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Numerical simulations in the general field of civil engineering are common for the design process of structures and/or the assessment of existing buildings. The behaviour of these structures is analytically unknown and is approximated with numerical simulation methods like the Finite Element Method (FEM). Therefore the real structure is transferred into a global model (GM, e.g. concrete bridge) with a wide range of sub models (partial models PM, e.g. material modelling, creep). These partial models are coupled together to predict the behaviour of the observed structure (GM) under different conditions. The engineer needs to decide which models are suitable for computing realistically and efficiently the physical processes determining the structural behaviour. Theoretical knowledge along with the experience from prior design processes will influence this model selection decision. It is thus often a qualitative selection of different models. The goal of this paper is to present a quantitative evaluation of the global model quality according to the simulation of a bridge subject to direct loading (dead load, traffic) and indirect loading (temperature), which induce restraint effects. The model quality can be separately investigated for each partial model and also for the coupled partial models in a global structural model. Probabilistic simulations are necessary for the evaluation of these model qualities by using Uncertainty and Sensitivity Analysis. The method is applied to the simulation of a semi-integral concrete bridge with a monolithic connection between the superstructure and the piers, and elastomeric bearings at the abutments. The results show that the evaluation of global model quality is strongly dependent on the sensitivity of the considered partial models and their related quantitative prediction quality. This method is not only a relative comparison between different models, but also a quantitative representation of model quality using probabilistic simulation methods, which can support the process of model selection for numerical simulations in research and practice.
Safety operation of important civil structures such as bridges can be estimated by using fracture analysis. Since the analytical methods are not capable of solving many complicated engineering problems, numerical methods have been increasingly adopted. In this paper, a part of isotropic material which contains a crack is considered as a partial model and the proposed model quality is evaluated. EXtended IsoGeometric Analysis (XIGA) is a new developed numerical approach [1, 2] which benefits from advantages of its origins: eXtended Finite Element Method (XFEM) and IsoGeometric Analysis (IGA). It is capable of simulating crack propagation problems with no remeshing necessity and capturing singular field at the crack tip by using the crack tip enrichment functions. Also, exact representation of geometry is possible using only few elements. XIGA has also been successfully applied for fracture analysis of cracked orthotropic bodies [3] and for simulation of curved cracks [4]. XIGA applies NURBS functions for both geometry description and solution field approximation. The drawback of NURBS functions is that local refinement cannot be defined regarding that it is based on tensorproduct constructs unless multiple patches are used which has also some limitations. In this contribution, the XIGA is further developed to make the local refinement feasible by using Tspline basis functions. Adopting a recovery based error estimator in the proposed approach for evaluation of the model quality and performing the adaptive processes is in progress. Finally, some numerical examples with available analytical solutions are investigated by the developed scheme.
This paper presents a robust model updating strategy for system identification of wind turbines. To control the updating parameters and to avoid ill-conditioning, the global sensitivity analysis using the elementary effects method is conducted. The formulation of the objective function is based on M¨uller-Slany’s strategy for multi-criteria functions. As a simulationbased optimization, a simulation adapter is developed to interface the simulation software ANSYS and the locally developed optimization software MOPACK. Model updating is firstly tested on the beam model of the rotor blade. The defect between the numerical model and the reference has been markedly reduced by the process of model updating. The effect of model updating becomes more pronounced in the comparison of the measured and the numerical properties of the wind turbine model. The deviations of the frequencies of the updated model are rather small. The complete comparison including the free vibration modes by the modal assurance criteria shows the excellent coincidence of the modal parameters of the updated model with the ones from the measurements. By successful implementation of the model validation via model updating, the applicability and effectiveness of the solution concept has been demonstrated.
