@techreport{47094,
author = {{Bartels, Lara and Kesternich, Martin}},
issn = {{1556-5068}},
keywords = {{General Earth and Planetary Sciences, General Environmental Science}},
publisher = {{ZEW Discussion Paper 22-040}},
title = {{{Motivate the Crowd or Crowd-Them Out? The Impact of Local Government Spending on the Voluntary Provision of a Green Public Good}}},
doi = {{10.2139/ssrn.4251592}},
year = {{2022}},
}
@techreport{47096,
author = {{Chlond, Bettina and Goeschl, Timo and Kesternich, Martin}},
issn = {{1556-5068}},
keywords = {{General Earth and Planetary Sciences, General Environmental Science}},
publisher = {{ZEW Discussion Paper 22-020}},
title = {{{More Money or Better Procedures? Evidence From an Energy Efficiency Assistance Program}}},
doi = {{10.2139/ssrn.4151557}},
year = {{2022}},
}
@techreport{47092,
author = {{Kesternich, Martin and Osberghaus, Daniel and Botzen, Willem Jan Wouter}},
issn = {{1556-5068}},
keywords = {{General Earth and Planetary Sciences, General Environmental Science}},
publisher = {{ZEW Discussion Paper 22-055}},
title = {{{The Intention-Behavior Gap in Climate Change Adaptation}}},
doi = {{10.2139/ssrn.4288341}},
year = {{2022}},
}
@techreport{47097,
author = {{Chlond, Bettina and Goeschl, Timo and Kesternich, Martin}},
publisher = {{ZEW Policy Brief 22-01}},
title = {{{Wie lässt sich die Energieeffizienz in einkommensschwachen Haushalten steigern?}}},
year = {{2022}},
}
@inproceedings{48861,
abstract = {{Generating instances of different properties is key to algorithm selection methods that differentiate between the performance of different solvers for a given combinatorial optimization problem. A wide range of methods using evolutionary computation techniques has been introduced in recent years. With this paper, we contribute to this area of research by providing a new approach based on quality diversity (QD) that is able to explore the whole feature space. QD algorithms allow to create solutions of high quality within a given feature space by splitting it up into boxes and improving solution quality within each box. We use our QD approach for the generation of TSP instances to visualize and analyze the variety of instances differentiating various TSP solvers and compare it to instances generated by established approaches from the literature.}},
author = {{Bossek, Jakob and Neumann, Frank}},
booktitle = {{Proceedings of the Genetic and Evolutionary Computation Conference}},
isbn = {{978-1-4503-9237-2}},
keywords = {{instance features, instance generation, quality diversity, TSP}},
pages = {{186–194}},
publisher = {{Association for Computing Machinery}},
title = {{{Exploring the Feature Space of TSP Instances Using Quality Diversity}}},
doi = {{10.1145/3512290.3528851}},
year = {{2022}},
}
@inproceedings{48868,
author = {{Bossek, Jakob and Neumann, Aneta and Neumann, Frank}},
booktitle = {{Proceedings of the Genetic and Evolutionary Computation Conference Companion}},
isbn = {{978-1-4503-9268-6}},
pages = {{824–842}},
publisher = {{Association for Computing Machinery}},
title = {{{Evolutionary Diversity Optimization for Combinatorial Optimization: Tutorial at GECCO’22, Boston, USA}}},
doi = {{10.1145/3520304.3533626}},
year = {{2022}},
}
@inproceedings{48896,
abstract = {{Hardness of Multi-Objective (MO) continuous optimization problems results from an interplay of various problem characteristics, e. g. the degree of multi-modality. We present a benchmark study of classical and diversity focused optimizers on multi-modal MO problems based on automated algorithm configuration. We show the large effect of the latter and investigate the trade-off between convergence in objective space and diversity in decision space.}},
author = {{Rook, Jeroen and Trautmann, Heike and Bossek, Jakob and Grimme, Christian}},
booktitle = {{Proceedings of the Genetic and Evolutionary Computation Conference Companion}},
isbn = {{978-1-4503-9268-6}},
keywords = {{configuration, multi-modality, multi-objective optimization}},
pages = {{356–359}},
publisher = {{Association for Computing Machinery}},
title = {{{On the Potential of Automated Algorithm Configuration on Multi-Modal Multi-Objective Optimization Problems}}},
doi = {{10.1145/3520304.3528998}},
year = {{2022}},
}
@article{51294,
abstract = {{Der Bericht gibt Einblicke in die Tagung „Fachdidaktische Entwicklungsforschung in der Deutschdidaktik – Gegenstandsspezifische Lernprozesse in den Blick nehmen“. Diese fand am 22. und 23.03.2022 an der Bergischen Universität Wuppertal statt. Im Fokus der Tagung stand die Fragestellung, wie Design-Based Research als Forschungsmethode in der Deutschdidaktik eingesetzt werden kann. Hierzu wurden entsprechende Projekte sowohl unter methodologischer als auch unter fachdidaktischer Perspektive diskutiert.}},
