01 Fakultät Architektur und Stadtplanung

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Institute: search.filters.UBSInstitut.Fakultätsübergreifend / Sonstige EinrichtungStart date: 2020

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    Unpacking stakeholder perceptions of the benefits and challenges associated with urban greenspaces in Sub-Saharan Africa
    (2021) Guenat, Solène; Porras Lopez, Gabriel; Mkwambisi, David D; Dallimer, Martin
    Urban greenspaces underpin ecosystem service provision in cities and are therefore indispensable for human well-being. Nevertheless, they are increasingly disappearing from cities in Sub-Saharan Africa. Understanding how the stakeholders influencing urban greenspace management perceive the benefits provided by urban greenspaces and the challenges to its conservation and management is critical for reversing this trend. Using Malawi’s capital city, Lilongwe, as a case study, we conducted 44 semi-structured interviews to explore the profiles and perceptions of stakeholders who currently hold influence over greenspace planning, conservation and management. Stakeholders with influence over urban greenspace management described the main focus of their organisation as relating to urban planning, natural resources protection and management, development work, or the hospitality business sector. Critically, only a third of all stakeholders focused on natural resources protection and management. Stakeholders had nuanced and varied appreciations of the benefits that greenspaces provide. Regulation and maintenance ecosystem services, as well as cultural services were frequently mentioned. However, provisioning services were mostly mentioned by those in development work. Stakeholders also identified an additional suite of societal benefits that do not directly map onto ecosystem service frameworks, such as the generation of financial income and the provision of employment opportunities. Challenges identified as hampering the planning, conservation and management of greenspaces included inappropriate urbanisation, lack of coordination and participation, and population growth. Lack of coordination was however not widely acknowledged among those focusing on natural resources protection, who conversely identified population growth more often than any other groups. Highlighting how stakeholders with varying priorities perceive ecosystem services a first step towards improving greenspaces management both for their better acceptation and for improving their potential for biodiversity conservation. Specifically, we bring attention to need for stakeholders working with natural resources protection to recognise more the need for collaborations and engagement. Additional research is also necessary to understand how those different perspectives might be integrated into ongoing processes and procedures to manage greenspaces in Sub-Saharan Africa.
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    Computational optimisation of urban design models : a systematic literature review
    (2024) Tay, JingZhi; Ortner, Frederick Peter; Wortmann, Thomas; Aydin, Elif Esra
    The densification of urban spaces globally has contributed to a need for design tools supporting the planning of more sustainable, efficient, and liveable cities. Urban Design Optimisation (UDO) responds to this challenge by providing a means to explore many design solutions for a district, evaluate multiple objectives, and make informed selections from many Pareto-efficient solutions. UDO distinguishes itself from other forms of design optimisation by addressing the challenges of incorporating a wide range of planning goals, managing the complex interactions among various urban datasets, and considering the social-technical aspects of urban planning involving multiple stakeholders. Previous reviews focusing on specific topics within UDO do not sufficiently address these challenges. This PRISMA systematic literature review provides an overview of research on topics related to UDO from 2012 to 2022, with articles analysed across seven descriptive categories. This paper presents a discussion on the state-of-the-art and identified gaps present in each of the seven categories. Finally, this paper argues that additional research to improve the socio-technical understanding and usability of UDO would require: (i) methods of optimisation across multiple models, (ii) interfaces that address a multiplicity of stakeholders, (iii) exploration of frameworks for scenario building and backcasting, and (iv) advancing AI applications for UDO, including generalizable surrogates and user preference learning.
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    Informing the design of urban green and blue spaces through an understanding of Europeans' usage and preferences
    (2022) Jakstis, Kristen; Dubovik, Maria; Laikari, Arto; Mustajärvi, Kaisa; Wendling, Laura; Fischer, Leonie K.
