The project is situated at the intersection of design, policy making, and complex systems. It will be carried out in collaboration with the above-mentioned partners across Europe. Research activities will revolve around the design, implementation and validation of new data-driven and system-level visualisations, indicators for research and innovation, and data-analytics for engineering systems. The aim is to support policy makers and other decision makers with inclusive, timely, trusted, and open indicators and visualisations that allow for dynamic system exploration
Applicants should have (or expect to obtain by the start date) a PhD degree, preferably in engineering systems, systems design, design engineering, industrial and systems engineering. Preference will be given to those candidates with a high level of English who can demonstrate an aptitude for conceptual and empirical work, modelling and programming, visualisations of complex systems, and the confidence to network within academic, public, and commercial organisations
Post Doc in Complex Innovation System Architecture DTU Management Engineering Share on Facebook Share on Twitter Share on LinkedIn Tuesday 12 Sep 17 Apply for this job Apply no later than 29 September 2017 Apply for the job at DTU Management Engineering by completing the following form. Apply online DTU Management Engineering invites applicants for a 2-year Post Doc in “Complex Innovation System Architecture”, starting ideally on December 1 st 2017 or as soon as possible thereafter. The project will be based in the Engineering Systems Division led by Professor Anja Maier. The Engineering Systems division is growing fast and is characterised by a vibrant and supportive research environment with engaged staff and strong research collaborations with leading universities and industry worldwide. Our research focuses on understanding and improving the ways in which engineering systems are designed, managed, and operated throughout their life cycles. Our research spans the boundaries of 1. interdisciplinary engineering design (e.g. product design and development; systems engineering), 2. engineering project, programme and portfolio management, and 3. related policy, public engagement and strategic processes. The Post-Doctoral Research Associate will be part of the EURITO project, a three-year European Union Horizon 2020 research and innovation action starting in 2018, with Nesta (UK) as co-ordinator and with DTU (Denmark), FOKUS Fraunhofer (Germany), and Cotec (Spain) as project partners. EURITO´s overall objective is to enhance the design of research and innovation policies in Europe. This is to be achieved by developing a new set of system-level indicators for innovation and research activities, as well as analytics and visualisations based on open data sources and novel methods. Data sources to be mined include official and unofficial industry registries, company websites, data traces within social networking and community websites (e.g. Meetup.com and Twitter) generated by emergent communities of practice and other non-traditional bottom-up data sources. Methods to be applied include the use of network and content analysis, interactive data visualisation dashboards, and other methodological tools drawn from data science. DTU’s role in the consortium is centred on mapping, understanding and supporting the underlying system architectures connected to research and innovation in Europe with a particular focus on system architecture and system visualisation based on data collection and analysis both at Danish and international levels. The Post Doc will take a lead role in co-ordinating DTU’s research- and management activities on the project. More specifically, this includes co-creation, development, and testing of new system-level indicators for research and innovation, as well as analytics and visualisations for decision-support to policy makers and other stakeholders designing complex systems. A first stage in the project will involve the identification and acquisition of suitable pilot cases and data generated in Denmark within relevant industry sectors (e.g. R&D and production including cleantech or medtech). Those cases will serve to prototype bottom-up data collection strategies, analysis methods and visualisations, e.g. in the form of dashboards, which will be iteratively validated with policy makers and other decision makers. In later stages, the results of the pilots in Denmark should be integrated and scaled-up using and contributing to the results produced by the project partners in their respective pilots across Europe. More generally, the project will be looking at what an engineering systems perspective can offer to develop new data-driven insights for the design of regional and national research and innovation policies. This includes better integration of empirical evidence (e.g. open datasets) within the policy making process. The emphasis is on indicators, analyses and visualisations that reflect the systemic nature of the challenges that policy makers face when designing policies and that are based on bottom-up data that is at industry, regional and national levels in the context of industrial and knowledge-based activities. In the context of the EURITO project at DTU, we will use the term system architecture as the conceptual model that defines the structure and behaviour of the complex socio-technical systems under design (e.g. for the pilot cases in the cleantech industry and/or research and innovation in medtech). The architecture is the explicit description of the system being design and analysed, and this description needs to be organised in a way that supports reasoning about the structures and behaviours of the system. As such, relevant, inclusive, timely, trusted, and open research and innovation indicators that provide such description and facilitate decision-making are crucial for policy makers. We also extend the application of these indicators beyond policy makers to other people and organisations influencing the design and evolution of complex industrial systems, which in this project in addition to relevant policy makers, are understood as the system architects for whom the indicators are being created. If your passion is system-level