@article{63959,
author = {{Gutmann, Torsten and Del Rosal, Iker and Chaudret, Bruno and Poteau, Romuald and Limbach, Hans-Heinrich and Buntkowsky, Gerd}},
journal = {{ChemPhysChem}},
number = {{13}},
pages = {{3026–3033}},
title = {{{From Molecular Complexes to Complex Metallic Nanostructures-H-2 Solid-State NMR Studies of Ruthenium-Containing Hydrogenation Catalysts}}},
doi = {{10.1002/cphc.201300200}},
volume = {{14}},
year = {{2013}},
}
@article{63955,
author = {{Gruenberg, Anna and Gutmann, Torsten and Rothermel, Niels and Xu, Yeping and Breitzke, Hergen and Buntkowsky, Gerd}},
journal = {{Zeitschrift für Physikalische Chemie}},
number = {{6-7}},
pages = {{901–915}},
title = {{{Immobilization and Characterization of RuCl2(PPh3)(3) Mesoporous Silica SBA-3}}},
doi = {{10.1524/zpch.2013.0398}},
volume = {{227}},
year = {{2013}},
}
@article{64283,
author = {{Kuit, Job J.}},
issn = {{0001-8708}},
journal = {{Advances in Mathematics}},
pages = {{427--483}},
publisher = {{Elsevier BV}},
title = {{{Radon transformation on reductive symmetric spaces: Support theorems}}},
doi = {{10.1016/j.aim.2013.03.010}},
volume = {{240}},
year = {{2013}},
}
@article{64466,
author = {{Höpfner, Henning and Ludwig, Arne and Ludwig, Astrid and Reuter, Dirk and Wieck, Andreas and Gerhardt, Nils Christopher and Hofmann, Martin and Fritsche, Carola and Stromberg, Frank and Wende, Heiko and Keune, Werner}},
journal = {{Ultrafast phenomena and nanophotonics XVII}},
pages = {{86230A--1}},
title = {{{Spin relaxation in spin light-emitting diodes - effects of magnetic field and temperature}}},
doi = {{10.1117/12.2001511}},
year = {{2013}},
}
@article{15180,
author = {{Owen, G Scott and Domik, Gitta and Ebert, David S and Kohlhammer, Jörn and Rushmeier, Holly and Santos, Beatriz Sousa and Weiskopf, Daniel}},
journal = {{IEEE computer graphics and applications}},
number = {{4}},
pages = {{14--19}},
publisher = {{IEEE}},
title = {{{How visualization courses have changed over the past 10 years}}},
doi = {{10.1109/MCG.2013.57}},
volume = {{33}},
year = {{2013}},
}
@article{28551,
abstract = {{The technical article describes the simulative support of work planning and work control through a cloud application. On the basis of virtual machine tools, customers are supported in the automated setup of the machines and in efficient order scheduling. The approach presented is the core of the research project "Intelligent work preparation based on virtual machine tools" (InVorMa) within the framework of the top cluster "Intelligent Technical Systems OstWestfalenLippe" (it's OWL).}},
author = {{Bauer, Frank and Gausemeier, Jürgen and Rehage, Gerald}},
journal = {{wt workshop technology online}},
title = {{{Work preparation 4.0 - cloud-based use of virtual machine tools}}},
year = {{2013}},
}
@inbook{28455,
author = {{Gausemeier, Jürgen and Köster, Oliver and Rübbelke, René}},
booktitle = {{Foresight and Technology Planning}},
editor = {{Gausemeier, Jürgen}},
pages = {{7--36}},
publisher = {{publishing series of the Heinz Nixdorf Institute, Paderborn}},
title = {{{Systematics for the development of business in the product development}}},
year = {{2013}},
}
@inproceedings{28536,
author = {{Iwanek, Peter and Gausemeier, Jürgen and Dorociak, Rafal and Stille, Karl Stephan Christian and Böcker, Joachim}},
publisher = {{publishing series of the Heinz Nixdorf Institute, Paderborn}},
title = {{{conception of one self-optimizing hybrid energy storage system with special consideration of reliability}}},
volume = {{310}},
year = {{2013}},
}
@inproceedings{28530,
