BS/MS Honors Program for Industrial Engineering (BS/MS IE)
- Goals and Objectives of the Program
- Program Learning Outcomes (LO)
- Program Study
- Course Description for the Program
The Industrial Engineering Department offers the ladderized B.S. Honors/M.S. Program for qualified Industrial Engineering students who have maintained a cumulative grade point average of at least 3.0 before their senior level in the BSIE program. The student is expected to obtain both BS and MS degree in 5 years. Students who are accepted in the program are provided one-on-one faculty mentoring with a computer and an office space.
Goals and Objectives of the Program
- As a critical and creative thinker
- As an effective communicator
- As a reflective life-long learner
- As a service driven citizen
- An innovator and constant seeker of improvement
Program Learning Outcomes (LO):
- An ability to apply knowledge of mathematics, physical and information sciences, and engineering sciences to the practice of industrial engineering
- An ability to design and conduct experiments as well as to analyze and interpret data
- An ability to design, build, improve, and install systems or processes which are efficient, effective, as well as robust to meet desired needs within identified constraints
- An ability to work effectively in multi-disciplinary and multi-cultural teams
- An ability to recognize, formulate, and solve engineering problems
- A recognition of professional, social, and ethical responsibilityAn ability to effectively communicate orally and in writing using the English language
- An understanding of the effects of engineering solutions in a comprehensive context
- An ability to engage in life-long learning and an understanding of the need to keep current of the developments in the specific field of specialization
- An ability to use the techniques, skills, and engineering tools necessary for engineering and business practice
- An ability to perform services in the form of analysis, design, preparation of plans, specifications, estimates, and implementation of: work standards, SPC, production planning and material control systems, manufacturing and service facilities, operations research models for production and operations, and information systems
- Knowledge and understanding of engineering and management principles as a member and leader in a team, to manage projects in a multi-disciplinary environment.
Program of Study for BS/MS IE
ID 110, 111, 112, 113, 114
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Course Descriptions for BSMS Programs
The BS/MS student needs to take up all the course requirements for the Bachelor of Science in Industrial Engineering (BS IE) and additional courses from the Master of Science in Industrial Engineering (MSIE) as shown below:
|Courses||No. of Units||Type|
|IEN530M||Service Systems Design and Management||3||Major Course|
|IEN531M||Inbound and Outbound Logistics||3||Major Course|
|IEN532M||Lean Thinking/Lean Manufacturing||3||Major Course|
|IEN533M||Information Systems Design and Management||3||Major Course|
|IEN534M||Six Sigma Quality Systems||3||Major Course|
IEN530M Service Systems Design and Management
This course covers service-oriented processes such as food, call centers, and other transactional processes. It includes discussions on SERVQUAL and other metrics used for monitoring and measuring service performances, operations research techniques in managing queues, and scheduling.
IEN531M Inbound and Outbound Logistics
This course covers the principles of a supply chain system and emphasizes on the elements of Inbound and Outbound activities and how to manage the flow of goods and materials. This course also includes discussions on the Extended Supply Chain Model.
IEN532M Lean Thinking/Lean Manufacturing
This course contains the principles of lean manufacturing, value stream mapping, waste elimination (muda), and cycle time improvements.
IEN533M Information Systems Design and Management
This course covers principles on how to design information flows and databases, flowcharting techniques, and new developments in Information Systems.
IEN534M Six Sigma Quality Systems
This course deals with the concept of six sigma and how it works. It also covers the DMAIIC methodology and important quality tools necessary to complete a six-sigma project such as SPC, DOE, VOC, Gage R and R, Process Capability Analysis, Multi-Variate Analysis, Process Mapping, and many more. The course focuses on linking the quality tools into a structured approach for achieving zero defects.
Office of the Chair
Brother Andrew Gonzales Hall, 8th Floor
2401 Taft Avenue
1004 Manila, Philippines
Tel. Nos.: (632) 524-4611 loc. 220
Telefax: (632) 524-0563
Email (Chair) : chairIE@dlsu.edu.ph