@inbook{5843, author = {{Heusler, Winfried and Kadija , Ksenija and Arztmann, Daniel}}, booktitle = {{Glasbau 2021 }}, editor = {{Weller, Bernhard and Tasche, Silke}}, isbn = {{978-3-433-03327-2 }}, publisher = {{Ernst & Sohn}}, title = {{{Resilient Bauen – Fassaden, Strukturen und Prozesse}}}, year = {{2021}}, } @inproceedings{5845, author = {{Dhami, Deepak Singh and Arztmann, Daniel}}, booktitle = {{Powerskin Conference Proceedings: April 9th 2021 - Munich}}, editor = {{Auer, Thomas and Knaack, Ulrich and Schneider, Jens}}, isbn = {{9789463664066}}, location = {{München}}, publisher = {{ TU Delft Open}}, title = {{{Design & Performance Assessment of an Optimized Ventilation Panel for Unitized Facades}}}, year = {{2021}}, } @inproceedings{5846, abstract = {{Artificial Intelligence (AI) is continuously moving into our surroundings. In its various forms, it has the potential to disrupt most aspects of human life. Yet, the discourse around AI has long been by experts and for experts. In this paper, we argue for a participatory approach towards designing human-AI interactions. We outline how we used design methodology to organise an interdisciplinary workshop with a diverse group of students – a workbook sprint with 45 participants from four different programs and 13 countries – to develop speculative design futures in five focus areas. We then provide insights into our findings and share our lessons learned regarding our workshop topic – AI and Space – our process, and our research. We learned that involving non-experts in complex technical discourses – such as AI – through the structural rigour of design methodology is a viable approach. We then conclude by laying out how others might use our findings and initiate their own workbook sprint to explore complex technologies in a human-centred way.}}, author = {{Mucha, Henrik and Mevißen, Dennis and Robert, Sebastian and Jacobi, Ricarda and Meyer, Kirsten and Heusler, Winfried and Arztmann, Daniel}}, booktitle = {{Extended Abstracts of the 2020 CHI Conference on Human Factors in Computing Systems}}, isbn = {{9781450368193}}, location = {{Honolulu, HI, USA}}, publisher = {{Association for Computing Machinery}}, title = {{{Co-Design Futures for AI and Space: A Workbook Sprint}}}, doi = {{10.1145/3334480.3375203}}, year = {{2020}}, } @inproceedings{5847, abstract = {{Urban noise pollution is a major environmental health problem. International organizations are making efforts to prevent health damage due to high levels of noise in cities, but the design of the built environment typically neglects the acoustic impact of architectural projects. Building facades, covering a substantial part of the vertical surfaces of the urban fabric, have a significant effect on the wellbeing of the population and on the environmental impact of buildings. Facade geometries and materials interact with the diversity of sounds in the city composing soundscapes that influence the health, comfort, and productivity of people inside and outside of buildings. This study gives an overview of the elements involved in the composition of the urban soundscape and revises the potential effects of sound-reflective and sound-absorptive facades. With the purpose of exemplifying the integration of acoustic data into facade design processes, a parametric design workflow is developed to experiment with acoustic simulations of a street environment, alternating between sound-reflective and sound-absorptive facades.