Refine
Document Type
- Conference Proceeding (296)
- Article (238)
- Doctoral Thesis (70)
- Report (14)
- Part of a Book (9)
- Master's Thesis (9)
- Book (7)
- Preprint (4)
- Periodical (2)
- Review (2)
Institute
- Professur Informatik im Bauwesen (190)
- In Zusammenarbeit mit der Bauhaus-Universität Weimar (116)
- Professur Theorie und Geschichte der modernen Architektur (83)
- Institut für Strukturmechanik (ISM) (50)
- Graduiertenkolleg 1462 (20)
- Professur Bauphysik (14)
- Professur Angewandte Mathematik (9)
- Institut für Europäische Urbanistik (8)
- Professur Computergestütztes kooperatives Arbeiten (8)
- Professur Betriebswirtschaftslehre im Bauwesen (7)
Keywords
- Computerunterstütztes Verfahren (150)
- Architektur <Informatik> (99)
- Angewandte Informatik (91)
- Angewandte Mathematik (86)
- CAD (71)
- Bauhaus-Kolloquium (66)
- Weimar (66)
- Architektur (58)
- Computer Science Models in Engineering; Multiscale and Multiphysical Models; Scientific Computing (41)
- 2003 (30)
50 Jahre Dissertationen an der Hochschule für Architektur und Bauwesen und der Bauhaus-Universität
(2005)
Diese Veröffentlichung dokumentiert über einen Zeitraum von 50 Jahren die an unserer Hochschule entstandenen Dissertationen, deren Zahl sich auf 1100 beläuft. Damit werden ein wichtiger Teil der Hochschulgeschichte Weimars und zugleich ein Teil der Hochschulgeschichte der DDR aufgearbeitet. Die Bibliographie liefert Bausteine für eine Geschichte der Disziplinen und Fakultäten an der Weimarer Hochschule und darüber hinaus für eine Sozialgeschichte der Wissenschaftler in Thüringen. So hat z. B. eine Vielzahl der heute in leitender Stellung an der Universität Tätigen – sowohl Professoren als auch Mitarbeiter der Universitätsverwaltung – in Weimar promoviert. Das lässt sich auch ausdehnen auf Personen in führenden wissenschaftlichen, politischen oder wirtschaftlichen Positionen in der Region oder im Ort. Hier könnte die vorliegende Bibliographie Anstoß für weitere Forschungen geben.
Urban design played a central role for the European dictatorships during the 20th century, it served to legitimate the regime, to produce agreement, to demonstrate power, efficiency and speed, it communicated the social, as well as design projects, of the dictatorial regimes domestically and internationally, it tied old experts, as well as new, to the regime. Dictatorial urban design also played an important role after the fall of the dictatorships: It became the object of structural and verbal handling strategies: of demolition, of transformation, of reconstruction, of forgetting, of suppressing, of re-interpretation and of glorification. The topic area is, therefore, both historical and relevant to the present day. The discussion of the topic area is, like it or not, always embedded in the present state of societal engagement with dictatorships.
In order to even be able to discuss all of these aspects, different conceptual decisions are necessary. In retrospect, these may seem to many as self-evident, although they are anything but. Our thesis is that there are three methodological imperatives, especially, which allow an expanded approach to the topic area “urban design and dictatorship”. First and above all, the tunnel view, focused on individual dictatorships and neglecting the international dimension, must be overcome. Second, the differences in urban design over the course of a dictatorship, through an appropriate periodisation, should be emphasised. Third, we must strive for an open, flexible, but complex concept of urban design. The main focus lies on the urban design of the most influential dictatorships of the first half of the 20th century: Soviet Union, Fascist Italy and Nazi Germany, including the urban design of the autarky periods in Portugal and Spain.
After all, urban design is not just a product of specific historic circumstances. It is a form that continues to have long-term effects, which demonstrates its usefulness and adaptability throughout this process. The urban design products undoubtedly still recall the dictatorial rule under which they were created. However, they are more than a memory space. They are also a living space of the present. They can and should be discussed with respect to their spatial and functional utility for today and tomorrow. Such a perspective is a given for the citizens of a city, but also for city marketing, having marvellous consequences. Only when we do not exclude this dimension a priori, even in academic discussions, can we do justice to the products of dictatorships.