MODEL DESCRIBING STATIC AND DYNAMIC DISPLACEMENTS OF SILOS WALL DURING THE FLOW OF LOOSE MATERIAL
(2012)
Correct evaluation of wall displacements is a key matter when designing silos. This issue is important from both the standpoint of design engineer (load-bearing capacity of structures) and end-consumer (durability of structures). Commonplace methods of silo design mainly focus on satisfying limit states of load-bearing capacity. Current standards fail to specify methods of dynamic displacements analysis. Measurements of stressacting on silo walls prove that the actual stress is sum of static and dynamic stresses. Janssen came up with differential equation describing state of static equilibrium in cross-section of a silo. By solving the equation static stress of granular solid on silo walls can be determined. Equations of motion were determined from equilibrium equations of feature objects. General solution, describing dynamic stresses was presented as parametric model. This paper presents particular integrals of differential equation, which enable analysing displacements and vibrations for different rigidities of silo walls, types of granular solid and its flow rate.
Bridge vibration due to traffic loading has been subject of extensive research in the last decades. Such studies are concerned with deriving solutions for the bridge-vehicle interaction (BVI) and analyzing the dynamic responses considering randomness of the coupled model’s (BVI) input parameters and randomness of road unevenness. This study goes further to examine the effects of such randomness of input parameters and processes on the variance of dynamic responses in quantitative measures. The input parameters examined in the sensitivity analysis are, stiffness and damping of vehicle’s suspension system, axle spacing, and stiffness and damping of bridge. This study also examines the effects of the initial excitation of a vehicle on the influences of the considered input parameters. Variance based sensitivity analysis is often applied to deterministic models. However, the models for the dynamic problem is a stochastic one due to the simulations of the random processes. Thus, a setting using a joint meta-model; one for the mean response and other for the dispersion of the response is developed. The joint model is developed within the framework of Generalized Linear Models (GLM). An enhancement of the GLM procedure is suggested and tested; this enhancement incorporates Moving Least Squares (MLS) approximation algorithms in the fitting of the mean component of the joint model. The sensitivity analysis is then performed on the joint-model developed for the dynamic responses caused by BVI.
In this paper we review two distint complete orthogonal systems of monogenic polynomials over 3D prolate spheroids. The underlying functions take on either values in the reduced and full quaternions (identified, respectively, with R3 and R4), and are generally assumed to be nullsolutions of the well known Riesz and Moisil Théodoresco systems in R3. This will be done in the spaces of square integrable functions over R and H. The representations of these polynomials are explicitly given. Additionally, we show that these polynomial functions play an important role in defining the Szegö kernel function over the surface of 3D spheroids. As a concrete application, we prove the explicit expression of the monogenic Szegö kernel function over 3D prolate spheroids.
DISCRETE CRACK MODEL OF BORCZ FOR CALCULATING THE DEFLECTIONS OF BENDING REINFORCED CONCRETE BEAM
(2012)
In the design of the reinforced concrete beams loaded by the bending moment, it is assumed that the structure can be used at a level of load, that there are local discontinuities - cracks. Designing the element demands checking two limit states of construction, load capacity and usability. Limit states usability include also the deflection of the element. Deflections in the reinforced concrete beams with cracks are based on actual rigidity of the element. After cracking there is a local change in rigidity of the beam. The rigidity is variable in the element’s length and due to the heterogeneous structure of concrete, it is not possible to clearly describe those changes. Most standards of testing methods tend to simplify the calculations and take the average value of the beam’s rigidity on its entire length. The rigidity depends on the level of the maximal load of the beam. Experimental researches verify the value by inserting the coefficients into the formulas used in the theory of elasticity. The researches describe the changes in rigidity in the beam’s length more precisely. The authors take into consideration the change of rigidity, depending on the level of maximum load (continuum models), or localize the changes in rigidity in the area of the cracks (discrete models). This paper presents one of the discrete models. It is distinguished by the fact that the left side of the differential equation, that depends on the rigidity, is constant, and all effects associated with the scratches are taken as the external load and placed on the right side of the equation. This allows to generalize the description. The paper presents a particular integral of the differential equation, which allow analyzing the displacement and vibration for different rigidity of the silo’s walls, the flow rate and type of the flowing material.
In this paper experimental studies and numerical analysis carried out on reinforced concrete beam are partially reported. They aimed to apply the rigid finite element method to calculations for reinforced concrete beams using discrete crack model. Hence rotational ductility resulting from crack occurrence had to be determined. A relationship for calculating it in static equilibrium was proposed. Laboratory experiments proved that dynamic ductility is considerably smaller. Therefore scaling of the empirical parameter was carried out. Consequently a formula for its value depending on reinforcement ratio was obtained.
