Nov 24, 2024  
OHIO University Undergraduate Catalog 2013-14 
    
OHIO University Undergraduate Catalog 2013-14 [Archived Catalog]

Industrial and Systems Engineering (B.S.I.S.E.)


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Major code BS7255

Russ College of Engineering and Technology
Department of Industrial and Systems Engineering
270 Stocker Center
Ohio University
Athens, OH 45701
Phone: 740.593.1539
Fax: 740.593.0778
http://www.ohio.edu/industrial/

Dale Masel, contact person

Program Overview

Industrial and systems engineers obtain a broad technical background with special attention to productivity, costs, quality, and the human factor in production and other systems. The systems to which industrial engineering techniques can be applied are quite diverse. Typically, industrial engineers have worked in manufacturing systems, but the methods have found applications in many other systems, including distribution centers, information systems, hospitals, transportation networks, and financial systems.

To prepare our graduates for their job responsibilities, the primary objective of the Industrial and Systems Engineering program is to produce engineers who are able to design, develop, and implement systems that integrate people, materials, equipment, information, and energy. When you have completed the requirements for the ISE degree, you will have the necessary analytical and experimental skills to identify, formulate, and solve engineering problems.

To address successfully technical, business, societal, and ethical aspects in their engineered solutions, several necessary skills have been identified. These skills include:

  • the ability to apply appropriate industrial engineering methods and techniques to complex systems;
  • the ability to apply concepts of engineering science, mathematics, physics, and chemistry;
  • the ability to utilize software relevant to industrial and manufacturing systems engineering;
  • the ability to design, conduct, and analyze statistically valid experiments;
  • interpersonal and professional communication; and
  • teamwork and leadership.

In addition, graduates should have a professional attitude demonstrated by:

  • identification and recognition of the need to continue learning by both formal and informal means;
  • appreciation of the relevance of industrial engineering fundamentals and practice to nonmanufacturing areas; and
  • integrity, cultural awareness, and ethical behavior.

Courses in the first year of the program are similar to the curricula of the other engineering disciplines and include math, chemistry, and general education courses. Second year courses include a sequence in physics and several fundamental industrial engineering topics. The third year includes more advanced industrial engineering topics.

All ISE students are encouraged to participate in co-operative education during their sophomore and/or junior years in order to gain valuable career experience. Working in a real-world job for one or more semesters can enhance classroom instruction and also financially support college education. Students plan their co-op program in coordination with the ISE Department’s co-op advisor and the Russ College’s office of Cooperative Education and Career Programs.

An emphasis in the program is the development of good system design skills. In the senior year, all students complete a two-course sequence focusing on applied system design. Students will work on a project related to the design or improvement of an actual system, such as a manufacturing information system, an inventory control system, a material handling system, or a quality control system. The projects are provided by local industries that participate in our program. 

The senior year also contains courses in a professional concentration area (PCA). The goal of the PCA options is to provide you with a more specialized preparation for your career. The current options are Manufacturing, Supply Chain Management, Health Care Systems, Facility Planning and Development, Information Systems, and Human Factors. If you are unsure about the career field you want to pursue, there is also a general Industrial Engineering PCA. Additional concentration options can be developed to meet the interests who wish to pursue a career in a field not covered by one of the other PCAs.
 

Admissions Information

Freshman/First-Year Admission

ACT and grade requirements are the same as the general University guidelines. Students should take four years of mathematics and a year of chemistry and physics if possible.

Change of Program Policy

Students should have earned a C (2.0) or better grade in a college math course equivalent to MATH 1200 or higher and a C (2.0) or better grade in either a chemistry course equivalent to CHEM 1210 or higher or a physics course equivalent to PHYS 2001 or higher.

External Transfer Admission

In addition to the general university admission requirements, the transfer student must have earned a C (2.0) or better in a college mathematics course (equivalent to MATH 1200 or higher and C (2.0) or better in college chemistry course (equivalent to CHEM 1210 or higher) or a college physics course (equivalent to PHYS 2001 or higher).
 

Opportunities Upon Graduation

Graduates of the industrial and systems engineering program find employment in a wide variety of industries. Fields include manufacturing, distribution, health care, transportation, and more. Due to their systems training and experience, many industrial and systems engineers move into management positions after a few years on the job.

Salaries are competitive, and, because of the increasing need for the U.S. to improve productivity to keep pace with international competition, the need for industrial and systems engineers in manufacturing and other organizations is projected to remain strong.

For more information, see the Department’s website: http://www.ohio.edu/industrial/.

If you wish to increase the breadth or depth of your knowledge, the Department offers courses leading to the M.S.I.S.E. or M.E. in Engineering Management and participates in the college’s integrated PH.D. degree program. The engineering management degree is only offered in an online format. Graduates frequently pursue degrees beyond the bachelor’s degree (typically, M.S., M.E. or M.B.A.). Some students enter graduate school immediately after finishing their B.S. degree, and others begin classes after working for a few years.
 

Requirements

Major Hours Requirement


The industrial and systems engineering major requires a minimum of 125.5 hours.

Universitywide Graduation Requirements


To complete this program, students must meet all Universitywide graduation requirements .

College-Level Requirements for the Russ College of Engineering and Technology


View the College-Level Requirements for the Russ College of Engineering and Technology .

Core Curriculum


Complete the following course:

ISE Electives


Complete a minimum of 16 credits of ISE Elective Classes, including all of the courses in one of the ISE Professional Concentration Areas. ISE 3040  and ISE 4490  are not allowed as ISE Electives.

Professional Concentration Area


General IE PCA Option


Complete the following courses:

Manufacturing Processes Option


Complete one of the following courses:

Manufacturing PCA


Complete the following courses:

Manufacturing Processes Options


Complete one of the following courses:

Supply Chain PCA Option


Complete the following courses:

Health Care PCA Option


Complete the following course:

Engineering Options


Complete one of the following courses:

Health Care Administration Options


Complete one of the following courses:

Industrial Health Options


Complete one of the following courses:

Facility Planning and Development PCA Option


Complete the following courses:

Information Systems PCA


Complete the following courses plus a 3 credit system development project:

Human Factors PCA


Complete the following courses:

Human Factors Options


Complete one of the following courses:

Math and Science Requirements


In addition to completing all of the courses listed below. Students must also have a minimum of 31 semester credits in math and science courses. Students completing all of the courses at Ohio University will reach this threshold, but if a student transfers in a course that is fewer credits that the Ohio University equivalent (e.g., 3 credits for MATH 2301) additional credits of elective math/science courses may be needed to reach the minimum of 31 credits.

Complete the following courses:

Chemistry Requirement


Complete one of the following courses:

Math/Science Elective


Complete at least 6 credit hours from the following courses:

Engineering and Technology


Complete the following courses:

Engineering Science Electives


Complete 8 hours from the following courses:

Complete One of the Following:


Non-Engineering Core


Complete the following courses:

Business Electives


Complete two of the following courses:

Public Speaking Elective


Complete one of the following courses:

General Education not covered by other ISE Requirements


The remainder of the General Education courses (Tier I Math, Tier II AS, SS, HL, and NS; and Tier III) are covered by courses listed elsewhere in the curriculum. Note: the Tier 2FA requirement could be satisfied by THAR 1130, which is also one of the options for the Public Speaking elective (listed under Non-Engineering Core).

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