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This practice-based research examines platforms and encounters that have a participatory character as a strategy to create lived and shared experiences where new forms of appropriation of the city can emerge. The selected case studies propose and initiate certain urban experiences that induce changes in perception, the exchange of perspectives, and that denaturalize habits and patterns of behavior. I suggest that when these sensitive experiences become imprinted in body memory, they can empower citizens to have more active, creative, and/or critical attitudes towards their environments. Searching for new repertoires of everyday practices that contest commodification of both the body and the city, this thesis is oriented towards open-ended processes of constructing mentalities rather than those of planning changes on the material conditions of public space. It uses forms of academic investigation that merge intellectual debate and experimental practice, joining art, urbanism and social engaged practices in an extradisciplinary (Howes 2007) attitude towards the city. Based on the materials generated by the case studies (combining theoretical knowledge with artistic sensibility), the affective and corporeal involvement of researchers in the situations they analyze and co-create, is sustained in opposition to the traditional academic critical distance.
Das zentrale Problem der Arbeit ist die Untersuchung der Rolle von Orten und Räumen für die Evolution bestimmter visueller Medien im 19. Jahrhundert. Die historische Schwelle wird mit der Erfindung des Panoramas, der Geburt der Passage und der Reform der Bibliothek um 1800 markiert. Ausgehend von der Systemtheorie Luhmanns und dem französischen Poststrukturalismus (Baudry, Lyotard, Foucault) entwickelt die Arbeit dazu einen Begriff des Dispositivs, der zur Untersuchung des Verhältnisses von Objekt, Betrachter und Apparat verwendet wird. Im Mittelpunkt steht dabei das Wechselverhältnis von Wahrnehmung und Kommunikation. Mit Bezug auf Kants »Kritik der Urteilskraft« wird dabei ein neuer Vorschlag für den Code des Kunstsystems – gestaltet/nicht gestaltet – entwickelt. Die zentralen Begriffe für die Definition des Dispositivs sind Abschirmung, Distanzierung und Inszenierung. Damit wird der Versuch unternommen, die Frage des Raumes in der Systemtheorie zu klären. Die historische Analyse beschreibt die Entwicklung vom Theater zum Kino im 19. und frühen 20. Jahrhundert und fokussiert dabei vor allem auf das Festspielhaus Wagners in Bayreuth. Abschließend wird der Beitrag der Warenhäuser und des Schaufensters zur Evolution des Wirtschaftsystems untersucht.
Numerical models and their combination with advanced solution strategies are standard tools for many engineering disciplines to design or redesign structures and to optimize designs with the purpose to improve specific requirements. As the successful application of numerical models depends on their suitability to represent the behavior related to the intended use, they should be validated by experimentally obtained results. If the discrepancy between numerically derived and experimentally obtained results is not acceptable, a model revision or a revision of the experiment need to be considered. Model revision is divided into two classes, the model updating and the basic revision of the numerical model. The presented thesis is related to a special branch of model updating, the vibration-based model updating. Vibration-based model updating is a tool to improve the correlation of the numerical model by adjusting uncertain model input parameters by means of results extracted from vibration tests. Evidently, uncertainties related to the experiment, the numerical model, or the applied numerical solving strategies can influence the correctness of the identified model input parameters. The reduction of uncertainties for two critical problems and the quantification of uncertainties related to the investigation of several nominally identical structures are the main emphases of this thesis. First, the reduction of uncertainties by optimizing reference sensor positions is considered. The presented approach relies on predicted power spectral amplitudes and an initial finite element model as a basis to define the assessment criterion for predefined sensor positions. In combination with geometry-based design variables, which represent the sensor positions, genetic and particle swarm optimization algorithms are applied. The applicability of the proposed approach is demonstrated on a numerical benchmark study of a simply supported beam and a case study of a real test specimen. Furthermore, the theory of determining the predicted power spectral amplitudes is validated with results from vibration tests. Second, the possibility to reduce uncertainties related to an inappropriate assignment for numerically derived and experimentally obtained modes is investigated. In the context of vibration-based model updating, the correct pairing is essential. The most common criterion for indicating corresponding mode shapes is the modal assurance criterion. Unfortunately, this criterion fails in certain cases and is not reliable for automatic approaches. Hence, an