    In light of global climate change and the biodiversity crisis, making cities more resilient through an adjusted design of urban green and blue spaces is crucial. Nature‐based solutions help address these challenges while providing opportunities for nature experiences, and providing cultural ecosystem services that support public health. The COVID‐19 pandemic and its associated stressors highlighted the interrelated socio‐ecological services provided by nature‐based solutions like urban green and blue spaces. This pan‐European study therefore aimed to enhance the socio‐ecological understanding of green and blue spaces to support their design and management. Using an online survey, green and blue space preferences, usage, and pandemic‐related changes in greenspace visit and outdoor recreation frequencies were examined. Greenspace visit and outdoor recreation frequencies were associated with respondents’ (N = 584 from 15 countries) geographical location, dominant type of neighbourhood greenspace and greenspace availability during the pandemic, but not greenspace perceptions or sociodemographic background. Greenspace visit and outdoor recreation frequencies were generally high; however, Southern Europeans reported lower greenspace visit and outdoor recreation frequencies both before and during the pandemic than Northern Europeans. Many Southern Europeans also reported having few neighbourhood greenspaces and low greenspace availability during the pandemic. The most common outdoor recreational activity among respondents before the pandemic was walking or running with the most frequently stated purpose of time spent outdoors being restorative in nature (i.e. relaxing or calming down). Most Europeans had positive perceptions of green and blue spaces with preferences for structurally diverse and natural or unmanaged green elements. This highlights the importance of accessible green and blue spaces both in everyday life and during times of crisis. Stakeholders, their preferences, and regional and cultural differences should be included in the co‐design of urban green and blue spaces to maximize their potential for both people and nature.
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    Tensegrity FlaxSeat : exploring the application of unidirectional natural fiber biocomposite profiles in a tensegrity configuration as a concept for architectural applications
    (2024) Renner, Markus; Spyridonos, Evgenia; Dahy, Hanaa
    Material selection is crucial for advancing sustainability in the building sector. While composites have become popular, biocomposites play a pivotal role in raising awareness of materials deriving from biomass resources. This study presents a new linear biocomposite profile, fabricated using pultrusion technology, a continuous process for producing endless fiber-reinforced composites with consistent cross-sections. The developed profiles are made from flax fibers and a plant-based resin. This paper focuses on the application of these profiles in tensegrity systems, which combine compression and tension elements to achieve equilibrium. In this study, the biocomposite profiles were used as compression elements, leveraging their properties. The methods include geometrical development using physical and digital models to optimize the geometry based on material properties and dimensions. A parametric algorithm including physics simulations was developed for this purpose. Further investigations explore material options for tension members and connections, as well as assembly processes. The results include several prototypes on different scales. Initially, the basic tensegrity principle was built and explored. The lessons learned were applied in a final prototype of 1.5 m on a furniture scale, specifically a chair, integrating a hanging membrane serving as a seat. This structure validates the developed system, proving the feasibility of employing biocomposite profiles in tensegrity configurations. Furthermore, considerations for scaling up the systems to an architectural level are discussed, highlighting the potential to enhance sustainability through the use of renewable and eco-friendly building materials, while promoting tensegrity design applications.
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    Bio-modules : mycelium-based composites forming a modular interlocking system through a computational design towards sustainable architecture
    (2023) Abdelhady, Omar; Spyridonos, Evgenia; Dahy, Hanaa
    In a resource-constrained world, raising awareness about the development of eco-friendly alternative materials is critical for ensuring a more sustainable future. Mycelium-based composites (MBC) and their diverse applications are gaining popularity as regenerative, biodegradable, and lightweight alternatives. This research aims to broaden the design potentials of MBC in order to construct advanced systems towards a novel material culture in architecture. The proposed design method intends to explore the design and fabrication of small-scale components of MBC to be applied in modular systems. Mycelium-based modular components are being developed to fulfill the geometrical requirements that allow for the creation of a lightweight system without additional reinforcement. The modules are linked together using an interlocking system. Through computational design and form-finding methods, various arrangements of the modules are achieved. An initial prototype of five modules is created to demonstrate the ability of the system to form various geometrical configurations as a result of the used workflow. The proposed application aims to expand the scope of the use of mycelium-based composites in modular systems and to promote architectural applications using bio-based composite materials.