design, data, and visualisations applied to large societal challenges, this position is for you. Responsibilities and tasks The project is situated at the intersection of design, policy making, and complex systems. It will be carried out in collaboration with the above-mentioned partners across Europe. Research activities will revolve around the design, implementation and validation of new data-driven and system-level visualisations, indicators for research and innovation, and data-analytics for engineering systems. The aim is to support policy makers and other decision makers with inclusive, timely, trusted, and open indicators and visualisations that allow for dynamic system exploration. The Post Doc will be responsible for: Technical and organisational project co-ordination of DTU’s role in EURITO, acting as the operational point of contact between DTU and other project partners. Taking a lead role in the conceptualisation, procurement and co-development of data collection, visualisation and analysis tools to support DTU’s research on the EURITO project Co-ordinating the contribution of the DTU team members throughout the EURITO project. This includes co-supervising two PhD candidates at DTU working on the project, on system architecture and system visualisation respectively. Facilitating the co-creation process of indicators and visualisations that support policy makers and other decision makers. Stakeholders include large industry organisations, public agencies, and more generally, all those sharing the objective and mandate of designing and supporting complex industrial ecosystems for research and innovation. Contributing to the dissemination of research results in both scientific and practitioner-oriented channels in coordination with project partners. Qualifications Applicants should have (or expect to obtain by the start date) a PhD degree, preferably in engineering systems, systems design, design engineering, industrial and systems engineering. Preference will be given to those candidates with a high level of English who can demonstrate an aptitude for conceptual and empirical work, modelling and programming, visualisations of complex systems, and the confidence to network within academic, public, and commercial organisations. Further qualifications include Excellent communication skills, fluent written and oral English Outstanding in analysis and synthesis Well-versed in interaction with manifold stakeholders in academia, public institutions, funding bodies, industry, design- and service consultancies Ability to work under deadlines with a result-driven attitude Team spirit and excellent collaboration skills Knowledge in academic writing in a popular language Passion for and mastery of visual communication design and multimedia is a plus Experience in managing research projects Assessment The assessment of applicants will be made by Professor Anja Maier. We offer We offer an interesting and challenging job in an international environment focusing on education, research, scientific advice and innovation, which contribute to enhancing the economy and improving social welfare. We strive for academic excellence, collegial respect and freedom tempered by responsibility. The Technical University of Denmark (DTU) is a leading technical university in northern Europe and benchmarks with the best universities in the world. Salary and appointment terms The appointment will be based on the collective agreement with the Confederation of Professional Associations. The allowance will be agreed with the relevant union. The period of employment is initially with a fixed term of two-years. The employment period starts from 1 December 2017 or as soon as possible thereafter. The position will be based in the Engineering Systems Division at DTU Management Engineering in Lyngby, just outside Copenhagen, Denmark. Further information Further information may be obtained from Professor Anja Maier, firstname.lastname@example.org or tel.: 45 4525 6045 . You can read more about the Engineering Systems Division on http://www.es.man.dtu.dk . Application Please submit your online application no later than 29 September 2017 . Applications must be submitted as one pdf file containing all materials to be given consideration. To apply, please open the link "Apply online," fill in the online application form, and attach all your materials in English in one pdf file . The file must include: A letter motivating the application (cover letter) Curriculum vitae List of publications with your best publication included in full A brief description of your own research activities and ideas for future research in the field (max 3 pages) Two reference contacts Copies of your original (B.Sc, M.Sc, and Ph.D.) diplomas, certificates, and lists of subjects with your results as well as their official translation into English Applications and enclosures received after the deadline will not be considered. All interested candidates irrespective of age, gender, race, disability, religion or ethnic background are encouraged to apply. DTU Management Engineering contributes actively to the development of management tools and optimisation of processes by using and re-thinking theoretical engineering perspectives, models and methods. Through our research and teaching we ensure an innovative, competitive and sustainable organisation and use of technologies within areas such as energy and climate, transportation, production and health, both domestic and abroad. DTU Management Engineering has 340 employees; including an academic staff of 190 and more than 70 PhD students. More than 20 % of our employees are from abroad and in all 38 different nationalities are represented at the Department. DTU is a technical university providing internationally leading research, education, innovation and scientific advice . Our staff of 5,800 advance science and technology to create innovative solutions that meet the demands of society; and our 10,600 students are being educated to address the technological challenges of the future. DTU is an independent academic university collaborating globally with business, industry, government, and public agencies.
Please click here, if the Job didn't load correctly.
Please wait. You are being redirected to the Job in 3 seconds.