And finally, the view of the urban design of dictatorships can and must contribute to the questioning of simplified and naive conceptions of dictatorships. With urban design in mind, we can observe how dictatorships work and how they were able to prevail. In Europe, these questions are of the highest actuality.
Geld ist ein Thema, das keinen von uns gleichgültig lässt, hat es doch Auswirkungen auf unser alltägliches praktisches Leben wie auch auf das gesamtgesellschaftliche. Von verschiedenen Aspekten ausgehend wird in dieser Veröffentlichung der Vorlesungen der Erfurter Universität in Zusammenarbeit mit der Fachhochschule Erfurt der ganze Facettenreichtum des Geldes beleuchtet. So kommen Ökonomen genauso zu Wort wie Ökologen, Historiker geben einen Einblick in die Geschichte der Geldwirtschaft und Soziologen zeigen die Aus- bzw. Einwirkungen des Geldes auf Lebensstile. Welche Rolle spielt Geld im Mathematikunterricht und was hat es mit dem Bürgergeld auf sich? Einen Einblick in die Geschichte und die politischen Zusammenhänge der europäischen Währungsunion gewährt uns Hans Tietmeyer am Schluss des Bandes, der dem Leser interessante und überraschende Einsichten in ein nicht nur pekuniäres Gebiet vermittelt.
Szenarien der Moderne
(2016)
Wenige Begriffe vermögen so viel Faszination und Unbehagen gleichzeitig auszulösen wie die Moderne. Der Begriff birgt so viele Unschärfen, dass man eigentlich gut daran tun würde, ihn zu vermeiden. Allein die Frage, was modern sei, oder wann die Moderne begann, lässt sich nicht eindeutig beantworten. Vielleicht am meisten Kontur besitzt die Moderne als Epochenbegriff der Geschichtswissenschaften, wobei auch dort zwischen ökonomischen, politischen und weiteren Modernen unterschieden wird. Geradezu inflationär ist die Verwendung in der Kunsthistoriografie: Über weite Strecken des 20. Jahrhunderts wurde die Moderne als hauptsächlich ästhetisches Phänomen verstanden und tradiert, bis zur Konstruktion des längst relativierten Mythos der Begründung der Moderne allein durch das Neue Bauen oder gar das Bauhaus.
Spätestens die Postmoderne hat den Begriff endgültig diversifiziert und dazu beigetragen, dass lange „als antimoderne Rückfälle" (G. Weckerlin) beschriebene Strömungen in einer erweiterten Sichtweise als Phänomene modernen Kunstschaffens wahrgenommen werden, wie etwa die Heimatschutzarchitektur oder die Monumentalbaukunst im Nationalsozialismus. Angesichts des entstandenen Spektrums ist heute von einem pluralistischen Begriff der Moderne auszugehen. Für die zweite Jahrhunderthälfte spricht man von Nachkriegsmoderne, Spätmoderne und Postmoderne. Stilistisch decken diese Varianten ein breites Feld ab – vom Funktionalismus über Strukturalismus, Brutalismus bis zum postmodernen „anything goes“. Dass diese Strömungen in ihrer Begriffsdefinition sowie in der Abgrenzung zueinander teils große Ungenauigkeiten aufweisen, verdeutlicht der Begriff der Nachkriegsmoderne, der sich auf das Ende des Zweiten Weltkrieges bezieht und dabei andere Konflikte außer Acht lässt. In manchen osteuropäischen Ländern spricht man daher eher von Ostmoderne oder Sozmoderne.