The Bernstein polynomials are used for important applications in many branches of Mathematics and the other sciences, for instance, approximation theory, probability theory, statistic theory, num- ber theory, the solution of the di¤erential equations, numerical analysis, constructing Bezier curves, q-calculus, operator theory and applications in computer graphics. The Bernstein polynomials are used to construct Bezier curves. Bezier was an engineer with the Renault car company and set out in the early 1960’s to develop a curve formulation which would lend itself to shape design. Engineers may …nd it most understandable to think of Bezier curves in terms of the center of mass of a set of point masses. Therefore, in this paper, we study on generating functions and functional equations for these polynomials. By applying these functions, we investigate interpolation function and many properties of these polynomials.
A concept of non-commutative Galois extension is introduced and binary and ternary extensions are chosen. Non-commutative Galois extensions of Nonion algebra and su(3) are constructed. Then ternary and binary Clifford analysis are introduced for non-commutative Galois extensions and the corresponding Dirac operators are associated.
New foundations for geometric algebra are proposed based upon the existing isomorphisms between geometric and matrix algebras. Each geometric algebra always has a faithful real matrix representation with a periodicity of 8. On the other hand, each matrix algebra is always embedded in a geometric algebra of a convenient dimension. The geometric product is also isomorphic to the matrix product, and many vector transformations such as rotations, axial symmetries and Lorentz transformations can be written in a form isomorphic to a similarity transformation of matrices. We collect the idea that Dirac applied to develop the relativistic electron equation when he took a basis of matrices for the geometric algebra instead of a basis of geometric vectors. Of course, this way of understanding the geometric algebra requires new definitions: the geometric vector space is defined as the algebraic subspace that generates the rest of the matrix algebra by addition and multiplication; isometries are simply defined as the similarity transformations of matrices as shown above, and finally the norm of any element of the geometric algebra is defined as the nth root of the determinant of its representative matrix of order n×n. The main idea of this proposal is an arithmetic point of view consisting of reversing the roles of matrix and geometric algebras in the sense that geometric algebra is a way of accessing, working and understanding the most fundamental conception of matrix algebra as the algebra of transformations of multilinear quantities.
We briefly review and use the recent comprehensive research on the manifolds of square roots of −1 in real Clifford geometric algebras Cl(p,q) in order to construct the Clifford Fourier transform. Basically in the kernel of the complex Fourier transform the complex imaginary unit j is replaced by a square root of −1 in Cl(p,q). The Clifford Fourier transform (CFT) thus obtained generalizes previously known and applied CFTs, which replaced the complex imaginary unit j only by blades (usually pseudoscalars) squaring to −1. A major advantage of real Clifford algebra CFTs is their completely real geometric interpretation. We study (left and right) linearity of the CFT for constant multivector coefficients in Cl(p,q), translation (x-shift) and modulation (w -shift) properties, and signal dilations. We show an inversion theorem. We establish the CFT of vector differentials, partial derivatives, vector derivatives and spatial moments of the signal. We also derive Plancherel and Parseval identities as well as a general convolution theorem.
This paper presents a methodology for uncertainty quantification in cyclic creep analysis. Several models- , namely BP model, Whaley and Neville model, modified MC90 for cyclic loading and modified Hyperbolic function for cyclic loading are used for uncertainty quantification. Three types of uncertainty are included in Uncertainty Quantification (UQ): (i) natural variability in loading and materials properties; (ii) data uncertainty due to measurement errors; and (iii) modelling uncertainty and errors during cyclic creep analysis. Due to the consideration of all type of uncertainties, a measure for the total variation of the model response is achieved. The study finds that the BP, modified Hyperbolic and modified MC90 are best performing models for cyclic creep prediction in that order. Further, global Sensitivity Analysis (SA) considering the uncorrelated and correlated parameters is used to quantify the contribution of each source of uncertainty to the overall prediction uncertainty and to identifying the important parameters. The error in determining the input quantities and model itself can produce significant changes in creep prediction values. The variability influence of input random quantities on the cyclic creep was studied by means of the stochastic uncertainty and sensitivity analysis namely the Gartner et al. method and Saltelli et al. method. All input imperfections were considered to be random quantities. The Latin Hypercube Sampling (LHS) numerical simulation method (Monte Carlo type method) was used. It has been found by the stochastic sensitivity analysis that the cyclic creep deformation variability is most sensitive to the Elastic modulus of concrete, compressive strength, mean stress, cyclic stress amplitude, number of cycle, in that order.
