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Die Form der Datenbank
(2023)
Datenbanken sind heute die wichtigste Technik zur Organisation und Verarbeitung von Daten. Wie wurden sie zu einer der allgegenwärtigsten und gleichzeitig unsichtbarsten Praxis, die menschliche Zusammenarbeit ermöglicht? Diese Studie beginnt mit einer historiographischen Erkundung der zentralen medialen Konzepte von Datenbanken und mündet in das praxeologische Konzept der "Daten als Formation", kurz: In-Formation.
Der erste Hauptteil befasst sich mit der Formatierung von Daten durch die Verarbeitung strukturierter Daten mittels relationaler Algebra. Es wird erarbeitet, auf welche Weise Struktur neues Wissen schafft. Im zweiten Teil wird erörtert, wie Datenbanken durch den diagrammatisch-epistemischen Raum der Tabelle operationalisiert werden. Drittens untersucht die Studie Transaktionen als Erklärungen dafür, wie Daten und reale Handlungen koordiniert und synchronisiert werden können.
Im zweiten Hauptteil wird untersucht, wie relationale Datenbanken zunehmend zum Zentrum von Softwareanwendungen und Infrastrukturen wurden, wobei der Schwerpunkt auf wirtschaftlichen Praktiken liegt. In einem vergleichenden Ansatz wird anhand von Fallstudien in der DDR der 1970er bis 1990er Jahren die Frage gestellt, ob es eine „sozialistische“ Datenbankmanagement-Software gegeben hat. Dabei werden die „westlichen“ Produktionsdatenbanken BOMP, COPICS und MAPICS (IBM) sowie R2 (SAP) im Zusammenspiel mit den ostdeutschen Sachgebietsorientierten Programmiersystemen (SOPS) von Robotron diskutiert. Schließlich untersucht dieser Teil, wie die DDR ihr eigenes relationales Datenbankmanagementsystem, DABA 1600, entwickelte und dabei „westliche“ Technologie neu interpretierte.
Das abschließende Kapitel fasst die Konzepte der relationalen Datenbanken als heute wichtigsten Datenorganisationstechnik zusammen. Es erörtert, inwiefern es möglich ist, die historiographische Erzählung über die Entstehung von Datenbankmanagementsystemen und ihre Folgen für die Geschichte der Informatik zu dezentrieren. Es schließt mit der Erkenntnis, dass östliche und westliche Medien der Kooperation sich in Form und Funktion erstaunlich ähnlich sind, beide wurzeln in den tiefen Genealogien von organisatorischen und wissensbildenden Datenpraktiken.
Neben dieser medienwissenschaftlichen Arbeit besteht die Dissertation aus einem künstlerischen Teil, der dokumentiert wird: Anhand einer Reihe von Vlogs erkundet die fiktionale Figur „Data Proxy“ aktuelle Datenökologien.
In this work, practice-based research is conducted to rethink the understanding of aesthetics, especially in relation to current media art. Granted, we live in times when technologies merge with living organisms, but we also live in times that provide unlimited resources of knowledge and maker tools. I raise the question: In what way does the hybridization of living organisms and non-living technologies affect art audiences in the culture that may be defined as Maker culture? My hypothesis is that active participation of an audience in an artwork is inevitable for experiencing the artwork itself, while also suggesting that the impact of the umwelt changes the perception of an artwork. I emphasize artistic projects that unfold through mutual interaction among diverse peers, including humans, non-human organisms, and machines. In my thesis, I pursue collaborative scenarios that lead to the realization of artistic ideas: (1) the development of ideas by others influenced by me and (2) the materialization of my own ideas influenced by others. By developing the scenarios of collaborative work as an artistic experience, I conclude that the role of an artist in Maker culture is to mediate different types of knowledge and different positions, whereas the role of the audience is to actively engage in the artwork itself. At the same time, aesthetics as experience is triggered by the other, including living and non-living actors. It is intended that the developed methodologies could be further adapted in artistic practices, philosophy, anthropology, and environmental studies.