Unabhängig von der Wirkungsweise der Begriffe ragt die Moderne in verschiedensten Szenarien in unser alltägliches Leben hinein. Dieses Heft zeigt die Vielfalt solcher Situationen an verschiedenen Orten: bei der Betrachtung von Fassaden im Straßenraum, im Museum für Gegenwartskunst, an der Bushaltestelle oder beim Stadtlauf. Die Moderne ist so allgegenwärtig, dass ihre Werte, aber auch ihre Verletzlichkeit gerade deshalb oft nicht erkannt und erfasst werden. Mit dem Problem einer voreingenommenen Wahrnehmung und fehlenden Auseinandersetzung kämpfen zurzeit viele Denkmalämter und bürgerschaftliche Initiativen, die sich zunehmend mit den Baubeständen der Moderne beschäftigen. Das vorliegende Heft bildet eine Spurensuche nach verschiedenen Szenarien
der Moderne ab, die ganz bewusst abseits der breiten Pfade verläuft. Dabei versucht das Heft, die schillernden Facetten und die trotz allem große Bindekraft des Moderne-Begriffes aus verschiedenen Perspektiven zu beleuchten und zu ergründen.
Focus Mediocene
(2018)
This issue, following an international conference held at the IKKM in September 2017, is devoted to what may very well be the broadest media-related topic possible, even if it is accessible only through exemplary and experimental approaches: Under the title of the »Mediocene«, it presents contributions which discuss the operations and functions that intertwine media and Planet Earth. The specific relation of media and Planet Earth likely found its most striking and iconic formula in the images of the earth from outer space in 1968/69, showing the earth—according to contemporaneous descriptions—in its brilliance and splendor as the »Blue Marble«, but also in its fragility and desperate loneliness against the black backdrop of the cosmic void. Not only the creation but also the incredible distribution of this image across the globe was already at the time clearly recognized as a media eff ect. In light of space fl ight and television technology, which had expanded the reach of observation, communication, and measurement beyond both the surface of the Earth and its atmosphere, it also became clearly evident that the Planet had been a product of the early telescope by the use of which Galileo found the visual proof for the Copernican world model. Nevertheless, the »Blue Marble« image of the planet conceives of Earth not only as a celestial body, but also as a global, ecological, and economic system. Satellite and spacecraft technology and imaging continue to move beyond Earth’s orbit even as they enable precise, small-scale procedures of navigation and observation on the surface of the planet itself. These instruments of satellite navigation aff ect practices like agriculture, urban planning, and political decision-making. Most recently, three-dimensional images featuring the planet’s surface (generated from space by Synthetic Aperture Radar) or pictures from space probes have been cir-culating on the Web, altering politico-geographical practices and popular and scientifi c knowledge of the cosmos. Today, media not only participate in the shaping of the planet, but also take place on a planetary scale. Communication systems have been installed that operate all over the globe.
Integrated structural engineering system usually consists of large number of design objects that may be distributed across different platforms. These design objects need to communicate data and information among each other. For efficient communication among design objects a common communication protocol need to be defined. This paper presents the elements of a communication protocol that uses a mediator agent to facilitate communication among design objects. This protocol is termed the Mediative Communication Protocol (MCP). The protocol uses certain design communication performatives and the semantics of an Agent Communication language (ACL) mainly the Knowledge and Query Manipulation Language (KQML) to implement its steps. Details of a Mediator Agent, that will facilitate the communication among design objects, is presented. The Unified Modeling Language (UML) is used to present the Meditative protocol and show how the mediator agent can be use to execute the steps of the meditative communication protocol. An example from structural engineering application is presented to demonstrate and validate the protocol. It is concluded that the meditative protocol is a viable protocol to facilitate object-to-object communication and also has potential to facilitate communication among the different project participants at the higher level of integrated structural engineering systems.