alternative criterion, the energy-based modal assurance criterion, is proposed. This criterion combines the mathematical characteristic of orthogonality with the physical properties of the structure by modal strain energies. A numerical example and a case study with experimental data are presented to show the advantages of the proposed energy-based modal assurance criterion in comparison to the traditional modal assurance criterion. Third, the application of optimization strategies combined with information theory based objective functions is analyzed for the purpose of stochastic model updating. This approach serves as an alternative to the common sensitivity-based stochastic model updating strategies. Their success depends strongly on the defined initial model input parameters. In contrast, approaches based on optimization strategies can be more flexible. It can be demonstrated, that the investigated nature inspired optimization strategies in combination with Bhattacharyya distance and Kullback-Leibler divergence are appropriate. The obtained accuracies and the respective computational effort are comparable with sensitivity-based stochastic model updating strategies. The application of model updating procedures to improve the quality and suitability of a numerical model is always related to additional costs. The presented innovative approaches will contribute to reduce and quantify uncertainties within a vibration-based model updating process. Therefore, the increased benefit can compensate the additional effort, which is necessary to apply model updating procedures.
The advent of high-performance mobile phones has opened up the opportunity to develop new context-aware applications for everyday life. In particular, applications for context-aware information retrieval in conjunction with image-based object recognition have become a focal area of recent research. In this thesis we introduce an adaptive mobile museum guidance system that allows visitors in a museum to identify exhibits by taking a picture with their mobile phone. Besides approaches to object recognition, we present different adaptation techniques that improve classification performance. After providing a comprehensive background of context-aware mobile information systems in general, we present an on-device object recognition algorithm and show how its classification performance can be improved by capturing multiple images of a single exhibit. To accomplish this, we combine the classification results of the individual pictures and consider the perspective relations among the retrieved database images. In order to identify multiple exhibits in pictures we present an approach that uses the spatial relationships among the objects in images. They make it possible to infer and validate the locations of undetected objects relative to the detected ones and additionally improve classification performance. To cope with environmental influences, we introduce an adaptation technique that establishes ad-hoc wireless networks among the visitors’ mobile devices to exchange classification data. This ensures constant classification rates under varying illumination levels and changing object placement. Finally, in addition to localization using RF-technology, we present an adaptation technique that uses user-generated spatio-temporal pathway data for person movement prediction. Based on the history of previously visited exhibits, the algorithm determines possible future locations and incorporates these predictions into the object classification process. This increases classification performance and offers benefits comparable to traditional localization approaches but without the need for additional hardware. Through multiple field studies and laboratory experiments we demonstrate the benefits of each approach and show how they influence the overall classification rate.
Datenmodelle zur Bearbeitung von Ingenieuraufgaben am Beispiel von Wohnhäusern in Stahlbauweise
(2006)
Modelle bilden die Grundlage der Planung. Sie repräsentieren die zur Bearbeitung erforderlichen Eigenschaften eines Bauwerks in einer an die spezifische Aufgabe angepassten Form. Zwischen den verschiedenen zur Abbildung des Bauwerks eingesetzten Modellen bestehen fachliche Zusammenhänge bezüglich der darin abgebildeten Aspekte. Diese Abhängigkeiten werden in der praktischen Planungsbearbeitung gegenwärtig auf Grundlage von Erfahrungswerten, normativen Vorgaben und vereinfachenden Annahmen berücksichtigt. Die detailliertere Modellierung von Bauwerkseigenschaften führt zu einer engeren Verzahnung der verschiedenen Modelle. Um eine fachliche Inselbildung zu vermeiden, ist eine entsprechend angepasste Abbildung der zwischen den einzelnen Modellen bestehenden Beziehungen erforderlich. Mit den steigenden Ansprüchen an eine Bearbeitung von Ingenieuraufgaben gewinnt eine über den Zweck der Bereitstellung ausgewählter Informationen zum Bauwerk und der Unterstützung eines Datenaustauschs zwischen verschiedenen Fachplanern hinausgehende datentechnische Abbildung an Bedeutung. Dies setzt eine Diskussion der Anforderungen an eine solche Beschreibung aus fachlicher Sicht voraus. Die Untersuchung der fachlichen Anforderungen wird am Beispiel von Wohnhäusern in Stahlbauweise geführt.
