@article{28240, author = {{Davis, Niki and Eickelmann, Birgit and Zaka, Pinelopi}}, journal = {{Journal of Computer-Assisted Learning}}, number = {{5}}, pages = {{438--450}}, title = {{{Restructuring of educational systems in the digital age from a co-evolutionary perspective}}}, doi = {{10.1111/jcal.12032}}, volume = {{29}}, year = {{2013}}, } @misc{28241, author = {{Eickelmann, Birgit and Erstad, Ola}}, publisher = {{Thematic Working Group 1}}, title = {{{Towards New Systems for Schooling in the digital age. Summary Report and Action Agenda. Results EduSummIT 2013}}}, year = {{2013}}, } @techreport{2826, author = {{Kundisch, Dennis}}, pages = {{84--87}}, title = {{{Good Practice Methoden: Klicker Fragen}}}, year = {{2013}}, } @techreport{2827, author = {{Kundisch, Dennis}}, pages = {{296--297}}, title = {{{Direkte Rückmeldung erwünscht}}}, volume = {{4}}, year = {{2013}}, } @article{28353, abstract = {{This article aims to reconceptualize pronunciation teaching and learning according to the tenets of the 2007 MLA Report and its call for translingual/transcultural competence. The critical discussion of current teaching and research practices shows that the realm of pronunciation has benefitted little from debates on intercultural language learning. In order to link the teaching of pronunciation with learner needs in intercultural encounters, this article develops the concept of pronunciation‐as‐language. The theoretical exploration of this concept is supported by a narrative analysis of study-abroad learners’ accounts, contrasting learners’ perceptions of teaching practices with the complex role pronunciation plays in second language‐mediated interactions. The results underline the importance of pedagogical approaches that encourage the critical reflection on and creative use of pronunciation beyond structural elements and native‐speaker norms.}}, author = {{Müller, Mareike}}, issn = {{0015-718X}}, journal = {{Foreign Language Annals}}, keywords = {{critical language awareness, native‐speaker ideal, pronunciation, study abroad, translingual and transcultural competence}}, number = {{2}}, pages = {{213--229}}, title = {{{Conceptualizing pronunciation as part of translingual/transcultural competence: New impulses for SLA research and the L2 classroom}}}, doi = {{10.1111/flan.12024}}, volume = {{46}}, year = {{2013}}, } @inbook{28362, author = {{Müller, Mareike}}, booktitle = {{Traditions and Transitions: Curricula for German Studies}}, editor = {{Plews, John L. and Schmenk, Barbara}}, isbn = {{978-1554584314}}, pages = {{105--124}}, publisher = {{Wilfrid Laurier University Press}}, title = {{{Pronunciation training without the native speaker? Reframing teaching and learning objectives in German as a Foreign Language curricula}}}, year = {{2013}}, } @article{2843, author = {{Gries, Thomas and Bilkic, Natascha and Carerras Painter, Ben}}, journal = {{International Economics and Economic Policy}}, number = {{1}}, pages = {{1 -- 45}}, title = {{{Unsustainable Sovereign Debt - Is the Euro Crisis only the Tip of the Iceberg?}}}, doi = {{10.1007/s10368-013-0230-2}}, volume = {{10}}, year = {{2013}}, } @article{2844, author = {{Gries, Thomas}}, journal = {{Oxford University Press}}, pages = {{293--323}}, title = {{{Global Asymmetries and their Implications for Climate and Industrial Policies, in: Pathways to Industrialization in the Twenty-First Century - New Challenges and Emerging Paradigms}}}, doi = {{10.1093/acprof:oso/9780199667857.001.0001}}, volume = {{ch. 11}}, year = {{2013}}, } @article{2845, author = {{Gries, Thomas and Meierrieks, Daniel}}, journal = {{Economics Letters }}, number = {{3}}, pages = {{321--324}}, title = {{{Do banking crises cause terrorism?