Resonance vibration of structures is an unpleasant incident that can be conventionally avoided by using a Tuned Mass Damper (TMD). The scope of this paper contains the utilization of engineered inclusions in concrete as damping aggregates to suppress resonance vibration similar to a TMD. The inclusions are composed of a stainless-steel core with a spherical shape coated with silicone. This configuration has been the subject of several studies and it is best known as Metaconcrete. This paper presents the procedure of a free vibration test conducted with two small-scaled concrete beams. The beams exhibited a higher damping ratio after the core-coating element was secured to them. Subsequently, two meso-models of small-scaled beams were created: one representing conventional concrete and the other representing concrete with the core-coating inclusions. The frequency response curves of the models were obtained. The change in the response peak verified the ability of the inclusions to suppress the resonance vibration. This study concludes that the core-coating inclusions can be utilized in concrete as damping aggregates.
Urban Heat Transition in Berlin: Corporate Strategies, Political Conflicts, and Just Solutions
(2023)
In the field of urban climate policy, heat production and demand are key sectors for achieving a sustainable city. Heat production has to shift from fossil to renewable energies, and the heat demand of most buildings has to be reduced significantly via building retrofits. However, analyses of heat transition still lack its contextualization within entangled urban politico-economic processes and materialities and require critical socio-theoretical examination. Asking about the embeddedness of heat transition within social relations and its implications for social justice issues, this article discusses the challenges and opportunities of heat transition, taking Berlin as an example. It uses an urban political ecology perspective to analyze the materialities of Berlin’s heating-housing nexus, its politico-economic context, implications for relations of inequality and power, and its contested strategies. The empirical analysis identifies major disputes about the future trajectory of heat production and about the distribution of retrofit costs. Using our conceptual approach, we discuss these empirical findings against the idea of a more just heat transition. For this purpose, we discuss three policy proposals regarding cost distribution, urban heat planning, and remunicipalization of heat utilities. We argue that this conceptual approach provides huge benefits for debates around heat transition and, more generally, energy justice and just transitions.
Beyond metropolitan areas, many peripheral regions and their cities in Europe have, in manifold ways, been significantly shaped by industrialisation. In the context of the relocation of industrial production to other countries over the last decades, the question has been raised as to the role this heritage can play in futural regional development as well as the potential local identification with this history. Hence, this article seeks to analyse the perception of the industrial heritage in the Vogtland region, located alongside the border of three German federal states and the Czech Republic. It inquires as to the perception of the industrial heritage by the local population and related potential future narrations. Based on spontaneous and explorative interviews with local people as an empirical base, a discrepancy between the perception of the tangible and intangible dimensions of the industrial heritage can be observed. On the one hand, the tangible heritage like older factories and production complexes are seen as a functional legacy and an “eyesore” narrative is attributed to them. On the other hand, people often reference the personal and familial connection to the industry and highlight its importance for the historical development and the wealth of the region. But these positive associations are mainly limited to the intangible dimension and are disconnected from the material artefacts of industrial production.
The characteristic values of climatic actions in current structural design codes are based on a specified probability of exceedance during the design working life of a structure. These values are traditionally determined from the past observation data under a stationary climate assumption. However, this assumption becomes invalid in the context of climate change, where the frequency and intensity of climatic extremes varies with respect to time. This paper presents a methodology to calculate the non-stationary characteristic values using state of the art climate model projections. The non-stationary characteristic values are calculated in compliance with the requirements of structural design codes by forming quasi-stationary windows of the entire bias-corrected climate model data. Three approaches for the calculation of non-stationary characteristic values considering the design working life of a structure are compared and their consequences on exceedance probability are discussed.
Care of ageing adults has become a dominant field of application for assistive robot technologies, promising support for ageing adults residing in care homes and staff, in dealing with practical routine tasks and providing social and emotional relieve. A time consuming and human intensive necessity is the maintenance of high hygiene quality in care homes. Robotic vacuum cleaners have been proven effective for doing the job elsewhere, but—in the context of care homes—are counterproductive for residents’ well-being and do not get accepted. This is because people with dementia manifest their agency in more implicit and emotional ways, while making sense of the world around them. Starting from these premises, we explored how a zoomorphic designed vacuum cleaner could better accommodate the sensemaking of people with dementia. Our design reconceptualises robotic vacuum cleaners as a cat-like robot, referring to a playful behaviour and appearance to communicate a non-threatening and familiar role model. Data from an observational study shows that residents responded positively to our prototype, as most of them engaged playfully with it as if it was a pet or a cat-like toy, for example luring it with gestures. Some residents simply ignored the robot, indicating that it was not perceived as frightening or annoying. The level of activity influenced reactions; residents ignored our prototype if busy with other occupations, which proves that it did not cause significant disturbance. We further report results from focus group sessions with formal and informal caregivers who discussed a video prototype of our robot. Caregivers encouraged us to enhance the animal like characteristics (in behaviour and materiality) even further to result in richer interactions and provoke haptic pleasure but also pointed out that residents should not mistake the robot for a real cat.
