inventory systems and technical personnel. Industrial technology students typically gain employment with companies that manufacture a product. Daily activities might include solving problems in production, improving quality of products and processes, and managing technical personnel.
Online coursework availability.
All B.S. Industrial Technology courses have online sections. Many B.S. IT courses also have on campus sections. Many students who work full time have successfully completed the program. Additionally, some other courses will also be online for students who have not finished an associate degree.
Industrial Technology Program Educational Objectives
Graduates will possess the ability to develop, implement, and improve integrated systems that include people, materials, information, equipment, and energy.
Graduates will possess the ability to solve technical problems, to work on multidisciplinary teams, and to communicate problems and solutions effectively in both the manufacturing and service industries.
Graduates will possess an appreciation of professional and ethical responsibility and the desire to seek self-improvement.
Industrial Technology Student Outcomes
The Bachelor of Science in Industrial Technology Program is designed to produce the following outcomes in its majors:
a) an ability to apply knowledge of mathematics and science to the analysis of industrial technology problems
b) an ability to conduct scientific and technical experiments, as well as to analyze and interpret data
c) an ability to improve a system, component, or process to meet desired needs
d) an ability to function on multidisciplinary teams
e) an ability to identify, formulate, and solve technical problems
f) an understanding of professional and ethical responsibility
g) an ability to communicate effectively
h) a broad education necessary to understand the impact of technical solutions on a society, both locally and globally
i) a recognition of the need for, and ability to engage in, life-long learning
j) a knowledge of contemporary issues
k) an ability to use the techniques, skills, and modern technical tools necessary for industrial technology practice
l) an ability to develop, implement, and improve systems that include people, materials, information, equipment, and energy
m) the in-depth instruction to integrate systems using appropriate analytical, computational, and experimental practices
Graduate Degree Plans
Master of Engineering (non-thesis)
Master of Engineering Science (thesis)
Master of Engineering Management
Master of Engineering Management
The Master of Engineering Management is a non-thesis degree program that can be completed on campus or online. Coursework is designed to build onto the education received while completing an accredited bachelor's degree in engineering and the individual's professional experience.
A total of 36 credit hours are required at the graduate level. Included among these 36 credit hours are 15 hours of core courses required of all M.E.M. students. Course work in addition to the required core courses is tailored specifically to the needs of the student, but generally has approximately one-third of the courses in the general area of technical management, one-third in Business Administration, and one-third in the student's technical discipline such as Civil Engineering, Chemical Engineering, Electrical Engineering, Industrial Engineering or Mechanical Engineering.
Master of Engineering in Industrial Engineering
The Master of Engineering degree is a non-thesis 36 semester hour program designed to suit the needs of the practicing engineer. A total of 36 credit hours are required at the graduate level. Included among the 36 credit hours are one course from each of the three categories of core courses for a total of 9 semester hours of core course work and a minimum of 27 semester hours (nine courses) of electives. Each student must also pass a final comprehensive examination.
Master of Engineering Science in Industrial Engineering
The Master of Engineering Science degree requires the completion of 30 semester hours of graduate course work, including a thesis. Included in the 30 credit hours are one course from each of the three categories of core courses for a total of 9 semester hours of core course work and a minimum of 21 semester hours (seven courses) of electives. Each student must also satisfactorily complete and defend their thesis (ENGR 5390 and ENGR 5391).
Doctor of Engineering in Industrial Engineering
The Doctor of Engineering degree is designed to permit the practicing engineer to study practical engineering problems of a complex nature. Each student shall register for ENGR 6110, Professional Seminar, each semester in which the student is registered for more than six hours or in which the student is registered for field study. A minimum of 4 hours is required. Each student must complete one course from each of the three categories of core courses for a total of 9 semester hours of core course work. Each student must pass the diagnostic examination. This examination has the objectives of determining the student's qualifications for a doctoral program and to provide guidance for the selection of a study program. This examination must be completed before the student has earned 15 semester hours of course credit after admission to the program. Each student must complete a minimum of 18 credit hours of field study preparatory courses in a concentration designed to form a cohesive degree plan and must be approved by the student's advisory committee. The field study preparation includes completion of one semester of ENGR 6320, Justification of Engineering Project. Each student must pass the candidacy examination. The purposes of this examination are to test the ability of the student to comprehensively relate the subjects of the study program and to ascertain the student's qualifications to perform the field study. Each student must complete the field study/dissertation. After the student is admitted to candidacy a formal engineering proposal must be presented to the doctoral committee. Upon committee approval of the proposed field study the work is initiated. Normally, 30 semester hours of field study is required. Each student must successfully defend the field study/dissertation. Upon completion of the field study/dissertation a formal report with a standard thesis format shall be submitted to the committee and defended in an oral examination.