}}, author = {{Balderrama, Alvaro and Arztmann, Daniel and Schulz, Jens-Uwe}}, booktitle = {{Facade Tectonics 2020 World Congress}}, keywords = {{acoustics, sustainability, computational design, parametric workflows}}, location = {{Los Angeles}}, title = {{{Influence of Façade Materials on the Acoustic Environment}}}, year = {{2020}}, } @inproceedings{5848, abstract = {{Urban noise pollution is a major environmental health problem. International organizations are making efforts to prevent health damage due to high levels of noise in cities, but the design of the built environment typically neglects the acoustic impact of architectural projects. Building facades, covering a substantial part of the vertical surfaces of the urban fabric, have a significant effect on the wellbeing of the population and on the environmental impact of buildings. Facade geometries and materials interact with the diversity of sounds in the city composing soundscapes that influence the health, comfort, and productivity of people inside and outside of buildings. This study gives an overview of the elements involved in the composition of the urban soundscape and revises the potential effects of sound-reflective and sound-absorptive facades. With the purpose of exemplifying the integration of acoustic data into facade design processes, a parametric design workflow is developed to experiment with acoustic simulations of a street environment, alternating between sound-reflective and sound-absorptive facades.}}, author = {{Arztmann, Daniel and Ramirez, Jhosangela and Mena Lozada , Tomas}}, booktitle = {{Facade Tectonics 2020 World Congress}}, keywords = {{acoustics, sustainability, computational design, parametric workflows}}, location = {{Los Angeles}}, title = {{{Facade 4.0 – The new digital life-cycle of the building envelope}}}, year = {{2020}}, } @inproceedings{5856, author = {{Arztmann, Daniel}}, location = {{Detmold ( online)}}, publisher = {{Technischen Hochschule Ostwestfalen-Lippe}}, title = {{{Moderation der Session „Facade Trends and Innovation“ im Rahmen der Detmold Conference Weeks 2020 (online) an der Technischen Hochschule Ostwestfalen-Lippe, 20.11.2020 }}}, year = {{2020}}, } @inproceedings{5857, author = {{Arztmann, Daniel}}, booktitle = {{World Congress 2020 (online) des Façade Tectonics Institutes, 19.08.2020}}, location = {{Los Angeles}}, publisher = {{Façade Tectonics Institute}}, title = {{{Digital Lifecycle of Building Envelopes : Vortrag}}}, year = {{2020}}, } @inproceedings{5858, author = {{Arztmann, Daniel}}, location = {{Los Angeles}}, publisher = {{Façade Tectonics Institute}}, title = {{{Moderation der Session ”Education and Research” auf dem World Congress 2020 (online) des Façade Tectonics Institutes, 26.08.2020}}}, year = {{2020}}, } @inbook{5849, author = {{Arztmann, Daniel}}, booktitle = {{Glasbau 2019 : Bauten und Projekte, Bemessung und Konstruktion, Forschung und Entwicklung, Bauprodukte und Bauarten}}, editor = {{Weller, Bernhard and Tasche, Silke}}, isbn = {{9783433032602}}, pages = {{75--84}}, publisher = {{Ernst & Sohn}}, title = {{{Shadow Boxes – Erkenntnisse aus technischen Untersuchungen und internationalen Projekten}}}, year = {{2019}}, } @inproceedings{5859, author = {{Arztmann, Daniel}}, booktitle = {{FACADES19 Conference – south Challenges and beyond” an der Universidade Nova de Lisboa, 22.11.2019}}, location = {{Lisboa}}, publisher = {{Universidade Nova de Lisboa}}, title = {{{Acoustic Solutions for Interior and Exterior Comfort : Vortag}}}, year = {{2019}}, } @inproceedings{5860, author = {{Arztmann, Daniel}}, booktitle = {{The Future Envelope 12 – It´s all about performance” in Bozen, Südtirol, 21.05.2019 }}, location = {{Bozen, Südtirol}}, title = {{{Façade Design Strategies to Improve Urban and Interior Comfort : Vortrag}}}, year = {{2019}}, } @inproceedings{5861, author = {{Arztmann, Daniel}}, booktitle = {{Building Information Modeling 2019 der Ingenieurakademie West e.V., Düsseldorf, 26.02.2019 }}, location = {{Düsseldorf}}, title = {{{Fassade 4.0 – Digitalisierung des Lebenszyklus einer Fassade : Vortrag}}}, year = {{2019}}, } @inbook{5850, author = {{Heusler, Winfried and Faltus, Eva-Maria and Arztmann, Daniel}}, booktitle = {{Glasbau 2018 : Bauten und Projekte, Bemessung