Patterns of Detachment: Spatial Transformations of the Phosphate Industry in el-Quseir, Egypt
(2023)
The establishment of phosphate mines and processing plants by Italian entrepreneurs in el-Quseir in 1912 revitalized a town that had faced a steady decline after the opening of the Suez Canal and re-linked it to the world economy. To this day, the now defunct industrial site occupies a large section of physical el-Quseir and plays a key role in its identity. In this article, we explore the impact of the company’s successive industrialization and deindustrialization based on archival research, interviews, and mapping. By tracing physical changes on-site and in the city of el-Quseir from the founding of its phosphate industry until today, as well as the historical and current interactions of citizens with the industrial facilities, we hope to better understand the “cluster value” of the industrial plant in quotidian life and the effect of the vacuum left behind after the termination of production. As machinery and buildings are slowly eroding in the absence of expressed interest by the former Italian and current Egyptian owners, we aim to discuss the relationship between the citizens and their el-Quseir phosphate plant as a crucial element of its heritage value at the local level.
Identification of modal parameters of a space frame structure is a complex assignment due to a large number of degrees of freedom, close natural frequencies, and different vibrating mechanisms. Research has been carried out on the modal identification of rather simple truss structures. So far, less attention has been given to complex three-dimensional truss structures. This work develops a vibration-based methodology for determining modal information of three-dimensional space truss structures. The method uses a relatively complex space truss structure for its verification. Numerical modelling of the system gives modal information about the expected vibration behaviour. The identification process involves closely spaced modes that are characterised by local and global vibration mechanisms. To distinguish between local and global vibrations of the system, modal strain energies are used as an indicator. The experimental validation, which incorporated a modal analysis employing the stochastic subspace identification method, has confirmed that considering relatively high model orders is required to identify specific mode shapes. Especially in the case of the determination of local deformation modes of space truss members, higher model orders have to be taken into account than in the modal identification of most other types of structures.
In this paper we propose a novel and efficient rasterization-based approach for direct rendering of isosurfaces. Our method exploits the capabilities of task and mesh shader pipelines to identify subvolumes containing potentially visible isosurface geometry, and to efficiently extract primitives which are consumed on the fly by the rasterizer. As a result, our approach requires little preprocessing and negligible additional memory. Direct isosurface rasterization is competitive in terms of rendering performance when compared with ray-marching-based approaches, and significantly outperforms them for increasing resolution in most situations. Since our approach is entirely rasterization based, it affords straightforward integration into existing rendering pipelines, while allowing the use of modern graphics hardware features, such as multi-view stereo for efficient rendering of stereoscopic image pairs for geometry-bound applications. Direct isosurface rasterization is suitable for applications where isosurface geometry is highly variable, such as interactive analysis scenarios for static and dynamic data sets that require frequent isovalue adjustment.
Die Corona-Krise stellt das städtische Zusammenleben auf eine harte Probe. Nicht nur sozialer Austausch, Kultur und Verkehr, sondern auch die kommunale Demokratie ist massiv beeinflusst. Wer kann in der Krise noch mitsprechen? Und wie verändert sie das Zusammenspiel von Verwaltung, Politik und Zivilgesellschaft? Die Beiträger*innen untersuchen anhand von Fallstudien die Auswirkungen der Krise auf die kommunale Beteiligungskultur. Sie fragen mit interdisziplinärem Blick nach der kommunalen Krisenbewältigung und erfolgreichen Governance-Strukturen im Kontext multipler Krisen. Ihr Ansatz der kritischen Urbanistik versteht sich dabei als Einladung zur Reflexion, Debatte und alternativen Praxis.