}}}, doi = {{10.1016/j.econlet.2013.03.009}}, volume = {{119}}, year = {{2013}}, } @inproceedings{28450, author = {{R{\"u}bbelke, René and Echterhoff, Benedikt and Gausemeier, J{\"u}rgen and S{\"o}llner, Christoph}}, title = {{{Evaluating the Specific Demand of Competencies to realize innovative Products}}}, year = {{2013}}, } @proceedings{28451, editor = {{Echterhoff, Niklas and Amshoff, Benjamin and Echterfeld, Julian and Gausemeier, J{\"u}rgen and Kage, Martin}}, publisher = {{ISPIM Innovation Symposium}}, title = {{{Cross-Industry-Innovations: How Linguistic Analyses aid Radical Problem Solving}}}, year = {{2013}}, } @proceedings{28452, editor = {{K {\ "o} ckerling, Matthias and Echterhoff, Niklas and Amshoff, Benjamin and Echterfeld, Julian and Kage, Martin}}, publisher = {{publishing series of the Heinz Nixdorf Institute, Paderborn}}, title = {{{Efficiently to new products - cross-industry innovations at Miele}}}, year = {{2013}}, } @inbook{28453, abstract = {{The consideration of the robustness is indispensable to ensure a reliable and reproducible manufacturing of functionally graded components. In order to establish a common understanding as basis for the holistic robustness consideration within the Collaborative Transregional Research Centre 30 (CRC Transregio 30), a joint development of methods for analysing and optimising the robustness is necessary. The term "robustness", however, has been used differently in the various disciplines of the CRC Transregio 30. Thus, this contribution proposes a common definition of robustness for the whole research centre. In addition, a procedure model for considering the robustness with a collection of methods, that can be combined or adapted by the involved disciplines, is presented. The validation of the recommended procedure model has been conducted by a compression moulding process.}}, author = {{Biermann, Dirk and Gausemeier, J{\"u}rgen and Hess, Stefan and K{\, Daniel and Petersen, Marcus and Wagner, T}}, booktitle = {{Functionally Graded Materials in Industrial Mass Production | Volume 2}}, editor = {{Heim, Hans-Peter and Biermann, Dirk and Homberg, Werner}}, isbn = {{978-3-942267-91-5}}, pages = {{357--366}}, publisher = {{Verlag Wissenschaftliche Scripten}}, title = {{{Foundations for Considering the Robustness within the CRC TRR 30}}}, volume = {{2}}, year = {{2013}}, } @article{28454, author = {{Amshoff, Benjamin and Eckelt, Daniel}}, journal = {{Scientific Society for Product Development WiGeP News}}, title = {{{Concept for {\ "u} r an intelligent technology fr {\" u} haufkl {\ "a} rung}}}, volume = {{Issue 2}}, year = {{2013}}, } @inbook{28455, author = {{Gausemeier, J {\ "u} rgen and K {\" o} ster, Oliver and R {\ "u} bbelke, René}}, booktitle = {{Foresight and technology planning}}, editor = {{Gausemeier, J {\" u} rgen}}, pages = {{7--36}}, publisher = {{publishing series of the Heinz Nixdorf Institute, Paderborn}}, title = {{{Systematics for the development of business { \ "a} ftsmodellen in the product development}}}, year = {{2013}}, } @inbook{28456, abstract = {{Functional gradation denotes the systematic and reproducible microstructure adjustment of a single material component for the customisation of the macroscopic properties (e.g. hardness or ductility). This customisation is tailored with respect to the later intended application of the component. The improved material utilisation enables light weight design and simplifies the recycling by using single material components. Hence, it provides a resource-conserving alternative for modern composite materials and offers an innovative approach for customisable smart products of the future. Manufacturing functionally graded components requires complex thermo-mechanically coupled process chains that increase the effort for the holistic design. To realise the full potential offered by functional gradation, the available planning and optimisation methods as well as the surrogate models developed during the first research period of the Collaborative Transregional Research Centre (CRC Transregio 30) are significantly enhanced. Furthermore, all the methods and surrogate models as well as the process knowledge obtained by laboratory experiments are