One major research focus in the Material Science and Engineering Community in the past decade has been to obtain a more fundamental understanding on the phenomenon 'material failure'. Such an understanding is critical for engineers and scientists developing new materials with higher strength and toughness, developing robust designs against failure, or for those concerned with an accurate estimate of a component's design life. Defects like cracks and dislocations evolve at
nano scales and influence the macroscopic properties such as strength, toughness and ductility of a material. In engineering applications, the global response of the system is often governed by the behaviour at the smaller length scales. Hence, the sub-scale behaviour must be computed accurately for good predictions of the full scale behaviour.
Molecular Dynamics (MD) simulations promise to reveal the fundamental mechanics of material failure by modeling the atom to atom interactions. Since the atomistic dimensions are of the order of Angstroms ( A), approximately 85 billion atoms are required to model a 1 micro- m^3 volume of Copper. Therefore, pure atomistic models are prohibitively expensive with everyday engineering computations involving macroscopic cracks and shear bands, which are much larger than the atomistic length and time scales. To reduce the computational effort, multiscale methods are required, which are able to couple a continuum description of the structure with an atomistic description. In such paradigms, cracks and dislocations are explicitly modeled at the atomistic scale, whilst a self-consistent continuum model elsewhere.
Many multiscale methods for fracture are developed for "fictitious" materials based on "simple" potentials such as the Lennard-Jones potential. Moreover, multiscale methods for evolving cracks are rare. Efficient methods to coarse grain the fine scale defects are missing. However, the existing multiscale methods for fracture do not adaptively adjust the fine scale domain as the crack propagates. Most methods, therefore only "enlarge" the fine scale domain and therefore drastically increase computational cost. Adaptive adjustment requires the fine scale domain to be refined and coarsened. One of the major difficulties in multiscale methods for fracture is to up-scale fracture related material information from the fine scale to the coarse scale, in particular for complex crack problems. Most of the existing approaches therefore were applied to examples with comparatively few macroscopic cracks.
Key contributions
The bridging scale method is enhanced using the phantom node method so that cracks can be modeled at the coarse scale. To ensure self-consistency in the bulk, a virtual atom cluster is devised providing the response of the intact material at the coarse scale. A molecular statics model is employed in the fine scale where crack propagation is modeled by naturally breaking the bonds. The fine scale and coarse scale models are coupled by enforcing the displacement boundary conditions on the ghost atoms. An energy criterion is used to detect the crack tip location. Adaptive refinement and coarsening schemes are developed and implemented during the crack propagation. The results were observed to be in excellent agreement with the pure atomistic simulations. The developed multiscale method is one of the first adaptive multiscale method for fracture.
A robust and simple three dimensional coarse graining technique to convert a given atomistic region into an equivalent coarse region, in the context of multiscale fracture has been developed. The developed method is the first of its kind. The developed coarse graining technique can be applied to identify and upscale the defects like: cracks, dislocations and shear bands. The current method has been applied to estimate the equivalent coarse scale models of several complex fracture patterns arrived from the pure atomistic simulations. The upscaled fracture pattern agree well with the actual fracture pattern. The error in the potential energy of the pure atomistic and the coarse grained model was observed to be acceptable.
A first novel meshless adaptive multiscale method for fracture has been developed. The phantom node method is replaced by a meshless differential reproducing kernel particle method. The differential reproducing kernel particle method is comparatively more expensive but allows for a more "natural" coupling between the two scales due to the meshless interpolation functions. The higher order continuity is also beneficial. The centro symmetry parameter is used to detect the crack tip location. The developed multiscale method is employed to study the complex crack propagation. Results based on the meshless adaptive multiscale method were observed to be in excellent agreement with the pure atomistic simulations.