author = {{Drepper, Laura and Uhl, Benjamin}},
issn = {{2751-6792}},
journal = {{Didaktik Deutsch}},
number = {{52/53}},
publisher = {{University Library J. C. Senckenberg}},
title = {{{Tagungsbericht: „Fachdidaktische Entwicklungsforschung in der Deutschdidaktik – Gegenstandsspezifische Lernprozesse in den Blick nehmen“ (22.03.2022 bis 23.03.2022, Bergische Universität Wuppertal)}}},
doi = {{10.21248/dideu.97}},
year = {{2022}},
}
@article{47561,
abstract = {{AbstractAdditive manufacturing is a promising tool for tailored solutions in chemical engineering. This applies in particular to the design of lab‐scale packed bed columns. We present experimental results to characterize a lab‐scale 3D printed structured metal packing and compare it to a conventional counterpart. The results indicate that necessary adjustments for the manufacturing process of the metal material have an influence on important operating parameters, resulting in higher specific pressure drop, slightly higher liquid holdup and lower mass transfer efficiency.}},
author = {{Riese, Julia and Reitze, Arnulf and Grünewald, Marcus}},
issn = {{0009-286X}},
journal = {{Chemie Ingenieur Technik}},
keywords = {{Industrial and Manufacturing Engineering, General Chemical Engineering, General Chemistry}},
number = {{7}},
pages = {{993--1001}},
publisher = {{Wiley}},
title = {{{Experimental Characterization of 3D Printed Structured Metal Packing with an Enclosed Column Wall}}},
doi = {{10.1002/cite.202200002}},
volume = {{94}},
year = {{2022}},
}
@inproceedings{32573,
author = {{Maehren, Marcel and Nieting, Philipp and Hebrok, Sven Niclas and Merget, Robert and Somorovsky, Juraj and Schwenk, Jörg}},
booktitle = {{31st USENIX Security Symposium (USENIX Security 22)}},
publisher = {{USENIX Association}},
title = {{{TLS-Anvil: Adapting Combinatorial Testing for TLS Libraries}}},
year = {{2022}},
}
@article{40988,
abstract = {{Increasing the metal-to-ligand charge transfer (MLCT) excited state lifetime of polypyridine iron(II) complexes can be achieved by lowering the ligand's π* orbital energy and by increasing the ligand field splitting. In the homo- and heteroleptic complexes [Fe(cpmp)2]2+ (12+) and [Fe(cpmp)(ddpd)]2+ (22+) with the tridentate ligands 6,2’’-carboxypyridyl-2,2’-methylamine-pyridyl-pyridine (cpmp) and N,N’-dimethyl-N,N’-di-pyridin-2-ylpyridine-2,6-diamine (ddpd) two or one dipyridyl ketone moieties provide low energy π* acceptor orbitals. A good metal-ligand orbital overlap to increase the ligand field splitting is achieved by optimizing the octahedricity through CO and NMe units between the coordinating pyridines which enable the formation of six-membered chelate rings. The push-pull ligand cpmp provides intra-ligand and ligand-to-ligand charge transfer (ILCT, LL'CT) excited states in addition to MLCT excited states. Ground and excited state properties of 12+ and 22+ were accessed by X-ray diffraction analyses, resonance Raman spectroscopy, (spectro)electrochemistry, EPR spectroscopy, X-ray emission spectroscopy, static and time-resolved IR and UV/Vis/NIR absorption spectroscopy as well as quantum chemical calculations.}},
author = {{Weber, Sebastian and Zimmermann, Ronny T. and Bremer, Jens and Abel, Ken L. and Poppitz, David and Prinz, Nils and Ilsemann, Jan and Wendholt, Sven and Yang, Qingxin and Pashminehazar, Reihaneh and Monaco, Federico and Cloetens, Peter and Huang, Xiaohui and Kübel, Christian and Kondratenko, Evgenii and Bauer, Matthias and Bäumer, Marcus and Zobel, Mirijam and Gläser, Roger and Sundmacher, Kai and Sheppard, Thomas L.}},
issn = {{1867-3880}},
journal = {{ChemCatChem}},
keywords = {{Inorganic Chemistry, Organic Chemistry, Physical and Theoretical Chemistry, Catalysis}},
number = {{8}},
publisher = {{Wiley}},
title = {{{Digitization in Catalysis Research: Towards a Holistic Description of a Ni/Al2O3 Reference Catalyst for CO2 Methanation}}},
doi = {{10.1002/cctc.202101878}},
volume = {{14}},
year = {{2022}},
}
@inproceedings{34674,