The intention of this thesis is first, to determine material constants of ductile cast irons (EN-GJS-400-15,EN-GJS-500-7, EN-GJS-600-3) for estimating fatigue damage. These constants are obtained from experimental results. These results are stress versus strain tests, strain versus crack initiation life tests,and consequently, Smith, Watson and Topper damage parameter, PSWT can be calculated. Using data fitting, the constants can be estimated, thus Uniform Material Law for ductile cast irons is fulfilled. Endurance limit stress is obtained based on research report termed Synthetic Wöhler Lines(SWL).It is found out that the endurance limit stress is a function of yield limit stress. Endurance life cycle is set as three millions for the three materials. Secondly, fatigue life assessment is done for diesel engine pump part made of the three ductile cast irons. Finite element calculation is done to get elastic stress concentration factor, Kt, and plastic notch factor Kp. Neuber ´s rule is used to determine local stress at notch subjected to constant amplitude load test and variable amplitude loading. The constant amplitude loading is conducted at a stress ratio of R=0 on the pump part. The test results show that fatigue life assessment based on the material constants is accurate. On the basis of the accuracy of constant amplitude test results, it is possible to determine for fatigue life for variable amplitude loading which is the real loading on the pump part. The variable amplitude loading is normally standardized for computational efficiency. This standardized loading is termed as CORAL (COmmon RAil Loading) sequence. CORAL is used to calculate fatigue life of pump part and is inputted to a Fatigue Life Evaluation computer program. This program uses rain flow cycle counting method. It can be concluded that the material constants for ductile cast irons fit well which is proved by experimental tests by constant amplitude loading on pump part. Then life prediction can be done for the typical pump loading, standardized variable amplitude loading known as CORAL
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.
In the superelliptic shell joined to a circular cylinder bending stresses are absent when it is subjected to uniform pressure.Some geometrical characteristics have been found. Expressions for determining stresses in the shell crest(in the singular point of plane type) are suggested. The problem of a theoretical critical buckling load of an elongated shell supported by frames is studied. A critical buckling load for two shells with different specifications was found experimentally.
This study permits a reliability analysis to solve the mechanical behaviour issues existing in the current structural design of fabric structures. Purely predictive material models are highly desirable to facilitate an optimized design scheme and to significantly reduce time and cost at the design stage, such as experimental characterization.
The present study examined the role of three major tasks; a) single-objective optimization, b) sensitivity analyses and c) multi-objective optimization on proposed weave structures for woven fabric composites. For single-objective optimization task, the first goal is to optimize the elastic properties of proposed complex weave structure under unit cells basis based on periodic boundary conditions.
We predict the geometric characteristics towards skewness of woven fabric composites via Evolutionary Algorithm (EA) and a parametric study. We also demonstrate the effect of complex weave structures on the fray tendency in woven fabric composites via tightness evaluation. We utilize a procedure which does not require a numerical averaging process for evaluating the elastic properties of woven fabric composites. The fray tendency and skewness of woven fabrics depends upon the behaviour of the floats which is related to the factor of weave. Results of this study may suggest a broader view for further research into the effects of complex weave structures or may provide an alternative to the fray and skewness problems of current weave structure in woven fabric composites.
A comprehensive study is developed on the complex weave structure model which adopts the dry woven fabric of the most potential pattern in singleobjective optimization incorporating the uncertainties parameters of woven fabric composites. The comprehensive study covers the regression-based and variance-based sensitivity analyses. The second task goal is to introduce the fabric uncertainties parameters and elaborate how they can be incorporated into finite element models on macroscopic material parameters such as elastic modulus and shear modulus of dry woven fabric subjected to uni-axial and biaxial deformations. Significant correlations in the study, would indicate the need for a thorough investigation of woven fabric composites under uncertainties parameters. The study describes here could serve as an alternative to identify effective material properties without prolonged time consumption and expensive experimental tests.
The last part focuses on a hierarchical stochastic multi-scale optimization approach (fine-scale and coarse-scale optimizations) under geometrical uncertainties parameters for hybrid composites considering complex weave structure. The fine-scale optimization is to determine the best lamina pattern that maximizes its macroscopic elastic properties, conducted by EA under the following uncertain mesoscopic parameters: yarn spacing, yarn height, yarn width and misalignment of yarn angle. The coarse-scale optimization has been carried out to optimize the stacking sequences of symmetric hybrid laminated composite plate with uncertain mesoscopic parameters by employing the Ant Colony Algorithm (ACO). The objective functions of the coarse-scale optimization are to minimize the cost (C) and weight (W) of the hybrid laminated composite plate considering the fundamental frequency and the buckling load factor as the design constraints.
Based on the uncertainty criteria of the design parameters, the appropriate variation required for the structural design standards can be evaluated using the reliability tool, and then an optimized design decision in consideration of cost can be subsequently determined.