The 19th International Conference on the Applications of Computer Science and Mathematics in Architecture and Civil Engineering will be held at the Bauhaus University Weimar from 4th till 6th July 2012. Architects, computer scientists, mathematicians, and engineers from all over the world will meet in Weimar for an interdisciplinary exchange of experiences, to report on their results in research, development and practice and to discuss. The conference covers a broad range of research areas: numerical analysis, function theoretic methods, partial differential equations, continuum mechanics, engineering applications, coupled problems, computer sciences, and related topics. Several plenary lectures in aforementioned areas will take place during the conference.
We invite architects, engineers, designers, computer scientists, mathematicians, planners, project managers, and software developers from business, science and research to participate in the conference!
Monogenic functions play a role in quaternion analysis similarly to that of holomorphic functions in complex analysis. A holomorphic function with nonvanishing complex derivative is a conformal mapping. It is well-known that in Rn+1, n ≥ 2 the set of conformal mappings is restricted to the set of Möbius transformations only and that the Möbius transformations are not monogenic. The paper deals with a locally geometric mapping property of a subset of monogenic functions with nonvanishing hypercomplex derivatives (named M-conformal mappings). It is proved that M-conformal mappings orthogonal to all monogenic constants admit a certain change of solid angles and vice versa, that change can characterize such mappings. In addition, we determine planes in which those mappings behave like conformal mappings in the complex plane.
The aim of this paper we discuss explicit series constructions for the fundamental solution of the Helmholtz operator on some important examples non-orientable conformally at manifolds. In the context of this paper we focus on higher dimensional generalizations of the Klein bottle which in turn generalize higher dimensional Möbius strips that we discussed in preceding works. We discuss some basic properties of pinor valued solutions to the Helmholtz equation on these manifolds.
This paper is focused on the first numerical tests for coupling between analytical solution and finite element method on the example of one problem of fracture mechanics. The calculations were done according to ideas proposed in [1]. The analytical solutions are constructed by using an orthogonal basis of holomorphic and anti-holomorphic functions. For coupling with finite element method the special elements are constructed by using the trigonometric interpolation theorem.
The aim of our contribution is to clarify the relation between totally regular variables and Appell sequences of hypercomplex holomorphic polynomials (sometimes simply called monogenic power-like functions) in Hypercomplex Function Theory. After their introduction in 2006 by two of the authors of this note on the occasion of the 17th IKM, the latter have been subject of investigations by different authors with different methods and in various contexts. The former concept, introduced by R. Delanghe in 1970 and later also studied by K. Gürlebeck in 1982 for the case of quaternions, has some obvious relationship with the latter, since it describes a set of linear hypercomplex holomorphic functions all power of which are also hypercomplex holomorphic. Due to the non-commutative nature of the underlying Clifford algebra, being totally regular variables or Appell sequences are not trivial properties as it is for the integer powers of the complex variable z=x+ iy. Simple examples show also, that not every totally regular variable and its powers form an Appell sequence and vice versa. Under some very natural normalization condition the set of all para-vector valued totally regular variables which are also Appell sequences will completely be characterized. In some sense the result can also be considered as an answer to a remark of K. Habetha in chapter 16: Function theory in algebras of the collection Complex analysis. Methods, trends, and applications, Akademie-Verlag Berlin, (Eds. E. Lanckau and W. Tutschke) 225-237 (1983) on the use of exact copies of several complex variables for the power series representation of any hypercomplex holomorphic function.