author = {{Echterhoff, Niklas and Amshoff, Benjamin and Gausemeier, Jürgen}},
booktitle = {{Proceedings of the Stuttgart Symposium for Product Development (SSP) 2013}},
title = {{{Search and adaptation strategies for the systematic planning of cross-industry innovations}}},
year = {{2013}},
}
@inproceedings{28541,
author = {{Gausemeier, Jürgen and Anacker, Harald and Czaja, Anja Maria and Wassmann, Helene and Dumitrescu, Roman}},
publisher = {{publishing series of the Heinz Nixdorf Institute, Paderborn}},
title = {{{On the way to intelligent technical systems}}},
volume = {{310}},
year = {{2013}},
}
@inproceedings{28540,
author = {{Bauer, Frank and Gausemeier, Jürgen and Rudtsch, Vinzent}},
publisher = {{publishing series of the Heinz Nixdorf Institute, Paderborn}},
title = {{{Automated generation of material flow simulation models for the timely safeguarding of production systems}}},
volume = {{311}},
year = {{2013}},
}
@inproceedings{28531,
author = {{Echterhoff, Niklas and Amshoff, Benjamin and Gausemeier, Jürgen}},
booktitle = {{Proceedings of the Stuttgart Symposium for Product Development (SSP) 2013}},
title = {{{Search and adaptation strategies for the systematic planning of cross-industry innovations}}},
year = {{2013}},
}
@inproceedings{28459,
author = {{Kessler, Jan Henning and Gausemeier, Jürgen and Iwanek, Peter and Köchling, Daniel and Krüger, Martin and Trächtler, Ansgar}},
title = {{{Creation of process models for the design of self-optimizing controls}}},
year = {{2013}},
}
@inproceedings{28544,
abstract = {{Promising product innovations in modern mechanical engineering are based on the close interaction of mechanical engineering, electrics / electronics as well as control and software technology. This is what the term mechatronics stands for. Such systems are characterized on the one hand by the fact that they can react flexibly to changes in the environment, and on the other hand that they consist of several independent sub-systems that coordinate with each other in order to achieve higher-level goals. On the one hand, this becomes clear through the increased proportions of the control components - it is primarily concerned with controlled movement behavior. On the other hand, this is made clear by the increasing proportions of software components which, among other things, have to meet the challenges of communication, especially those in real time. Although there are mutual dependencies between the two disciplines, today's design of control and software technology is highly sequential: at the beginning, the continuous components (e.g. controller) are implemented by the control technology. Only then does the software technology work out the discrete-event components (e.g. controller switchover). In this contribution an approach is presented, on the basis of which the integrated design of control and software technology becomes possible. The procedure is illustrated using a case study (cooperating delta robots). Only then does the software technology work out the discrete-event components (e.g. controller switchover). In this contribution an approach is presented, on the basis of which the integrated design of control and software technology becomes possible. The procedure is illustrated using a case study (cooperating delta robots). Only then does the software technology work out the discrete-event components (e.g. controller switchover). In this contribution an approach is presented, on the basis of which the integrated design of control and software technology becomes possible. The procedure is illustrated using a case study (cooperating delta robots).
