A BRIEF PROFILE OF STUDY PROGRAM
In the present global competition, business corporates require self adjustment and adaptation to rapidly changing environments. To incorporate this demand, experts with systematical, integrated, and holistic capabilities are needed to solve technical problems. Industry in the stand point of industrial engineering has a wide coverage involving manufacturing industry and service industry. Industrial Engineering embraces various sectors such as: retails, agriculture, mining, harbor, hotels and tourism, offices, hospitals, and public services.
Industrial Engineering is a knowledge which studies systems as integrated parts in industry with an objective to provide rigorous technical solution in a systematic and integrated manner. This is a branch of engineering which deals with the optimization of complex processes or systems. It is concerned with the improvement, implementation and evaluation of integrated systems of people, money, knowledge, information, equipment, energy, materials, analysis and synthesis. It also concerns the mathematical, physical and social sciences, together with the principles and methods of engineering design to predict, and evaluate the results to be obtained. Based on the five supporting elements of this knowledge, including production system, ergonomics, statistics and optimization techniques, information and decision systems, and management, this discipline produces a unique expertise on the capability of analyzing and solving technical challenges by systematic and integrated manner for increased productivity, effectiveness, and efficiency. This uniqueness of expertise makes industrial engineering widely applicable to various categories of industry and greatly demanded in a stringent global business competition.
Derived from the ability to analyze and solve various industrial cases, and adopt the systematic of Man, Money, Method, and Energy (4M+E), industrial engineering graduates are able to display “Techno-Socio-Economy” outlook in a multidisciplinary and multidimensional setting made up of engineering and non engineering components.
VISION
To be a world class centre in science and technology advancements in industrial engineering and a forefront in delivering professionals and technopreneurs with strong competencies for improving productivity and industrial competitiveness.
MISSIONS
- To establish higher education with international standards in industrial engineering.
- To shape the future of top-selected students technoprenour in becoming suitable with global industrial needs.
- To conduct applied-innovative research in relevant topics implemented by industries.
- To apply world class teaching and to disseminate research products for empowerment and national and global prosperity.
CURRICULUM
The curriculum of Industrial engineering is essentially divided into three categories as follows:
1. Interpersonal Development Courses:
Religion and Moral Ethics, English, Civics, System of Universe and Life Sciences, etc.
2. Science and Technology Courses:
Industrial Engineering Design, Ergonomics, Work System Engineering, Physics, Chemistry, Calculus, Logical Programming, Engineering Materials, Quality Control and Assurance, Manufacturing Processes and Technology, Product Development System, Production System and Automation, Industrial Electronics, Engineering Economics, etc.
3. Ingenious Courses:
Development of Competitiveness, Analysis and Design of Information Systems, Financial Engineering, Accounting for Engineers, Marketing for Engineers, Modeling System, Production Control and Design, Plant Layout Design, Operational Research, Supply Chain Management, Project Management, Knowledge Management, Intellectual Property Rights, Corporation and Business Strategy, etc.
4. Creative Behavioral Courses:
System of Thinking, Organizational Design and Management, Industrial Psychology, etc.
Academic Staffs
Teaching staffs within our industrial engineering study program not only have academic expertise in their respective fields but also have years experiences of from the industry and business sectors.
- Dr.Ir.Didit Herawan, MBA.
- Ir.Esa Haruman Wiraatmadja,MSc.Eng.,PhD.
- Dr. Rima Agristina, SE., M.M.
- Adi Budipriyanto, ST., M.T.
- Mirsa D.Novianti, ST., M.T.
- Ir.Rizal Silalahi, MBA.
- WidjayaAdidarma, ST.,MM.
Competency
The basic competency for industrial engineering graduates is learning how to learn. Graduates should have the dedication and ability to update with most-recent advancement in technology and science and perform lifelong learning in adapting to the fast changing world. Derived from a methodology-driven concept a frame of analysis for solutions to industrial practices is adopted to produce technopreneur-driven graduates with the following certain competencies:
- System of Thinking
- Competitive Development
- Production and Manufacturing System
- Supply Chain Management
- Quality management Operational Research
- Ergonomics
- Financial Engineering
- Project Management
- Industrial and Organizational Management
- Transformation and Strategic Management.
The competitive skill and competencies above are engendered through the following educational steps:
First Year
- Understanding the fundamentals of engineering in relation to industrial engineering.
- Understanding characteristics, advantages and limitations of materials used in manufacturing processes and their application.
- Attaining the ability to configure technical drawing and understanding functions and characteristics of drawing as engineering design.
- Introducing basic science principles and theories, and models associated with economics and business domains.
Second Year
- Engendering the ability to implement, collect, process, and interpret statistical data and their research applications.
- Acquiring the ability to conduct case analysis by statistical process control method.
- Achieving the ability to improve and design work systems for effective and efficient working environment.
- Understanding the ability to apply methods in managing human resources in organization.
- Introducing the ability to present intellectual-scientific concepts in accordance with professional conducts.
Third Year
- Engendering the ability to implement optimization techniques for problem solving.
- Introducing the ability to model and analyze the dynamics of manufacturing system.
- Demonstrating the ability to analyze financial aspects in production activities.
- Understanding the ability to conduct analysis and design of organizational structure, corporate information system, and plant lay out.
- Exposing the ability to implement design and control techniques of production system.
- Comprehending the ability to design and analyze the manufacturing system in a comprehensive approach.
- Identifying and understanding the latest issues in quality management.
- Acquiring the ability to design quality system and reliability of manufactured product.
Fourth Year
- Introducing the ability to construct and analyze technical and economic feasibility of factories.
- Acquiring the fundamentals of information technology and management
- Entrepreneurship characters, towards innovative and professional globalized horizon.
- Exposing most recent techniques and development in manufacturing system.
Areas of Concentration
- Industrial Engineering at Bakrie University offers three concentrations of study, including:
- Supply Chain Management, with emphasis on green technology and reliability of management.
- Project Management, with competencies on decision theory and IT based knowledge management.
- Industrial Competitiveness, with focus on transformation and strategic management, intellectual property rights, organizational behavior and corporate culture and industrial policy.
Career Prospects
The most distinct feature of industrial engineering graduates is the flexibility of their career development. This career opportunity includes:
- Chief Executive Officer
- Directorof Production
- Director of Business Development
- General Managerof Factory
- Head of Project Management
- Product Engineering Specialist
- Supply Chain Management Specialist
- Production Control and Quality Assurance Specialist
- Industrial and Facility Design Specialist
- Logistics, Materials Handling, and Inventory Specialist
- Ergonomics and Work Design Specialist
- Consultant, Researcher, and Academician, etc.