FP7-PEOPLE-IRSES-295130 Europe-China High Value Engineering Network () Pack: Technical University of Denmark (DTU) - 1 -
A brief introduction to DTU Founded in 1829 by the Danish physicist Hans Christian Ørsted Situated in Lyngby 10 km north of Copenhagen Leading centre of engineering education and research in Denmark and the largest technological university in Northern Europe 6000 students 600 PhD students 1400 researchers 15 departments - 2 -
DTU Management Engineering, Technical University of Denmark Technical University of Denmark is an independent, national university that covers all engineering disciplines Ranked in the top 20 of engineering institutions worldwide and in the top 10 in Europe DTU Management Engineering department interdisciplinary backgrounds including mathematical modelling, mechanical engineering and embraces the multidisciplinary approaches applied to engineering research. Division Technology & Innovation Management: three research areas, Industrial dynamics and foresight, design engineering & innovation, entreupnership. - 3 -
Design Engineering & Innovation - Who are we? Will also draw upon: Entreupnership: Karen Murdoch Engineering Design & Product Development (mechanical Engineering) - Tim Mcloone (PSS) - Niels Henrik Mortensen (product platforms) Production, Service Management - Anja Maier (communication in design) - Per Langaa (production) - 4 -
An overview of my research activities The focus of this theme is on improvements of both products (including product service systems) and processes (product development and innovation) through developing an understanding of the processes with close industrial or public sector collaboration. This understanding forms the underpinning of tools and methods developed to support industry. The group takes a multidisciplinary approach including computer science, engineering, and innovation management to tackle research projects. The group also contributes to the development of rigorous research methods. - 5 -
Main research theme 1: Innovation (Management) Aims: to improve innovationprocess and product Innovation Management Understanding and improving the process Innovation management Innovation processes Front End of Innovation SCOUTING IDEATION TRANSITION NEW BUSINESS PARTNERSHIPS, TECHNOLOGY ACQUISITIONS AND SALES Relevance to : Task 4.2: Review the role of open innovation in supporting application of university knowledge in emerging economies. Task 6.2: Explore emerging trends and leading practices of service innovation, servisitation, and integrated manufacturingservice systems in Europe and China.. - 6 -
Main research theme 2: Design & New Product development: Engineering Knowledge Management Aims: to improve the product development & innovation process and product Engineering knowledge management Design synthesis Design expertise Decision-making Tools to support innovation Application/domain areas Oil Drilling, Energy, Medical Products. Artificial intelligence tools, design theory, knowledge management Multi-disciplinary approach- design, computational, psychology Relevance to : Task 4.4: Provide guidance on global engineering design and innovation from a knowledge management perspective. Task 6.1: Review conceptual/technological developments of engineering services and explore relevant industrial practices in Europe and China. Task 6.2: Explore emerging trends and leading practices of service innovation, servisitation, and integrated manufacturingservice systems in Europe and China. Task 6.4: Develop a conceptual model for global engineering service operations supported by appropriate modelling - 7 - techniques and software architectures. Key modelling areas Partner will Introduction include service resources integration and optimisation,
Main research theme 3: Design & New Product development: Global Product Development Global Product Development: (Funded Industriens Fonden (2-3 PhD, One postdoc, 2/3 permanent staff) Joint Innovation models Measuring impact of GPD Decision making tools to support GPD Large network of SME s and Companies Relevance to : Task 4.1: Explore the main trends and emerging patterns of specialisation and collocation in high value engineering areas within the global value chains. Task 4.3: Identify key issues relevant to major technological shifts focusing on digitisation and novel design methods Task 6.3: Identify generic and specific issues from Task 6.1 & Task 6.2 through cross-case analysis, and propose a conceptual model to address the issues. Task 8.1: Explore emerging trends and key challenges of ICT applications in high value engineering areas through - 8 - exploratory case studies in Europe and China.
My wish-list for participating Over and above three Strategic Objectives, I am keen to see the following results of endeavour: Advance knowledge of the current understanding of High value engineering areas, focusing upon the front end: innovation and design, development: - Including deep understanding of current trends and proposal of new tools to support global prodcut development - Development of appropriate methodologies - Gaining a systematic view of the emerging trends, main opportunities and key challenges of global engineering networks. Open the door to new collobarations and further research areas - Secure new funding - A book publication - Joint journal articles - 9 -
My contribution to the three objectives SO1: Increasing awareness of the importance and potential value of engineering and networking within the community of high value engineering research. Writing/editing positioning papers/reports Introducing research in relevant events Developing external links with a broader scope of research/industrial organisations SO2: Providing a supportive environment for building collaborative research projects focusing on high value engineering capabilities and novel concepts of operations. Facilitating communication between research partners Exploring synergies among work packages and research themes Encouraging methodology discussions/developments for high value engineering networks in a long ran SO3: Establishing a framework for global network collaborations in high value engineering areas. Integrating research outcomes with an accessible format Establishing the HVEN consortium involving a broader scope of researchers and practitioners Securing continuing researching funding around the main themes of HVEN - 10 -
Key contacts for partners Saeema Ahmed-Kristensen Tel: +45 4525 5563 Email: sakr@dtu.dk www.man.dtu.dk/ekm will change soon - 11 -