The Faculty of Engineering will endeavor to nurture students for creativity and innovation dedicated to problem solving and lifelong learning for research, entrepreneurship, and professionalism.

• Develop engineers with highest level of commitment toward the betterment of the society by applying knowledge of science and engineering.
• Nurture young leaders with evolving perspectives and ethics.
• Create and disseminate knowledge and skills using modern tools.

Industrial engineering is a broad field compared to other engineering disciplines. The major activities of industrial engineering stem from manufacturing industries and include work methods analysis and improvement, work measurement and the establishment of standards; machine tool analysis and design; job and workplace design; plant layout and facility design; materials handling; cost reduction; production planning and scheduling; inventory control, maintenance, and replacement; statistical quality control; scheduling; assembly-line balancing, systems, and procedures; and overall productivity improvement. Computers and information systems have necessitated additional activities and functions, including numerically controlled machine installation and programming; manufacturing systems design; computer-aided design/ computer-aided manufacturing, design of experiments, quality engineering, and statistical process control; computer simulation, operations research, and management science methods; computer applications, software development, and information technology; human factors engineering and ergonomics; systems design and integration; and robotics and automation.

Industrial engineering is also known as operations management, systems engineering, production engineering, manufacturing engineering or manufacturing systems engineering; a distinction that seems to depend on the viewpoint or motives of the user. Recruiters or educational establishments use the names to differentiate themselves from others. In healthcare, industrial engineers are more commonly known as management engineers, engineering management, or even health systems engineers.

Whereas, most engineering disciplines apply skills to very specific areas, industrial engineering is applied in virtually every industry. "Examples of where industrial engineering might be used include shortening lines (or queues) at a theme park, streamlining an operating room, distributing products worldwide (also referred to as Supply Chain Management), and manufacturing cheaper and more reliable automobiles. Industrial engineers typically use computer simulation, especially. discrete event simulation, for system analysis and evaluation.

The name "industrial engineer" can be misleading. While the term originally applied to manufacturing, it has grown to encompass services and other industries as well. Similar fields include Operations Research, Management Science, Financial Engineering, Supply Chain, Manufacturing Engineering, Engineering Management, Systems Engineering, Ergonomics, Process Engineering, Value Engineering and Quality Engineering.

The philosophy and motivation of the industrial engineering profession is to find the most efficient and effective methods, procedures, and processes for an operating system, and to seek continuous improvement. Thus, industrial engineering helps organizations grow and expand efficiently during periods of prosperity and streamline costs and consolidate and reallocate resources during austere times. Industrial engineers, particularly those involved in manufacturing and related industries work closely with management. Therefore, some understanding of organizational behavior, finance, management, and related business principles.

The main objective of this program is to provide the high-quality educational experience in the industrial engineering discipline dealing with the design, development, and implementation of integrated systems of humans, machines, and information resources to provide products and services, which will prepare our graduates to contribute successfully to society and to assume leadership roles in industrial, governmental, and academic professions. It helps to provide the nation with specialized knowledge and skills in the physical, social, engineering, and management sciences, such as human and cognitive sciences, computer systems and information technologies, manufacturing processes, operations research, production, and automation. This program also help to provide the society the knowledge how industrial engineer integrates people into the design and development of systems, thus requiring an understanding of the physical, physiological, psychological, and other characteristics that govern and affect the performance of individuals and groups in working environments & to provide service to the industrial, governmental, and professional communities through dissemination of research findings, provision of continuing education programs, interaction with industry and professional colleagues, membership on advisory committees, consulting, and other outreach activities.

1. To provide the high-quality educational experience in the industrial engineering discipline dealing with the design, development, and implementation of integrated systems of humans, machines, and information resources to provide products and services, which will prepare our graduates to contribute successfully to society and to assume leadership roles in industrial, governmental, and academic professions.
2. To provide the nation with specialized knowledge and skills in the physical, social, engineering, and management sciences, such as human and cognitive sciences, computer systems and information technologies, manufacturing processes, operations research, production, and automation.
3. To provide the society the knowledge how industrial engineer integrates people into the design and development of systems, thus requiring an understanding of the physical, physiological, psychological, and other characteristics that govern and affect the performance of individuals and groups in working environments.
4. To provide service to the industrial, governmental, and professional communities through dissemination of research findings, provision of continuing education programs, interaction with industry and professional colleagues, membership on advisory committees, consulting, and other outreach activities.