und Konstruktion, Forschung und Entwicklung, Bauprodukte und Bauarten}}, editor = {{Weller, Bernhard and Tasche, Silke}}, isbn = {{9783433032121}}, pages = {{59--76}}, publisher = {{Ernst & Sohn}}, title = {{{Gesunde Gebäude gesund bauen}}}, doi = {{doi.org/10.1002/cepa.631}}, year = {{2018}}, } @inproceedings{5851, author = {{Arztmann, Daniel}}, booktitle = {{Engineered Transparency 2018, Glass in Architecture and Structural Engineering}}, editor = {{Weller, Bernhard and Schneider, Jens}}, isbn = {{978-3-433-03269-5}}, location = {{Düsseldorf}}, pages = {{189--198}}, publisher = {{Ernst & Sohn}}, title = {{{Climate Change and its Influence on Glazed Curtain Wall Design}}}, year = {{2018}}, } @inproceedings{5862, author = {{Arztmann, Daniel}}, booktitle = {{Schüco Symposium 2018 der Schüco Int. KG, Bielefeld, 23.11.2018}}, location = {{Bielefeld}}, title = {{{Working Life of the Future – 2050 : Vortrag}}}, year = {{2018}}, } @inproceedings{5863, author = {{Arztmann, Daniel}}, booktitle = {{"engineered transparency” im Rahmen der Messe Glasstec, Düsseldorf, 25.10.2018}}, location = {{Düsseldorf}}, title = {{{Climate Change and its Influence on Glazed Curtain Walls : Vortrag}}}, year = {{2018}}, } @inproceedings{5864, author = {{Arztmann, Daniel}}, booktitle = {{Advanced Building Skins”, Bern, Schweiz, 02.10.2018}}, location = {{Bern, Schweiz}}, title = {{{Climate Change and its Influence on Facades : Vortrag}}}, year = {{2018}}, } @inproceedings{5865, author = {{Arztmann, Daniel}}, booktitle = {{8th International Congress on Architectural Envelopes, San Sebastian, Spain, 21.06.2018}}, location = {{San Sebastian, Spain}}, title = {{{Façade 4.0 – The New Life Cycle of Facades : Vortrag}}}, year = {{2018}}, } @inproceedings{5866, author = {{Arztmann, Daniel}}, booktitle = {{Glasbau 2018 an der Technischen Universität Dresden, 25.02.2018 }}, location = {{Dresden}}, title = {{{Gesunde Gebäude gesund bauen : Vortrag}}}, year = {{2018}}, } @inproceedings{5852, author = {{Heusler, Winfried and Faltus, Eva-Maria and Arztmann, Daniel}}, booktitle = {{Façade Tectonics Conference Proceedings}}, location = {{Los Angeles}}, title = {{{Building Healthy Buildings – Challenges and Opportunities of the Digital Transformation}}}, year = {{2017}}, } @inproceedings{5867, author = {{Arztmann, Daniel}}, booktitle = {{Fassade 2017 an der Technischen Hochschule Ostwestfalen Lippe, Detmold, 24.11.2017}}, location = {{Detmold}}, publisher = {{Technischen Hochschule Ostwestfalen-Lippe}}, title = {{{Prospective Challenges in Holistic Facade Design : Vortrag}}}, year = {{2017}}, } @inproceedings{5853, abstract = {{This paper provides information about an in-house research project for shadow box design. During this research project, several mockups with sensors for heat and relative humidity were produced and tested under two different laboratory conditions: one with artificial sunlight and one in an outdoor temperate climate. The outdoor test provided information about temperature changes in the shadow box due to air infiltration and exfiltration. Further, it also provided information about the conservation of solar energy in the air cavity behind the spandrel glass and adjacent materials. Temperature sensors on the interior surfaces of the façade produced data that was used to draw conclusions about the heat flow from inside the shadow box to the interior ambient air via the façade profiles. It was also used to develop a two-dimensional simulation tool to show heat development and heat flow in the shadow box. The test under laboratory conditions with artificial sunlight showed that the correct choice of glass type and color of the opaque back layer highly influences heat development in the shadow box cavity. The test results also illustrate that the size of ventilation openings and the depth of the air layer only slightly influence