abstract = {{Smart home systems contain plenty of features that enhance wellbeing in everyday life through artificial intelligence (AI). However, many users feel insecure because they do not understand the AI’s functionality and do not feel they are in control of it. Combining technical, psychological and philosophical views on AI, we rethink smart homes as interactive systems where users can partake in an intelligent agent’s learning. Parallel to the goals of explainable AI (XAI), we explored the possibility of user involvement in supervised learning of the smart home to have a first approach to improve acceptance, support subjective understanding and increase perceived control. In this work, we conducted two studies: In an online pre-study, we asked participants about their attitude towards teaching AI via a questionnaire. In the main study, we performed a Wizard of Oz laboratory experiment with human participants, where participants spent time in a prototypical smart home and taught activity recognition to the intelligent agent through supervised learning based on the user’s behaviour. We found that involvement in the AI’s learning phase enhanced the users’ feeling of control, perceived understanding and perceived usefulness of AI in general. The participants reported positive attitudes towards training a smart home AI and found the process understandable and controllable. We suggest that involving the user in the learning phase could lead to better personalisation and increased understanding and control by users of intelligent agents for smart home automation.}},
author = {{Sieger, Leonie Nora and Hermann, Julia and Schomäcker, Astrid and Heindorf, Stefan and Meske, Christian and Hey, Celine-Chiara and Doğangün, Ayşegül}},
booktitle = {{International Conference on Human-Agent Interaction}},
keywords = {{human-agent interaction, smart homes, supervised learning, participation}},
location = {{Christchurch, New Zealand}},
publisher = {{ACM}},
title = {{{User Involvement in Training Smart Home Agents}}},
doi = {{10.1145/3527188.3561914}},
year = {{2022}},
}
@inproceedings{52924,
author = {{Tirtarasa, Satyadharma and Turhan, Anni-Yasmin}},
booktitle = {{SAC ’22: The 37th {ACM/SIGAPP} Symposium on Applied Computing, Virtual Event, April 25 - 29, 2022}},
editor = {{Hong, Jiman and Bures, Miroslav and Park, Juw Won and Cerný, Tomás}},
pages = {{903–910}},
publisher = {{ACM}},
title = {{{Computing generalizations of temporal ϵL concepts with next and global}}},
doi = {{10.1145/3477314.3507136}},
year = {{2022}},
}
@inproceedings{47286,
author = {{Gutfleisch, Marco and Klemmer, Jan H. and Busch, Niklas and Acar, Yasemin and Sasse, M. Angela and Fahl, Sascha}},
booktitle = {{43rd IEEE Symposium on Security and Privacy, SP 2022, San Francisco, CA, USA, May 22-26, 2022}},
pages = {{893–910}},
publisher = {{IEEE}},
title = {{{How Does Usable Security (Not) End Up in Software Products? Results From a Qualitative Interview Study}}},
doi = {{10.1109/SP46214.2022.9833756}},
year = {{2022}},
}
@inproceedings{47287,
author = {{Stransky, Christian and Wiese, Oliver and Roth, Volker and Acar, Yasemin and Fahl, Sascha}},
booktitle = {{43rd IEEE Symposium on Security and Privacy, SP 2022, San Francisco, CA, USA, May 22-26, 2022}},
pages = {{860–875}},
publisher = {{IEEE}},
title = {{{27 Years and 81 Million Opportunities Later: Investigating the Use of Email Encryption for an Entire University}}},
doi = {{10.1109/SP46214.2022.9833755}},
year = {{2022}},
}
@inproceedings{47288,
author = {{Jancar, Jan and Fourné, Marcel and Braga, Daniel De Almeida and Sabt, Mohamed and Schwabe, Peter and Barthe, Gilles and Fouque, Pierre-Alain and Acar, Yasemin}},
booktitle = {{43rd IEEE Symposium on Security and Privacy, SP 2022, San Francisco, CA, USA, May 22-26, 2022}},
pages = {{632–649}},
publisher = {{IEEE}},
title = {{{"They’re not that hard to mitigate": What Cryptographic Library Developers Think About Timing Attacks}}},
doi = {{10.1109/SP46214.2022.9833713}},
year = {{2022}},
}
@inproceedings{47285,
author = {{Wermke, Dominik and Wöhler, Noah and Klemmer, Jan H. and Fourné, Marcel and Acar, Yasemin and Fahl, Sascha}},
booktitle = {{43rd IEEE Symposium on Security and Privacy, SP 2022, San Francisco, CA, USA, May 22-26, 2022}},
pages = {{1880–1896}},
publisher = {{IEEE}},
title = {{{Committed to Trust: A Qualitative Study on Security & Trust in Open Source Software Projects}}},
doi = {{10.1109/SP46214.2022.9833686}},
year = {{2022}},
}
@inproceedings{47284,
author = {{Munyendo, Collins W. and Acar, Yasemin and Aviv, Adam J.}},
booktitle = {{43rd IEEE Symposium on Security and Privacy, SP 2022, San Francisco, CA, USA, May 22-26, 2022}},
pages = {{2304–2319}},
publisher = {{IEEE}},
title = {{{"Desperate Times Call for Desperate Measures": User Concerns with Mobile Loan Apps in Kenya}}},
doi = {{10.1109/SP46214.2022.9833779}},
year = {{2022}},
}
@article{34264,