The developed multiscale methods are applied to study the fracture in practical materials like Graphene and Graphene on Silicon surface. The bond stretching and the bond reorientation were observed to be the net mechanisms of the crack growth in Graphene. The influence of time step on the crack propagation was studied using two different time steps. Pure atomistic simulations of fracture in Graphene on Silicon surface are presented. Details of the three dimensional multiscale method to study the fracture in Graphene on Silicon surface are discussed.
Die zu beobachtenden kürzeren Produktlebenszyklen und eine schnellere Marktdurchdringung von Produkttechnologien erfordern adaptive und leistungsfähige Produktionsanlagen. Die Adaptivität ermöglicht eine Anpassung der Produktionsanlage an neue Produkte, und die Leistungsfähigkeit der Anlage stellt sicher, dass ausreichend Produkte in kurzer Zeit und zu geringen Kosten hergestellt werden können. Durch eine Modularisierung der Produktionsanlage kann die Adaptivität erreicht werden. Jedoch erfordert heutzutage jede Adaption manuellen Aufwand, z.B. zur Anpassung von proprietären Signalen oder zur Anpassung übergeordneter Funktionen. Dadurch sinkt die Leistungsfähigkeit der Anlage.
Das Ziel dieser Arbeit ist es, die Interoperabilität in Bezug auf die Informationsverwendung in modularen Produktionsanlagen zu gewährleisten. Dazu werden Informationen durch semantische Modelle beschrieben. Damit wird ein einheitlicher Informationszugriff ermöglicht, und übergeordnete Funktionen erhalten Zugriff auf alle Informationen der Produktionsmodule, unabhängig von dem Typ, dem Hersteller und dem Alter des Moduls. Dadurch entfällt der manuelle Aufwand bei Anpassungen des modularen Produktionssystems, wodurch die Leistungsfähigkeit der Anlage gesteigert und Stillstandszeiten reduziert werden.
Nach dem Ermitteln der Anforderungen an einen Modellierungsformalismus wurden potentielle Formalismen mit den Anforderungen abgeglichen. OWL DL stellte sich als geeigneter Formalismus heraus und wurde für die Erstellung des semantischen Modells in dieser Arbeit verwendet. Es wurde exemplarisch ein semantisches Modell für die drei Anwendungsfälle Interaktion, Orchestrierung und Diagnose erstellt. Durch einen Vergleich der Modellierungselemente von unterschiedlichen Anwendungsfällen wurde die Allgemeingültigkeit des Modells bewertet. Dabei wurde gezeigt, dass die Erreichung eines allgemeinen Modells für technische Anwendungsfälle möglich ist und lediglich einige Hundert Begriffe benötigt.
Zur Evaluierung der erstellten Modelle wurde ein wandlungsfähiges Produktionssystem der SmartFactoryOWL verwendet, an dem die Anwendungsfälle umgesetzt wurden. Dazu wurde eine Laufzeitumgebung erstellt, die die semantischen Modelle der einzelnen Module zu einem Gesamtmodell vereint, Daten aus der Anlage in das Modell überträgt und eine Schnittstelle für die Services bereitstellt. Die Services realisieren übergeordnete Funktionen und verwenden die Informationen des semantischen Modells. In allen drei Anwendungsfällen wurden die semantischen Modelle korrekt zusammengefügt und mit den darin enthaltenen Informationen konnte die Aufgabe des jeweiligen Anwendungsfalles ohne zusätzlichen manuellen Aufwand gelöst werden.