}},
author = {{Dziwok, Stefan and Just, Viktor and Schierbaum, Thomas and Schäfer, Wilhelm and Trächtler, Ansgar and Gausemeier, Jürgen and Pohlmann, Uwe and Suck, Julian and Sudmann, Oliver and Tichy, Matthias}},
pages = {{375--394}},
publisher = {{Publishing series of the Heinz Nixdorf Institute, Paderborn}},
title = {{{Integrated control and software design for complex mechatronic systems}}},
volume = {{310}},
year = {{2013}},
}
@inproceedings{28542,
author = {{Kreft, Sven and Gausemeier, Jürgen}},
publisher = {{publishing series of the Heinz Nixdorf Institute, Paderborn}},
title = {{{Systematic integration of geodata to create geospecific environment models for driving simulations}}},
volume = {{311}},
year = {{2013}},
}
@inproceedings{28543,
author = {{Gaukstern, Tobias and Dumitrescu, Roman and Jürgenhake, Christoph and Gausemeier, Jürgen}},
title = {{{A method for the design of three-dimensional injection molded circuit boards like (MID)}}},
year = {{2013}},
}
@article{39507,
author = {{Jucá, S.C.S. and Carvalho, P.C.M. and Pereira, R.I.S. and Petrov, Dmitry and Hilleringmann, Ulrich}},
issn = {{2172-038X}},
journal = {{Renewable Energy and Power Quality Journal}},
keywords = {{Electrical and Electronic Engineering, Energy Engineering and Power Technology, Renewable Energy, Sustainability and the Environment}},
pages = {{712--717}},
publisher = {{AEDERMACP (European Association for the Development of Renewable Energies and Power Quality)}},
title = {{{Design and Implementation of a High Temperature Control Monitoring Applied to Micro Thermoelectric Generators}}},
doi = {{10.24084/repqj11.425}},
year = {{2013}},
}
@article{39514,
abstract = {{ABSTRACTThe continues development of thermoelectric generators causes a permanent improvement of their characteristics. New types of thermoelectric generators can work at temperatures up to 1000 K. With this, special measurement equipment is needed to control the electrical parameters of the new developed specimens. The devices must be tested over the whole range of operating temperatures. For each temperature value a series of electrical measurements has to be performed. To establish the maximal output power of the thermoelectric generators, a load resistor with variable resistance has to be connected to the output of thermoelectric generator. The measurement system should measure the electrical current through the load resistor and the voltage over this resistor to determine the device parameters. A large amount of measurement data have to be collected and processed to evaluate the electrical characteristics of the specimen and to present them in graphical form, suitable for the comparison with others specimens.}},
author = {{Petrov, Dmitry and Assion, Fabian and Hilleringmann, Ulrich}},
issn = {{0272-9172}},
journal = {{MRS Proceedings}},
keywords = {{General Engineering}},
pages = {{191--196}},
publisher = {{Springer Science and Business Media LLC}},
title = {{{Design and implementation of a measurement system for automatically measurement of electrical parameters of thermoelectric generators}}},
doi = {{10.1557/opl.2013.318}},
volume = {{1490}},
year = {{2013}},
}
@inproceedings{64460,
author = {{Finkeldey, Markus and Koukourakis, Nektarios and Gerhardt, Nils Christopher and Hofmann, Martin R. and Zimprich, Martin and Volz, Kerstin and Stolz, Wolfgang}},
booktitle = {{DPG-Frühjahrstagung (DPG spring meeting) of the Condensed Matter Section with its Divisions Biological Physics, Chemical and Polymer Physics, Crystallography, Dielectric Solids, Dynamics and Statistical Physics, Low Temperature Physics, Magnetism, Metal and Material Physics, Physics of Socio-economic Systems, Semiconductor Physics, Surface Science, Thin Films, Vacuum Science and Technology together with the Divions Microprobes, and Radiation and Medical Physics as well as the Working Groups Industry and Business, and "Young DPG"}},
title = {{{Optical gain and lasing in GaNAsP/BGa(As)P heterostructures grown on (001) silicon substrate}}},
year = {{2013}},
}
@inproceedings{64464,
author = {{Höpfner, Henning and Ludwig, Arne and Reuter, Dirk and Wieck, Andreas and Gerhardt, Nils Christopher and Hofmann, Martin R. and Fritsche, Carola and Stromberg, Frank and Wende, Heiko and Keune, Werner}},
booktitle = {{DPG-Frühjahrstagung (DPG spring meeting) of the Condensed Matter Section with its Divisions Biological Physics, Chemical and Polymer Physics, Crystallography, Dielectric Solids, Dynamics and Statistical Physics, Low Temperature Physics, Magnetism, Metal and Material Physics, Physics of Socio-economic Systems, Semiconductor Physics, Surface Science, Thin Films, Vacuum Science and Technology together with the Divions Microprobes, and Radiation and Medical Physics as well as the Working Groups Industry and Business, and "Young DPG"}},
title = {{{Spin injection and spin relaxation: magnetic field effects}}},
year = {{2013}},
}