consolidated in a comprehensive computer-aided framework to provide a continuous support for the engineer during the planning process. This contribution proposes the methodical foundations within the framework along the planning process: Component description, synthesis of suitable manufacturing process chains, and optimisation of the process chain parameters as well as the specification of the production system. The methods are validated based on an exemplary planning task within the CRC Transregio 30. }}, author = {{Biermann, Dirk and Gausemeier, J{\"u}rgen and Hess, Stefan and Petersen, Marcus and Wagner, T}}, booktitle = {{Functionally Graded Materials in Industrial Mass Production | Volume 2}}, editor = {{Heim, Hans-Peter and Biermann, Dirk and Homberg, Werner}}, isbn = {{978-3-942267-91-5}}, pages = {{341--356}}, publisher = {{Verlag Wissenschaftliche Scripten}}, title = {{{Synthesis and Multi-Objective Model-based Optimisation of Process Chains for Manufacturing Components with Functionally Graded Properties}}}, volume = {{2}}, year = {{2013}}, } @inbook{28457, abstract = {{Functional gradation denotes the systematic and reproducible adaption of the microstructure for the customisation of the macroscopic properties (e.g. hardness or strength) of a single material component. This customisation is tailored with respect to the intended application of the component. The improved material utilisation enables light weight design and improved recycling abilities. Hence, it provides a resource-conserving alternative for modern composite materials. To exploit the potential offered by functional gradation, the available planning and optimisation methods have to be significantly enhanced. Three-dimensional distributions of component properties have to be specified and predicted. Complex interdependencies between the manufacturing process steps and the properties of the component as well as between the process steps themselves have to be considered. In this contribution, new as well as enhancements of existing methods are presented along the planning process: Component description, synthesis of suitable manufacturing process chains, and optimisation of the process chain parameters. The resulting procedure model allows the specification of the desired property distribution, the subsequent identification of process chains capable of producing the component as well as the optimisation of each process parameter. }}, author = {{Biermann, Dirk and Gausemeier, J{\"u}rgen and Hess, Stefan and Petersen, Marcus and Wagner, T}}, booktitle = {{Functionally Graded Materials in Industrial Mass Production | Fundamentals}}, editor = {{Homberg, Werner and Biermann, Dirk and Heim, Hans-Peter}}, isbn = {{978-3-942267-92-2}}, pages = {{145--154}}, publisher = {{Verlag Wissenschaftliche Scripten}}, title = {{{Planning Methods for Manufacturing Functionally Graded Components – Challenges and Solutions}}}, volume = {{Fundamentals}}, year = {{2013}}, } @inbook{28458, author = {{Iwanek, Peter and Kaiser, Lydia and Dumitrescu, Roman and Ny{\ss}en, Alexander}}, booktitle = {{Tag des Systems Engineerings}}, editor = {{Maurer, Maik and Schulze, Sven-Olaf}}, isbn = {{ 978-3-446-43915-3}}, pages = {{337--346}}, publisher = {{Carl Hanser Verlag}}, title = {{{Fachdisziplin{\"u}bergreifende Systemmodellierung mechatronischer Systeme mit SysML und CONSENS}}}, year = {{2013}}, } @inproceedings{28459, author = {{Kessler, Jan Henning and Gausemeier, J {\ "u} rgen and Iwanek, Peter and K {\" o} chling, Daniel and Kr {\ "u} ger, Martin and Tr {\ "a} chtler, Ansgar}}, title = {{{Creation of process models for {\" u} r the design of self-optimizing controls}}}, year = {{2013}}, } @article{2846, author = {{Gries, Thomas and Meierrieks, DAniel}}, journal = {{Journal of Peace Research}}, number = {{1}}, pages = {{91 -- 104}}, title = {{{Causality Between Terrorism and Economic Growth}}}, doi = {{10.1177/0022343312445650}}, volume = {{50}}, year = {{2013}}, }