abstract = {{In industrial x-ray computed tomography (CT), the application of more complex scan paths in comparison to the typical circular trajectory (${360}^{\circ}$ rotation of the measurement object) can extend the potential of CT. One way to enable such 3D scan trajectories is to use a 6-degrees-of-freedom (DOF) object manipulator system. In our case, a hexapod is mounted on top of the rotary table of a commercial CT scanner. This allows for adaptive tilting of the measurement object during the scan. For high accuracy, the geometry calibration of such setups is typically done using the x-ray projections of a calibrated multi-sphere object. Contrary to this, here, we demonstrate a procedure that is based on only a single sphere and can therefore experimentally be implemented with low effort. Using the intrinsic geometry parameters of the CT device as prior information, the hexapod coordinate system with respect to the CT machine coordinate system is determined by means of a one-step optimization approach. The resulting parameters are used to calculate projection matrices that enable the volume reconstruction for 3D scan trajectories. The method is validated using simulated x-ray images and experimental investigations including dimensional measurements. For the used setup, geometric measurement results for 3D scan trajectories that are calibrated with the presented method show in sum increased errors compared to the circular scans. A limited pose accuracy of the manipulator system is discussed as a potential cause. The results nevertheless indicate that the presented method is generally feasible for dimensional CT measurements provided that the pose accuracy is sufficient. The calibration procedure can therefore be a low-cost and easier to implement alternative compared to trajectory calibration methods based on multi-sphere objects, but with a tendency towards lower measurement accuracy. The methodology can in principle be transferred to different setups with 6-DOF manipulator systems, e.g. C-arm CT devices with a robot arm.}},
author = {{Butzhammer, Lorenz and Müller, Andreas Michael and Hausotte, Tino}},
issn = {{0957-0233}},
journal = {{Measurement Science and Technology}},
keywords = {{Applied Mathematics, Instrumentation, Engineering (miscellaneous)}},
number = {{1}},
publisher = {{IOP Publishing}},
title = {{{Calibration of 3D scan trajectories for an industrial computed tomography setup with 6-DOF object manipulator system using a single sphere}}},
doi = {{10.1088/1361-6501/ac9856}},
volume = {{34}},
year = {{2022}},
}
@article{33002,
abstract = {{Many mechanical material properties show a dependence on the strain rate, e.g. yield stress or elongation at fracture. The quantitative description of the material behavior under dynamic loading is of major importance for the evaluation of crash safety. This is carried out using numerical methods and requires characteristic values for the materials used. For the standardized determination of dynamic characteristic values in sheet metal materials, tensile tests performed according to the guideline from [1]. A particular challenge in dynamic tensile tests is the force measurement during the test. For this purpose, strain gauges are attached on each specimen, wired to the measuring equipment and calibrated. This is a common way to determine a force signal that is as low in vibration and as free of bending moments as possible. The preparation effort for the used strain gauges are enormous. For these reasons, an optical method to determine the force by strain measurement using DIC is presented. The experiments are carried out on a high speed tensile testing system. In combioantion with a 3D DIC high speed system for optical strain measurement. The elastic deformation of the specimen in the dynamometric section is measured using strain gauges and the optical method. The measured signals are then compared to validate the presented method. The investigations are conducted using the dual phase steel material HCT590X and the aluminum material EN AW-6014 T4. Strain rates of up to 240 s-1 are investigated.}},
author = {{Böhnke, Max and Unruh, Eduard and Sell, Stanislaw and Bobbert, Mathias and Hein, David and Meschut, Gerson}},
issn = {{1662-9795}},
journal = {{Key Engineering Materials}},
keywords = {{Mechanical Engineering, Mechanics of Materials, General Materials Science}},
location = {{Braga, Portugal}},
pages = {{1564--1572}},
publisher = {{Trans Tech Publications, Ltd.}},
title = {{{Functionality Study of an Optical Measurement Concept for Local Force Signal Determination in High Strain Rate Tensile Tests}}},
doi = {{10.4028/p-wpuzyw}},
volume = {{926}},
year = {{2022}},
}