Anhand der städtebaulichen und sozialen Transformation des östlichen Gründerzeitgebietes von Leipzig wird die Rolle von migrantischen Hausbesitzenden und in der Bausanierung Tätigen im Aufwertungsprozess untersucht. Der Zugang zum Gegenstand verbindet Fragen der Stadtsoziologie und der Denkmalforschung. Im sozialen Feld der Stadterneuerung wird die Revitalisierung des ehemals von Leerstand und Rückbau betroffenen Baubestandes ausgehandelt. Die Positionen der Akteur:innen im Feld werden durch ihre Ausstattung mit ökonomischem, aber auch sozialem und kulturellem Kapital bestimmt. Angehörige der Planungs- und Denkmalbehörden verfügen über institutionalisiertes Kulturkapital und stehen damit Kleineigentümer:innen, häufig Autodidakt:innen, gegenüber. Baudenkmale können über ihre Funktion als Geldanlage und Wohnraum hinaus Status repräsentieren und symbolisch angeeignet werden. Denkmalschutz dient dem öffentlichen Interesse am Erhalt historischer Bausubstanz. Bei Sanierungen bestehen die Herausforderungen der Vereinbarkeit von Konservierung und Modernisierung, der Finanzierbarkeit für Eigentümer:innen und der Sozialverträglichkeit für Bewohnende. Eine Darstellung der historischen Entwicklung des Leipziger Ostens zu Beginn der Analyse veranschaulicht die Abhängigkeit kultureller, sozialer und ökonomischer Werte des Baubestandes vom jeweiligen gesellschaftlichen Kontext. Planerische Konzepte für das Gebiet zeigen, dass eine sozioökonomische Stabilisierung und Imageverbesserung erreicht werden sollte durch das Aufgreifen von Potentialen, wie den denkmalgeschützten Bauten, dem zuziehenden alternativen Milieu und migrantischer Ökonomie. Es wird deutlich, dass nach einer initialen Ansässigkeit von Pionier:innen die öffentlichen Infrastrukturmaßnahmen und Denkmalausweisungen eine Inwertsetzung v. a. durch externe Anlegende vorbereiteten. Darauf aufbauend wurden anhand einer qualitativen Befragung die Erfahrungen von städtischen Mitarbeitenden, Fachleuten und im Quartier Engagierten denen von lokalen migrantischen Hausbesitzenden und im Bereich Sanierung Tätigen gegenübergestellt. Migrant:innengruppen haben den Stadtraum in einer Phase vorherrschender Abwanderung durch die Eröffnung von Geschäften und Institutionen sowie den Erwerb von Immobilien für sich erschlossen. Strukturelle Benachteiligungen, wie Diskriminierung auf dem Arbeitsmarkt, ihre Ansässigkeit im sozial stigmatisierten Gebiet sowie geringes ökonomisches Kapital versuchten sie durch den Einsatz von sozialem Kapital auszugleichen. Sanierungen erfolgten mit hoher Eigenleistung und Rückgriff auf private Netzwerke. Die Analyse des Erneuerungsprozesses im Leipziger Osten zeigt, dass in einer initialen Phase Pionier:innen von Planenden und der Denkmalpflege als essentiell für die Entwicklung angesehen wurden. Günstige Instandsetzungen durch Kleineigentümer:innen wurden akzeptiert, um Gebäude vor weiterem Verfall zu bewahren. Mit der zunehmenden Forderung nach Verwendung hochwertiger Materialen werden die Sanierungsleistungen nach ästhetischen und letztlich ökonomischen Kriterien bewertet. Gegenüber sozialen Folgen einer Aufwertung von Bausubstanz lässt sich eine unkritische Haltung der Denkmalpflege erkennen. Bei der Vermarktung der Bestände durch professionelle Investierende findet die Sozialgeschichte des Stadtteils wenig Berücksichtigung, positiv besetzte Merkmale des Quartiers, wie Multikulturalität werden selektiv aufgegriffen. Der Anteil migrantischer Akteur:innen an der Entwicklung wird durch die Öffentlichkeit unzureichend anerkannt. Auch die Wertschätzung von Planenden und im Quartier Engagierten erfolgt v. a. anhand des ökonomischen Status. Hohe Erwartungen an die Geschäftsstruktur und die Erscheinung des Straßenbildes können nicht erfüllt werden. Migrantische Hausbesitzende und im Bereich Sanierung Tätige benötigen für die Auseinandersetzung mit der Denkmalpflege kulturelles Kapital. Sie erkennen die Bedeutung des historischen Baubestandes für die Stadt und die Arbeit der Institution an, kritisieren jedoch Sanierungsauflagen bzw. Mitarbeitende der Denkmalpflege und können sich z. T. gegen diese behaupten. Lokale migrantische Kleineigentümer:innen leisten durch ihre Quartiersbindung einen Beitrag zur ökonomischen und sozialen Stabilisierung. Mit ihrer Aufstiegsorientierung fördern sie in der Vermietungspraxis jedoch nur bedingt die Integration anderer Migrant:innen und grenzen sich von statusniedrigen Gruppen im Quartier ab. Migrantische Hausbesitzende und Unternehmende nehmen sich selbst als erfolgreiche Vorreitende in einer heterogener werdenden ostdeutschen Stadtgesellschaft wahr. Sie erkannten frühzeitig das Entwicklungspotential und gehören zu den Initiierenden und Profitierenden der Inwertsetzung.