Die Arbeit „Das Bild der Zwischenstadt“ sucht nach Möglichkeiten zur Qualifizierung der verstädterten Landschaft, für die Thomas Sieverts den Begriff „Zwischenstadt“ geprägt hat. Die Auseinandersetzung mit „räumlicher Identität“ steht dabei im Mittelpunkt: In deren Dekodierung und Inszenierung wird ein Potenzial erkannt, die Aufenthalts- und Erlebnisqualität der Zwischenstadt zu verbessern. Der Betrachtungsraum der Arbeit zwischen Frankfurt am Main und seinen prosperierenden Umlandgemeinden eignet sich in besonderer Weise, die „Anatomie der Zwischenstadt“ zu dekodieren. Schicht für Schicht wird der Versuch unternommen, die eigene Sprache dieses Raumes zu entziffern. Dabei werden Methoden der Beschreibung und Darstellung entwickelt, die den spezifischen räumlichen Eigenschaft der Zwischenstadt gerecht zu werden suchen. Die Ergebnisse dieser Auseinandersetzung lassen deutliche Transformationen in der Zwischenstadt erkennen und entheben sie aus ihrer vermeintlichen Eigenschaftslosigkeit. Orte mit Bedeutung, Zusammenhänge und Raumgeschichten werden lesbar, es zeigen sich Ansätze eigener Urbanität und Zentralität. Die Zwischenstadt hat sich von ihrer einseitigen Dependenz zur Kernstadt gelöst, tritt aber gleichzeitig in einen umfassenden Wandel, um sich geänderten Lebensformen und Bedürfnissen anzupassen. Ältere, den Raum prägende Einfamilienhausgebiete und Großsiedlungen, aber auch monofunktionale Gewerbegebiete und die typischen suburbanen Einkaufszentren erfüllen keineswegs mehr automatisch die Wohnwünsche und Anforderungen einer Dienstleistungs- und Freizeitgesellschaft. Die Arbeit greift die unverkennbare Transformation des Bildes der Zwischenstadt als Chance zur Qualifizierung dieses Raumes auf. Entwickelt werden Qualifizierungsmodelle, die der Tendenz zu Segregation und Abtrennung mit einer neuen Integrationskultur für die Zwischenstadt begegnen: Als prägender Lebensraum der Stadtregion muss die Zwischenstadt einen großen Teil der Bedürfnisse Ihrer Bewohner und Benutzer an den Raum befriedigen. Zunehmend sind diese Bedürfnisse nicht nur funktioneller Art, sondern werden überlagert von einem Bedürfnis nach Raumqualität, Verortung und Identifikationsmöglichkeiten. Für diese Bedürfnisse angemessene und auratische Raumbilder zu finden oder zu inszenieren, ist im Angesicht des Status Quo der Stadtlandschaft eine wichtige Herausforderung.
The thesis concerns a work of urban history intended not to describe the city but rather to interpret it. By doing so, I have interpreted the city by means of the role played by the so-called ‘great property’ in the European city-making process during the last three decades of the 20th century, specifically focused on the concrete case of military properties in Italy. I have also considered the role played by other kinds of great properties, i.e. industries and railway, which previously acted in the production of the built environment in a different way respect to the military one. As all of them have as common denominator the fact of being ‘capital in land’, I analysed great industrial and railway properties in order to extrapolate a methodology which helped me to interpret the relationship between military properties and city-making process in Europe in the late 20th century.
I have analysed the relationship between the capital in land and the city-making process on the ground of the understanding the interrelation between the great property, the urban development, and the agents involved in the urban and territorial planning. Here I have showed that urban planning is not the decisive factor influencing the citymaking process, but instead the power held by the capital in land. I have found that is the great property the trigger of the creation of new ‘areas of centrality’ intended as large areas for consumerism. As far as the role played by great property is concerned, I have also discovered that it has evolved over time. Originally, industrial and railway properties have been regenerated into a wide range of new profit-driven spaces; successively, I have found out that most of the regeneration of military premises aimed to materialise areas of centrality. The way of interpreting this factor has been based on focusing my attention on the military premises in Italy: I have classified their typology when they have been built and, most importantly, when they have been regenerated into new areas of centrality.
