Bachelor of Science in Industrial Engineering

Bachelor of Science in

Industrial Engineering

Bachelor of Science in Industrial Engineering (BSIE) intended to prepare students for a professional industrial engineering career including a leading role in the design, improvement, and installation of integrated systems of people, materials, information, equipment, and energy.

Program Educational Objectives

The graduates of industrial Engineering program shall:

1 Be effective in Engineering design and the practical application of engineering theory in accordance with high standards of ethics;Competent and equipped with research-based knowledge
2 Be effective in communication skills and exhibits teamwork;Collaborative and with leadership skills
3 Be successfully employed or accepted into graduate programs and serve their communities, whether locally, nationally, or globally; andLife-long learner
4 Be successful designer, manager, planner, and or entrepreneur in the practice of civil engineering profession serving local international or global communities.Ethical, critical thinker, problem solver, creative, and innovative
  • Program Outcomes
    • Apply knowledge of mathematics and science to solve complex industrial engineering problems;
    • Design and conduct experiments, as well as to analyze and interpret data;
    • 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, in accordance to standards;
    • Function in multidisciplinary and multicultural teams;
    • Identify, formulate, and solve complex industrial engineering problems;
    • understanding of professional and ethical responsibility;
    • Communicate effectively;
    • Broad education necessary to understand the impact of engineering solutions in a global, economic, environmental, and societal context;
    • Recognition of the need for, and an ability to engage in life-long learning;
    • Knowledge of contemporary issues
    • Use techniques, skills, and modern engineering tools necessary for engineering practice;
    • Knowledge and understanding of engineering and management principles as a member and leader in a team, to manage projects and in multidisciplinary environments; and
    • Design, develop, implement, and improve integrated systems that include people, materials, information, equipment, and energy.
  • Curriculum

    1st Year • 1st Semester

    Course NameUnits
    Chemistry for Engineers (lab)1
    Chemistry for Engineers (lec)3
    Computer Fundamentals and Prog 11
    Engineering Drawing and Plans1
    English Enhancement Course3
    Mathematics in the Modern World3
    Algebra and Trigonometry2
    Analytic Geometry w Solid Mensuration2
    Science, Technology and Society3
    Physical Education 12
    Euthenics 1 - The University and I2
    National Services Training Program 13

    1st Year • 2nd Semester

    Course NameUnits
    Purposive Communication3
    Computer Fundamentals and Prog 21
    Engineering Economy3
    Euthenics 2- The Family2
    Calculus 1 (Differential Calculus)3
    Engineering Data Analysis3
    Physical Activities Toward Health and Fitness 22
    Physics for Engineers (lab)1
    Physics for Engineers (lab)3
    Understanding the Self3
    Physical Education2

    2nd Year • 1st Semester

    Course NameUnits
    Computer Aided Drafting1
    Elementary of Electrical Engineering3
    Calculus 2 (Integral Calculus)3
    Engineering Mechanics3
    Industrial Materials & Processes (lab)1
    Industrial Materials & Processes (lec)2
    Physical Education 32
    Environmental Science and Engineering3
    Readings in Philippine History3
    Statistical Analysis for IE 23

    2nd Year • 2nd Semester

    Course NameUnits
    Financial Accounting3
    Art Appreciation3
    Differential Equations3
    Industrial Organization & Management3
    Work Study and Measurement (lab)1
    Work Study and Measurement (lec)3
    Physical Education 42
    The Contemporary World3

    3rd Year • 1st Semester

    Course NameUnits
    Managerial Accounting3
    Ergonomics (lab)1
    Ergonomics (lec)2
    Panitikang Filipino3
    Advanced Engineering Mathematics (lec)3
    Operations Research 13
    Principles of Economics3
    Quality Management Systems3
    Rizal's Life, Works and Writings3

    3rd Year • 2nd Semester

    Course NameUnits
    Ergonomics 2 (lab)1
    Ergonomics (lec)2
    Operations Management (lab)1
    Operations Management (lec)3
    Operations Research 23
    Project Feasibility (lec)2

