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:
OBJECTIVES | GRADUATE ATTRIBUTES |
---|---|
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; and | Life-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 Name Units Chemistry for Engineers (lab) 1 Chemistry for Engineers (lec) 3 Computer Fundamentals and Prog 1 1 Engineering Drawing and Plans 1 English Enhancement Course 3 The University and I 2 Mathematics in the Modern World 3 Algebra and Trigonometry 2 Analytic Geometry w Solid Mensuration 2 Naval Res Officer Trng Course 1 3 National Service Training Program 1 3 Physical Activities Toward Health and Fitness 1 2 Science, Technology and Society 3 1st Year • 2nd Semester
Course Name Units Purposive Communication 3 Computer Fundamentals and Prog 2 1 Engineering Economy 3 The Family 2 Calculus 1 (Differential Calculus) 3 Engineering Data Analysis 3 Naval Res Officer Trng Course 2 3 National Service Training Program 2 3 Physical Activities Toward Health and Fitness 2 2 Physics for Engineers (lab) 1 Physics for Engineers (lab) 3 Understanding the Self 3 2nd Year • 1st Semester
Course Name Units Computer Aided Drafting 1 Elementary of Electrical Engineering 3 Calculus 2 (Integral Calculus) 3 Engineering Mechanics 3 Industrial Materials & Processes (lab) 1 Industrial Materials & Processes (lec) 2 Physical Activities Toward Health and Fitness 3 2 Environmental Science and Engineering 3 Readings in Philippine History 3 Statistical Analysis for IE 2 3 2nd Year • 2nd Semester
Course Name Units Financial Accounting 3 Art Appreciation 3 Differential Equations 3 Industrial Organization & Management 3 Work Study and Measurement (lab) 1 Work Study and Measurement (lec) 3 Physical Activities Toward Health and Fitness 4 2 Thermodynamics 3 The Contemporary World 3 3rd Year • 1st Semester
Course Name Units Managerial Accounting 3 Ergonomics (lab) 1 Ergonomics (lec) 2 Panitikang Filipino 3 Advanced Engineering Mathematics (lec) 3 Operations Research 1 3 Principles of Economics 3 Quality Management Systems 3 Rizal's Life, Works and Writings 3 3rd Year • 2nd Semester
Course Name Units Ergonomics 2 (lab) 1 Ergonomics (lec) 2 Retorika 3 Ethics 3 Operations Management (lab) 1 Operations Management (lec) 3 Operations Research 2 3 Project Feasibility (lec) 2 Technopreneurship 3 3rd Year • 1st Semester
Course Name Units Industry Immersion/OJT (lec) 1 Industry Immersion/OJT (lab) 1 4th Year • 1st Semester
Course Name Units Academic Writing 3 Information Systems 3 Elective 1: Lean Six Sigma 3 Project Feasibility (lab) 1 Elective 2: Project Management 3 Supply Chain Management 3 IE Project Study/Methods of Research 1 IE Capstone Project (lab) 1 4th Year • 2nd Semester
Course Name Units Correlation Course 3 Systems Engineering 3 Basic Occupational Safety & Healthy 3 IE Capstone Project (lab) 1 Elective 3; Special Topics in IE 3 IE Laws, Ethics, Obligations & Contracts 2 infoDisclaimerThe 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 infoDisclaimerThe 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.
Mid-Level:
- 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.
Keywords
BSIE
Industrial Engineering
Engineering
Science
Undergraduate
CENG
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