This is a work concerned with the increasing processes of social exclusion in cities nowadays. In approaching this phenomenon, the research highlights how people interact with their institutional environments. This is also, perhaps centrally, an investigation into the possibility to engage an individual perspective to understand the transformation in urban experience, which is orienting society to new uses and forms of exclusion. Following the perspective deployed by the so-called “sociology of individuals” in French sociology or “reengagement of agency” in the Anglo-Saxon world; I claim that individuals as well as collectives are gaining increasing power to question and re-organize institutions. This re-organization, in the case of socio-urban institutions, is no guarantee for major levels in integration, cohesion, and equality. Unfortunately, social institutions are becoming hard in its exclusionary capabilities under people intervention during the last four decades.
I believe that urban sociology is a field of struggle between different perspectives competing to “make sense” of social phenomena in cities. The orientation supported in this research is just one on many and it follows the roots of people and their life experiences within cities and how they influence the processes that shape the city. The last formulation is possibly not the clearest, because as we all know, references to “inhabitants” are presented in every variant of urban sociology. Nevertheless, there are not many variants focusing on peoples’ capability to influence institutional environments and by this way affecting the urban condition in which they find themselves. The particular institution selected for this study is the “School”.
This thesis is organized around two parts: part one includes the conceptual framework, methodological approach, and historical contextualization; part two describes three case studies produced to analyse the forms of and the relations between individuals and school institution. Part one starts from a premise: within the context of declining welfare State in the case of industrialized countries, an important part of urban studies focuses on economic and spatial restructuration. Confronted with the same situation, a part of social sciences shifts to the individuals’ agency and social uncertainty. This research is embedded in the last theoretical description presented above, thus, because it tries to observe urban processes from the perspective of the individual and outside of developed economies. In this sense, Latin America represents a fundamental reference because urban conditions are historically marked by weak institutional arrangements to integrating people and large levels of marginality and exclusion among population. In this scenario individuals’ practices around inclusion-exclusion have an essential meaning in everyday life.
Part two offers three study cases in which the relation between individuals and school institutions has been analyzed for the Metropolitan area of Santiago de Chile (MAS). Using different methodological resources an exhaustive account on three levels is presented: i) geo-referencing State intervention in public policies connected with neighborhood and schools to understand the form and extent of socio-urban exclusion in MAS, ii) narrative biographies applied to parents with children attending primary school, in order to reconstruct the familiar process of school selection and describing its impacts on the stabilization of school as an exclusionary device, and iii) autoethnography to describe in detail the temporal dimension involved in stabilizing actions which reinforces social mechanisms of urban integration-exclusion during the last three decades in Chile.
A key argument advanced by this research proposes that: the way in which the idea of integration is enacted by people in their biographical careers imprints changes on the institutional orientation and by this way, contributes to the reorganization urban life. The high level of social exclusion in Santiago de Chile is not accountable without considering transformation in all socio-urban institutions, especially the school. No family considers social integration with people from a low social, economical or cultural background as relevant orientation for school selection. This particularity of the Chilean social reality is not derivable from any big capitalistic or modernization processes impacting our cities.
Within the light of the thesis findings, I conclude that socio-urban institutions logics must be reassessment under the influences of people actions and representations. I also propose a consideration to major complementarities between urban studies and urban-institutions analysis. The school institutions is not just a sectorial field reserved to the researcher in education, on the contrary, it represent a key entrance to address people’s experience in their institutional urban environments. The re-emergence of social and urban movements in 2010, under the “Arab Spring” or the “Chilean Student Movements”, is not only a demonstration in the public space as result of major global trends. These situations are in essence, for this research, individuals gathering together and calling for recognition and autonomy inside institutional environment that tends to reject them. Similar situation was the focus of the Latin American urban sociology research, within the focus on grassroots and urban social movements at the end of the 1960s and beginning of the 1970s.
In both cases, socio-urban institutions, unaware of recognition requirements claimed by inhabitants, are not beyond individual or collective reach. My main concern is to show that socio-urban institutions are constantly re-shaped as a result of individual action, what makes the difference, is the spirit that we all, socially, imprint on the logics of our socio-urban institutions, moving them to inclusion or exclusion.