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    Flood resilience assessment from the perspective of urban (in)formality in Surat, India : implications for sustainable development
    (2023) Jamshed, Ali; Patel, Chirag; Puriya, Anshul; Iqbal, Nimra; Rana, Irfan Ahmad; McMillan, Joanna M.; Pandey, Rajiv; Altaf, Shahbaz; Mehmood, Rana Tahir; Saad, Umair bin
    Urbanization has resulted in increasing the pace of informality, specifically in developing countries like India. Informality is taking place at locations that are exposed to various hazards, and therefore, resilience building of both informal and formal settlements is needed to achieve sustainable development. Resilience assessment is key in defining appropriate area-specific resilience measures. Given that, this research assesses the resilience of formal and informal settlements of Surat city in India and presents implications for sustainable development. To assess resilience, an indicator-based approach was taken, using a household survey to collect the data. Analysis suggests that the resilience of formal and informal settlements is significantly different. Key differences were found in physical and institutional resilience, where informal settlements were found to be significantly less resilient than formal settlements. Several measures, such as gender-sensitive education and livelihood programs, as well as mobile water and sanitation, have positive implications for sustainable development. Overall, the study can guide disaster managers and policy makers to adopt a strategic and more targeted approach to strengthen resilience and achieve sustainable development.
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    Structural optimization through biomimetic-inspired material-specific application of plant-based natural fiber-reinforced polymer composites (NFRP) for future sustainable lightweight architecture
    (2020) Sippach, Timo; Dahy, Hanaa; Uhlig, Kai; Grisin, Benjamin; Carosella, Stefan; Middendorf, Peter
    Under normal conditions, the cross-sections of reinforced concrete in classic skeleton construction systems are often only partially loaded. This contributes to non-sustainable construction solutions due to an excess of material use. Novel cross-disciplinary workflows linking architects, engineers, material scientists and manufacturers could offer alternative means for more sustainable architectural applications with extra lightweight solutions. Through material-specific use of plant-based Natural Fiber-Reinforced Polymer Composites (NFRP), also named Biocomposites, a high-performance lightweight structure with topology optimized cross-sections has been here developed. The closed life cycle of NFRPs promotes sustainability in construction through energy recovery of the quickly generative biomass-based materials. The cooperative design resulted in a development that were verified through a 1:10 demonstrator, whose fibrous morphology was defined by biomimetically-inspired orthotropic tectonics, generated with by the fiber path optimization software tools, namely EdoStructure and EdoPath in combination with the appliance of the digital additive manufacturing technique: Tailored Fiber Placement (TFP).
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    Beyond values : how emotions, anthropomorphism, beliefs and knowledge relate to the acceptability of native and non‐native species management in cities
    (2022) Straka, Tanja M.; Bach, Luise; Klisch, Ulrike; Egerer, Monika H.; Fischer, Leonie K.; Kowarik, Ingo
    Managing non‐native species in cities is often controversial because these species can support both ecosystem services and disservices. Yet, how the acceptability of non‐native species management by the general public differs in relation to native species, to distance (i.e. close to residence and elsewhere) and among plants and animals is understudied. Furthermore, while values, beliefs and knowledge are often considered in this context, psychometric factors such as emotions and anthropomorphic views have received little attention. We surveyed 658 residents in Berlin, Germany, to assess (i) the acceptability of management actions differing in their severity for non‐native plants and animals compared to native species with similar traits, (ii) the influence of perceived distance of species (i.e. close to residence and elsewhere) and (iii) the predictive potential of psychometric (i.e. values, beliefs, self‐assessed knowledge, emotions and anthropomorphism) and socio‐demographic factors for this acceptability. Eradication (i.e. lethal control/removal) was generally the least accepted management action, but more accepted for non‐native than native species. Distance mattered for the acceptability of non‐native plant management with unspecified control action the most accepted management action close to residence. While values (self‐transcendence and conservation) mostly explained the acceptability of doing nothing and eradication, emotions related strongly to all management actions. Beliefs were more important than self‐assessed knowledge in relation to non‐native species management and beliefs about non‐native plants and animals were rated almost similar. Anthropomorphic views had predictive potential for plants and animals; that is, the stronger people held anthropomorphic views, the less they accepted eradication. Participants with a garden supported doing nothing with plants (native and non‐native) more than without. Results highlight the complexity of factors underlying the acceptability of management actions on species in cities. While values, beliefs and self‐assessed knowledge are important in the context of species management, other psychometric factors add to our understanding of acceptability. We conclude that awareness about different acceptability patterns related to species management can support environmental policies on biological invasions in cities. Tailoring and implementing adequate management actions can benefit from incorporating cognitive but also affective factors of the public.