    3rd Year • Summer

    Course NameUnits
    Industry Immersion/OJT (lec)1
    Industry Immersion/OJT (lab)1

    4th Year • 1st Semester

    Course NameUnits
    Academic Writing3
    Information Systems3
    Elective 1: Lean Six Sigma3
    Project Feasibility (lab)1
    Elective 2: Project Management3
    Supply Chain Management3
    IE Project Study/Methods of Research1
    IE Capstone Project (lab)1

    4th Year • 2nd Semester

    Course NameUnits
    Correlation Course3
    Systems Engineering3
    Basic Occupational Safety & Healthy3
    IE Capstone Project (lab)1
    Elective 3; Special Topics in IE3
    IE Laws, Ethics, Obligations & Contracts2
    The curriculum is subject to modification without prior notice. For precise and current listings, kindly coordinate with our registrar department.
  • Estimated Fees
    Particular Amount
    Estimated Total Fees per semester (including tuition and other fees)₱40,227.00
    The particulars and corresponding amounts are subject to modification without prior notice. For precise and current listings, kindly coordinate with our treasury and assessment department.
  • Career Opportunities

    Entry Level:

    • Industrial Engineer: Assist in analyzing and improving manufacturing processes. Optimize workflows, layout designs, and production schedules.
    • Production Planner: Assist in planning and scheduling production activities. Coordinate with different departments to ensure smooth operations.
    • Logistics Coordinator: Assist in coordinating the movement of goods and materials. Optimize supply chain processes for timely deliveries.
    • Quality Assurance Analyst: Assist in implementing quality control processes. Perform inspections and analyze production data for quality improvement.
    • Manufacturing Analyst: Assist in analyzing data related to manufacturing performance. Contribute to the development of improvement strategies.


    • Senior Industrial Engineer: Lead projects to redesign and optimize complex processes. Mentor junior engineers and oversee process improvement initiatives.
    • Supply Chain Manager: Oversee and optimize the entire supply chain process. Collaborate with suppliers, manufacturers, and distributors.
    • Operations Manager: Manage day-to-day operations in manufacturing or service settings. Optimize processes for efficiency and cost-effectiveness.
    • Quality Manager: Oversee quality control processes and standards. Implement strategies for continuous improvement.
    • Project Manager (Industrial Engineering Projects): Manage industrial engineering projects from initiation to completion. Coordinate with cross-functional teams and stakeholders.

    Senior level:

    • Director of Operations: Oversee the overall operations of an organization. Develop and implement operational strategies.
    • Senior Supply Chain Consultant: Provide expert consultation on supply chain optimization. Advise clients on improving efficiency and reducing costs.
    • VP of Manufacturing: Serve as the vice president overseeing manufacturing operations. Contribute to strategic planning and business development.
    • Director of Quality Assurance: Oversee the quality assurance department. Shape the quality management strategy of the organization.
    • Senior Process Improvement Specialist: Lead initiatives to improve organizational processes. Conduct performance analysis and implement best practices.

    Managerial/Executive Level:

    • Chief Operations Officer (COO): Serve as the top executive overseeing all operational functions. Shape the overall strategic direction of the organization.
    • Chief Supply Chain Officer (CSCO): Lead supply chain strategies and initiatives. Ensure alignment with overall business objectives.
    • Chief Industrial Engineer: Serve as the top executive in charge of industrial engineering. Shape the industrial engineering department's strategic direction.
    • CEO/President of Manufacturing Company: Serve as the top executive in charge of a manufacturing company. Set corporate strategy, lead business development, and ensure company success.
    • Director of Lean Six Sigma: Oversee Lean Six Sigma initiatives across the organization. Drive continuous improvement and operational excellence.


Manuel S. Enverga University Foundation - Calauag, Inc. Calauag


Industrial Engineering