Search engines are very good at answering queries that look for facts. Still, information needs that concern forming opinions on a controversial topic or making a decision remain a challenge for search engines. Since they are optimized to retrieve satisfying answers, search engines might emphasize a specific stance on a controversial topic in their ranking, amplifying bias in society in an undesired way. Argument retrieval systems support users in forming opinions about controversial topics by retrieving arguments for a given query. In this thesis, we address challenges in argument retrieval systems that concern integrating them in search engines, developing generalizable argument mining approaches, and enabling frame-guided delivery of arguments.
Adapting argument retrieval systems to search engines should start by identifying and analyzing information needs that look for arguments. To identify questions that look for arguments we develop a two-step annotation scheme that first identifies whether the context of a question is controversial, and if so, assigns it one of several question types: factual, method, and argumentative. Using this annotation scheme, we create a question dataset from the logs of a major search engine and use it to analyze the characteristics of argumentative questions. The analysis shows that the proportion of argumentative questions on controversial topics is substantial and that they mainly ask for reasons and predictions. The dataset is further used to develop a classifier to uniquely map questions to the question types, reaching a convincing F1-score of 0.78.
While the web offers an invaluable source of argumentative content to respond to argumentative questions, it is characterized by multiple genres (e.g., news articles and social fora). Exploiting the web as a source of arguments relies on developing argument mining approaches that generalize over genre. To this end, we approach the problem of how to extract argument units in a genre-robust way. Our experiments on argument unit segmentation show that transfer across genres is rather hard to achieve using existing sequence-to-sequence models.
Another property of text which argument mining approaches should generalize over is topic. Since new topics appear daily on which argument mining approaches are not trained, argument mining approaches should be developed in a topic-generalizable way. Towards this goal, we analyze the coverage of 31 argument corpora across topics using three topic ontologies. The analysis shows that the topics covered by existing argument corpora are biased toward a small subset of easily accessible controversial topics, hinting at the inability of existing approaches to generalize across topics. In addition to corpus construction standards, fostering topic generalizability requires a careful formulation of argument mining tasks. Same side stance classification is a reformulation of stance classification that makes it less dependent on the topic. First experiments on this task show promising results in generalizing across topics.
To be effective at persuading their audience, users of an argument retrieval system should select arguments from the retrieved results based on what frame they emphasize of a controversial topic. An open challenge is to develop an approach to identify the frames of an argument. To this end, we define a frame as a subset of arguments that share an aspect. We operationalize this model via an approach that identifies and removes the topic of arguments before clustering them into frames. We evaluate the approach on a dataset that covers 12,326 frames and show that identifying the topic of an argument and removing it helps to identify its frames.