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    Towards sustainable urbanization in new cities : social acceptance and preferences of agricultural and solar energy systems
    (2024) Marzouk, Mai A.; Salheen, Mohamed A.; Fischer, Leonie K.
    Social acceptance of end users is indispensable for the implementation of agricultural and solar energy systems to create a more sustainable and productive residential building sector. Thus, the main aim of this study is to investigate the social acceptance level of the two systems and the implementation preferences of Egyptian end users, i.e., residents, in relation to their different sociocultural backgrounds. Given that most of the construction in Egypt is taking place in new cities, the acceptance of such systems strongly relates to societal implications for urban sustainability. An online survey was therefore disseminated to the residents of new cities in the Greater Cairo Region in Egypt (n = 274). A contingency analysis was conducted using the SPSS tool, calculating the Chisquared and Fisher tests to identify significant associations between the variables. Results indicated a high level of social acceptance of both the agricultural (71 %) and solar energy (64 %) systems. The attitude of residents towards the systems and their experience using them were the variables exhibiting the highest association with social acceptance of agricultural systems (p < 0.001 for attitude and experience) and solar energy systems (p = 0.04 for attitude and p = 0.002 for experience). The most preferred system types were the horizontal planters on hand railings and roof-mounted photovoltaics. Responses showed that production was the main aim for agricultural systems, while economic returns were the main aim for solar systems. However, both systems faced the same barriers, especially in relation to economic barriers. Out of the 12 sociocultural variables tested, respondents’ age had the most significant impact on the implementation preferences of both systems followed by gender, residence type, and access to shared facilities. Our study addressed a knowledge gap by comparing the two systems to identify the common or different reasons behind the disparity between their high theoretical potential versus low on-ground implementation. Future research could investigate other underlying factors behind social acceptance beyond the analyzed sociocultural aspects and tackle the types of each system in detail.
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    Cross-sectional 4D-printing : upscaling self-shaping structures with differentiated material properties inspired by the large-flowered butterwort (Pinguicula grandiflora)
    (2023) Sahin, Ekin Sila; Cheng, Tiffany; Wood, Dylan; Tahouni, Yasaman; Poppinga, Simon; Thielen, Marc; Speck, Thomas; Menges, Achim
    Extrusion-based 4D-printing, which is an emerging field within additive manufacturing, has enabled the technical transfer of bioinspired self-shaping mechanisms by emulating the functional morphology of motile plant structures (e.g., leaves, petals, capsules). However, restricted by the layer-by-layer extrusion process, much of the resulting works are simplified abstractions of the pinecone scale’s bilayer structure. This paper presents a new method of 4D-printing by rotating the printed axis of the bilayers, which enables the design and fabrication of self-shaping monomaterial systems in cross sections. This research introduces a computational workflow for programming, simulating, and 4D-printing differentiated cross sections with multilayered mechanical properties. Taking inspiration from the large-flowered butterwort (Pinguicula grandiflora), which shows the formation of depressions on its trap leaves upon contact with prey, we investigate the depression formation of bioinspired 4D-printed test structures by varying each depth layer. Cross-sectional 4D-printing expands the design space of bioinspired bilayer mechanisms beyond the XY plane, allows more control in tuning their self-shaping properties, and paves the way toward large-scale 4D-printed structures with high-resolution programmability.