The future direction of Industrial Engineering With the world economy, globalization and liberalization trend in the development of Taiwan's industrial structure is also facing enormous changes in how to make innovation in Taiwan's industrial restructuring, to enhance competitiveness and profitability, has become the industry sustainable management of important questions. The following separately from different directions to explore the future direction of industrial engineering: (1) personnel training The needs of future trends of globalization and competition, the future of Industrial Engineering must have a solid professional foundation, flexible multi-knowledge, as well as cognitive values to enable them to adapt to globalization and rapidly changing environment of intense competition. (2) systems integration Integration of various professional fields (including manufacturing, services, organizations, public management, technical and economic, scientific decision-making and risk analysis, project management, etc.) in order to adapt to future needs. IT systems security extends to risk analysis, risk management and reliability analysis. For example, system design notes that if we do not risk analysis and, if they have questions will result in great disaster. (3) Industry-University Collaboration Industry-University Collaboration, including collaborative research and personnel training. Therefore, in addition to combining theory and practice of empirical research, industrial engineering talent and foundation director of education, lifelong learning, teaching, and so are the focus of the network. (4) innovation and R & D Management Time network information easily accessible, innovative because of its rarity and to create new value to generate new business model. However, innovation can be managed? Industrial engineering as a highly integrated disciplines, how to research on innovation play an important role in the future are questions worth pondering. (5) global manufacturing management and business integration Redesign of job and resource scheduling, flexible set up of international production systems, including enterprise resource planning, supply chain management such as management system, and the establishment of enterprise integration, concurrent engineering, such as collaborative commerce platform, demand, production, sales, service and financial integration together. (6) people due to engineering and safety engineering All the manufacturing work environment, public life, space, consumer product design, man-machine interface, people with disabilities, auxiliary equipment, etc., can be applied to people because of engineering and safety engineering. The development of future research should pay greater attention to ways to enhance the values of humanity, as well as the direction of raising the quality of life, etc.. (7) Logistics Management Engaged in large-scale complex systems (such as semiconductor production scheduling, power dispatching, telecommunications network planning) problem of architecture in order to set up the model of complex issues; the application of new mathematical tools and information to develop an effective analytical method, and the development of the management of large systems, including systems engineering, project management. With the increasingly competitive enterprise, to be more rapid response competitive strategy, so how in the uncertain environment for effective use of resources, careful assessment and planning rapidly, combined with information technology and operations research to important direction. (8) Service Management Service system, including the direction of future research in Industrial Engineering Services System, the general issue of research, service design, service R & D management, service system design, service operations management, service performance management, application areas apart from the service industry, and yet the people in government services and e-government, etc.; and at network environment, design and manage new services. Such as e-commerce, customer relationship management and other new business service models. (9) environmental management Industrial Engineering from the "accrued benefit when the benefit of the world" perspective, from the "green production" and the product life cycle of production to study the impact on the environment, thus to the scientific management method of the production process to reduce the negative environmental impact. (10) rational decision-making The introduction of scientific management and decision analysis methods to assist public policy and national policy to explore the rational, the establishment of science and technology managers prediction, assessment and planning capacity, set up from a strategic, decision-making to the integration of operations management models and expand the contribution of industrial engineering.