Anti-Gewalttrainings, Gewaltwissen und die institutionelle Erzeugung gewaltbefreiter Subjekte
(2023)
Dieser Beitrag fragt danach, wie Wissen über Gewalt in Anti-Gewalttrainings produziert, vermittelt und sozial wirkmächtig wird. Auf Basis des kommunikativen Konstruktivismus werden diese Kurse als gewaltbezogene Institutionen begriffen, in denen eine Wissensordnung der Gewalt stabilisiert wird. Sie sollen Abweichungen von institutionalisierten Wirklichkeitsvorstellungen in Bezug auf Gewalt entgegenwirken. Dabei lassen sie sich als Selbsttechniken begreifen, durch welche die Kursteilnehmer*innen eine spezifische Subjektposition einüben, nämlich die des gewaltbefreiten Subjekts. Vor diesem Hintergrund wird anschließend zwischen konditionalen und konzessiven Anti-Gewalttrainings unterschieden. Erstere wenden sich an Personen, die tatsächlich von der institutionalisierten Wirklichkeitsvorstellung abgewichen sind und somit gesellschaftlich als Gewalttäter*innen eingestuft werden, während Letztere auf eine Klientel zielen, die potenziell von den gängigen Normen abweichen könnte, obwohl noch keine Gewalt aufgetreten sein muss. Abschließend wird gezeigt, dass den Kursleiter*innen eine wichtige Rolle im Subjektivierungsprozess und der Wissenskommunikation über Gewalt zukommt. Neben Wissen über Gewalt werden durch sie auch Wertbindungen, Legitimationen und Weltbilder vermittelt.
When predicting sound pressure levels induced by structure-borne sound sources and describing the sound propagation path through the building structure as exactly as possible, it is necessary to characterize the vibration behavior of the structure-borne sound sources. In this investigation, the characterization of structure-borne sound sources was performed using the two-stage method (TSM) described in EN 15657. Four different structure-borne sound sources were characterized and subsequently installed in a lightweight test stand. The resulting sound pressure levels in an adjacent receiving room were measured. In the second step, sound pressure levels were predicted according to EN 12354-5 based on the parameters of the structure-borne sound sources. Subsequently, the predicted and the measured sound pressure levels were compared to obtain reliable statements on the achievable accuracy when using source quantities determined by TSM with this prediction method.
Biomembranes are selectively permeable barriers that separate the internal components of the cell from its surroundings. They have remarkable mechanical behavior which is characterized by many phenomena, but most noticeably their fluid-like in-plane behavior and solid-like out-of-plane behavior. Vesicles have been studied in the context of discrete models, such as Molecular Dynamics, Monte Carlo methods, Dissipative Particle Dynamics, and Brownian Dynamics. Those methods, however, tend to have high computational costs, which limited their uses for studying atomistic details. In order to broaden the scope of this research, we resort to the continuum models, where the atomistic details of the vesicles are neglected, and the focus shifts to the overall morphological evolution. Under the umbrella of continuum models, vesicles morphology has been studied extensively. However, most of those studies were limited to the mechanical response of vesicles by considering only the bending energy and aiming for the solution by minimizing the total energy of the system. Most of the literature is divided between two geometrical representation methods; the sharp interface methods and the diffusive interface methods. Both of those methods track the boundaries and interfaces implicitly. In this research, we focus our attention on solving two non-trivial problems. In the first one, we study a constrained Willmore problem coupled with an electrical field, and in the second one, we investigate the hydrodynamics of a vesicle doublet suspended in an external viscous fluid flow.
For the first problem, we solve a constrained Willmore problem coupled with an electrical field using isogeometric analysis to study the morphological evolution of vesicles subjected to static electrical fields. The model comprises two phases, the lipid bilayer, and the electrolyte. This two-phase problem is modeled using the phase-field method, which is a subclass of the diffusive interface methods mentioned earlier. The bending, flexoelectric, and dielectric energies of the model are reformulated using the phase-field parameter. A modified Augmented-Lagrangian (ALM) approach was used to satisfy the constraints while maintaining numerical stability and a relatively large time step. This approach guarantees the satisfaction of the constraints at each time step over the entire temporal domain.