heat built-up in this cavity. The shadow box is a very complex system that should be designed and manufactured so as not to have a detrimental effect on the thermal performance of the facade. To maintain precise and consistent reproduction and to improve the thermal performance, a new PVC shadow box profile was developed. PVC is a poor thermal conductor and, therefore, the heat flow from the shadow box construction into the interior becomes interrupted, consequently improving the heat transfer coefficients of the façade and the panel construction. Furthermore, the PVC profile has been designed as a four sided mitered and sealed frame insert to enable easy attachment of the opaque back layer, thus creating a weather tight assembly within the curtain wall day light opening. }}, author = {{Arztmann, Daniel}}, booktitle = {{Facade Tectonics : World Congress Los Angeles 2016 Conference Proceedings}}, editor = {{Noble, Douglas and Kensek, Karen and Das, Shreya }}, isbn = {{978-1-882352-43-2 }}, keywords = {{Curtain wall, energy efficiency, thermal break, condensation, physical testing, mockups}}, location = {{Los Angeles}}, publisher = {{Tectonic Press}}, title = {{{Shadow Boxes – Re-Engineered}}}, volume = {{2}}, year = {{2016}}, } @inproceedings{5869, author = {{Arztmann, Daniel}}, booktitle = {{Facade Tectonics World Congress 2016, Façade Tectonics Institutes, Los Angeles, USA, 10.10.2016}}, location = {{Los Angeles}}, title = {{{Shadow Boxes – Re-engineered : Vortrag}}}, year = {{2016}}, } @misc{5855, author = {{Arztmann, Daniel}}, title = {{{Konstruktion}}}, year = {{2015}}, } @inbook{5854, abstract = {{Von der Idee zum Produkt In der Baubranche nimmt die Nachfrage nach innovativen Produkten stetig zu. Produktentwicklung Architektur zeigt an ausgewählten Beispielen, wie planende Disziplinen zu diesen Innovationen im Bauen beitragen können. Einführende Essays erörtern übergreifend den thematischen und methodischen Rahmen. Case Studies zeigen exemplarisch die Umsetzung von Ideen zu Prototypen oder zu Produkten.Impulse setzen, Grenzen verschieben, Netzwerke aufbauen und erweitern, Ressourcen schonen, Planungswerkzeuge entwickeln und optimieren sowie additive Verfahren einsetzen – all diese Arbeitsprozesse werden durchgespielt und so die erforderliche Zusammenarbeit der vielfältigen Akteure im Bauwesen verdeutlicht. Die wegweisenden Lösungsansätze machen so die Rolle der angewandten Wissenschaften als gelebter Kooperation von Hochschule und Wirtschaft anschaulich wie die interdisziplinäre Vernetzung der Fachgebiete und Experten. Vorgestellt werden Projekte interdisziplinärer Zusammenarbeit wie die „Algen-Fassade“, die zu einer Realisierung eines Gebäudes mit einer Bioreaktorfassade auf der Internationalen Bauausstellung in Hamburg 2012 führte, oder die „Gedruckte Gebäudehülle“ als Ergebnis eines kooperativen Forschungsprojekts, das freie Formen aus 3D-Computerverfahren für die Fassadengestaltung generiert. }}, author = {{Hildebrandt , Linda and Arztmann, Daniel}}, booktitle = {{ Produktentwicklung Architektur : Visionen, Methoden, Innovationen }}, editor = {{Pottgiesser, Uta and Strauß, Holger}}, isbn = {{978-3-0346-0840-4}}, publisher = {{Birkhäuser}}, title = {{{Fassadenrecycling}}}, doi = {{10.1515/9783034608800.116}}, year = {{2013}}, } @inproceedings{5868, author = {{Arztmann, Daniel}}, booktitle = {{3. VDI Konferenz, Fassaden – Blick in die Zukunft, Düsseldorf, 21.11.2011}}, location = {{Düsseldorf}}, title = {{{Elektrifizierung der Fassade : Vortrag}}}, year = {{2011}}, } @article{5153, author = {{Pottgiesser, Uta}}, journal = {{Proceedings of the 10th International DOCOMOMO Conference - The Challenge of Change: Dealing with the Legacy of the Modern Movement}}, pages = {{331--336}}, title = {{{Modern glass walls on the way to sustainability: Comparing examples from Germany and Brazil}}}, year = {{2008}}, }