In the second problem, we study the hydrodynamics of vesicle doublet suspended in an external viscous fluid flow. Vesicles in this part of the research are also modeled using the phase-field model. The bending energy and energies associated with enforcing the global volume and area are considered. In addition, the local inextensibility condition is ensured by introducing an additional equation to the system. To prevent the vesicles from numerically overlapping, we deploy an interaction energy definition to maintain a short-range repulsion between the vesicles. The fluid flow is modeled using the incompressible Navier-Stokes equations and the vesicle evolution in time is modeled using two advection equations describing the process of advecting each vesicle by the fluid flow. To overcome the velocity-pressure saddle point system, we apply the Residual-Based Variational MultiScale (RBVMS) method to the Navier-Stokes equations and solve the coupled systems using isogeometric analysis. We study vesicle doublet hydrodynamics in shear flow, planar extensional flow, and parabolic flow under various configurations and boundary conditions.
The results reveal several interesting points about the electrodynamics and hydrodynamics responses of single vesicles and vesicle doublets. But first, it can be seen that isogeometric analysis as a numerical tool has the ability to model and solve 4th-order PDEs in a primal variational framework at extreme efficiency and accuracy due to the abilities embedded within the NURBS functions without the need to reduce the order of the PDE by creating an intermediate environment. Refinement whether by knot insertion, order increasing or both is far easier to obtain than traditional mesh-based methods. Given the wide variety of phenomena in natural sciences and engineering that are mathematically modeled by high-order PDEs, the isogeometric analysis is among the most robust methods to address such problems as the basis functions can easily attain high global continuity.
On the applicational side, we study the vesicle morphological evolution based on the electromechanical liquid-crystal model in 3D settings. This model describing the evolution of vesicles is composed of time-dependent, highly nonlinear, high-order PDEs, which are nontrivial to solve. Solving this problem requires robust numerical methods, such as isogeometric analysis. We concluded that the vesicle tends to deform under increasing magnitudes of electric fields from the original sphere shape to an oblate-like shape. This evolution is affected by many factors and requires fine-tuning of several parameters, mainly the regularization parameter which controls the thickness of the diffusive interface width. But it is most affected by the method used for enforcing the constraints. The penalty method in presence of an electrical field tends to lock on the initial phase-field and prevent any evolution while a modified version of the ALM has proven to be sufficiently stable and accurate to let the phase-field evolve while satisfying the constraints over time at each time step. We show additionally the effect of including the flexoelectric nature of the Biomembranes in the computation and how it affects the shape evolution as well as the effect of having different conductivity ratios. All the examples were solved based on a staggered scheme, which reduces the computational cost significantly.
For the second part of the research, we consider vesicle doublet suspended in a shear flow, in a planar extensional flow, and in a parabolic flow. When the vesicle doublet is suspended in a shear flow, it can either slip past each other or slide on top of each other based on the value of the vertical displacement, that is the vertical distance between the center of masses between the two vesicles, and the velocity profile applied. When the vesicle doublet is suspended in a planar extensional flow in a configuration that resembles a junction, the time in which both vesicles separate depends largely on the value of the vertical displacement after displacing as much fluid from between the two vesicles. However, when the vesicles are suspended in a tubular channel with a parabolic fluid flow, they develop a parachute-like shape upon converging towards each other before exiting the computational domain from the predetermined outlets. This shape however is affected largely by the height of the tubular channel in which the vesicle is suspended. The velocity essential boundary conditions are imposed weakly and strongly. The weak implementation of the boundary conditions was used when the velocity profile was defined on the entire boundary, while the strong implementation was used when the velocity profile was defined on a part of the boundary. The strong implementation of the essential boundary conditions was done by selectively applying it to the predetermined set of elements in a parallel-based code. This allowed us to simulate vesicle hydrodynamics in a computational domain with multiple inlets and outlets. We also investigate the hydrodynamics of oblate-like shape vesicles in a parabolic flow. This work has been done in 2D configuration because of the immense computational load resulting from a large number of degrees of freedom, but we are actively seeking to expand it to 3D settings and test a broader set of parameters and geometrical configurations.
This dissertation presents three studies on the design and implementation of interactive surface environments. It puts forward approaches to engineering interactive surface prototypes using prevailing methodologies and technologies. The scholarly findings from each study have been condensed into academic manuscripts, which are conferred herewith.
The first study identifies a communication gap between engineers of interactive surface systems (i.e., originators of concepts) and future developers. To bridge the gap, it explores a UML-based framework to establish a formal syntax for modeling hardware, middleware, and software of interactive surface prototypes. The proposed framework targets models-as-end-products, towards enabling a shared view of research prototypes thereby facilitating dialogue between concept originators and future developers.
The second study positions itself to support developers with an open-source solution for exploiting 3D point clouds for interactive tabletop applications using CPU architectures. Given dense 3D point-cloud representations of tabletop environments, the study aims toward mitigating high computational effort by segmenting candidate interaction regions as a preprocessing step. The study contributes a robust open-source solution for reducing computational costs when leveraging 3D point clouds for interactive tabletop applications. The solution itself is flexible and adaptable to variable interactive surface applications.
The third study contributes an archetypal concept for integrating mobile devices as active components in augmented tabletop surfaces. With emphasis on transparent development trails, the study demonstrates the utility of the open-source tool developed in the second study. In addition to leveraging 3D point clouds for real-time interaction, the research considers recent advances in computer vision and wireless communication to realize a modern, interactive tabletop application. A robust strategy that combines spatial augmented reality, point-cloud-based depth perception, CNN-based object detection, and Bluetooth communication is put forward. In addition to seamless communication between adhoc mobile devices and interactive tabletop systems, the archetypal concept demonstrates the benefits of preprocessing point clouds by segmenting candidate interaction regions, as suggested in the second study.
Collectively, the studies presented in this dissertation contribute; 1—bridging the gap between originators of interactive surface concepts and future developers, 2— promoting the exploration of 3D point clouds for interactive surface applications using CPU-based architectures, and 3—leveraging 3D point clouds together with emerging CNN-based object detection, and Bluetooth communication technologies to advance existing surface interaction concepts.
Für die einen also „Bausünde“, für die anderen ein erhaltenswertes Bauwerk – wie geht man damit um? Für wen gilt wann etwas als „Bausünde“ und wann als erhaltenswert, welche Ziele werden damit verfolgt und Konzepte aufgezeigt? Inwieweit spielen beispielsweise Aspekte wie Ästhetik, Funktionalität oder der allgemeine gesellschaftliche Kontext bzw. Wandel sowie das jeweils aktuelle und bauzeitliche planerische Leitbild bzw. Verständnis eine Rolle bei der Verwendung des Begriffs und den Umgang für konkrete Bauwerke? Und inwieweit steht der Erhaltungswert bzw. eine Denkmalwürdigkeit damit im Verhältnis und wie kann damit planerisch umgegangen werden?
Der Diskussion über den Umgang mit verschmähten Bauwerken will sich die vorliegende Abschlussarbeit nähern. Als Bauwerke werden hierbei sowohl Gebäude und Plätze als auch zur Erinnerung gesetzte Objekte wie Statuen verstanden.
This paper presents initial findings from the empirical analysis of community based social enterprise (SE) and non-profit organisation (NPO) ecosystems in Johannesburg. SEs and NPOs are widely recognised as contributors to the resilience of marginalised urban communities. However, the connection between these organisations , urban governance, and community resilience has not yet been sufficiently understood , particularly in African urban contexts. The 'Resilient Urban Communities' project focuses on Johannesburg as a case study to shed light on this under-researched topic. The key to exploring it is understanding SEs and NPOs as providers of public services, job creators, and promoters of good governance, all of which contribute to community resilience. Using this premise as a starting point, this paper investigates ecosystem conditions with a particular focus on state-civil society partnerships. Empirical data was generated through semi-struc-tured interviews and analysed with a grounded theory approach. Preliminary results of this ongoing research reveal that urban geography is a relevant ecosystem factor for SEs and NPOs from marginalised communities. We also suggest that co-production could be an opportunity for growth within the investigated state-civil society partnership.
Dieser Handlungsleitfaden möchte die Zusammenarbeit zwischen zivilgesellschaftlichen Akteuren und öffentlichen Verwaltungen erleichtern. Er enthält allerdings kein Patentrezept, mit dem eine solche Zusammenarbeit gebacken werden kann, sondern vor allem Anstöße, was es dabei alles zu bedenken gilt. Denn Ko-Produktionsprozesse, bei denen zivilgesellschaftliche Gruppen und Verwaltungen gemeinsam an der Umsetzung von Dienstleistungen und Infrastrukturen der Daseinsvorsorge arbeiten, sind komplexe und noch recht unerprobte Prozesse.