In this paper, wavelet energy damage indicator is used in response surface methodology to identify the damage in simulated filler beam railway bridge. The approximate model is addressed to include the operational and surrounding condition in the assessment. The procedure is split into two stages, the training and detecting phase. During training phase, a so-called response surface is built from training data using polynomial regression and radial basis function approximation approaches. The response surface is used to detect the damage in structure during detection phase. The results show that the response surface model is able to detect moderate damage in one of bridge supports while the temperatures and train velocities are varied.
Civil engineers take advantage of models to design reliable structures. In order to fulfill the design goal with a certain amount of confidence, the utilized models should be able to predict the probable structural behavior under the expected loading schemes. Therefore, a major challenge is to find models which provide less uncertain and more robust responses. The problem gets even twofold when the model to be studied is a global model comprised of different interacting partial models. This study aims at model quality evaluation of global models with a focus on frame-wall systems as the case study. The paper, presents the results of the first step taken toward accomplishing this goal. To start the model quality evaluation of the global frame-wall system, the main element (i.e. the wall) was studied through nonlinear static and dynamic analysis using two different modeling approaches. The two selected models included the fiber section model and the Multiple-Vertical-Line-Element-Model (MVLEM). The influence of the wall aspect ratio (H=L) and the axial load on the response of the models was studied. The results from nonlinear static and dynamic analysis of both models are presented and compared. The models resulted in quite different responses in the range of low aspect ratio walls under large axial loads due to different contribution of the shear deformations to the top displacement. In the studied cases, the results implied that careful attention should be paid to the model quality evaluation of the wall models specifically when they are supposed to be coupled to other partial models such as a moment frame or a soil-footing substructure which their response is sensitive to shear deformations. In this case, even a high quality wall model would not result in a high quality coupled system since it fails to interact properly with the rest of the system.
The aim of this study is to show an application of model robustness measures for soilstructure interaction (henceforth written as SSI) models. Model robustness defines a measure for the ability of a model to provide useful model answers for input parameters which typically have a wide range in geotechnical engineering. The calculation of SSI is a major problem in geotechnical engineering. Several different models exist for the estimation of SSI. These can be separated into analytical, semi-analytical and numerical methods. This paper focuses on the numerical models of SSI specific macro-element type models and more advanced finite element method models using contact description as continuum or interface elements. A brief description of the models used is given in the paper. Following this description, the applied SSI problem is introduced. The observed event is a static loaded shallow foundation with an inclined load. The different partial models to consider the SSI effects are assessed using different robustness measures during numerical application. The paper shows the investigation of the capability to use these measures for the assessment of the model quality of SSI partial models. A variance based robustness and a mathematical robustness approaches are applied. These different robustness measures are used in a framework which allows also the investigation of computational time consuming models. Finally the result shows that the concept of using robustness approaches combined with other model–quality indicators (e.g. model sensitivity or model reliability) can lead to unique model–quality assessment for SSI models.
Non-destructive techniques for damage detection became the focus of engineering interests in the last few years. However, applying these techniques to large complex structures like civil engineering buildings still has some limitations since these types of structures are
unique and the methodologies often need a large number of specimens for reliable results. For this reason, cost and time can greatly influence the final results.
Model Assisted Probability Of Detection (MAPOD) has taken its place among the ranks of damage identification techniques, especially with advances in computer capacity and modeling tools. Nevertheless, the essential condition for a successful MAPOD is having a reliable model in advance. This condition is opening the door for model assessment and model quality problems. In this work, an approach is proposed that uses Partial Models (PM) to compute the Probability Of damage Detection (POD). A simply supported beam, that can be structurally modified and
tested under laboratory conditions, is taken as an example. The study includes both experimental and numerical investigations, the application of vibration-based damage detection approaches and a comparison of the results obtained based on tests and simulations.
Eventually, a proposal for a methodology to assess the reliability and the robustness of the models is given.
It is well known that complex quaternion analysis plays an important role in the study of higher order boundary value problems of mathematical physics. Following the ideas given for real quaternion analysis, the paper deals with certain orthogonal decompositions of the complex quaternion Hilbert space into its subspaces of null solutions of Dirac type operator with an arbitrary complex potential. We then apply them to consider related boundary value problems, and to prove the existence and uniqueness as well as the explicit representation formulae of the underlying solutions.
Die besondere Aggressivität von hochkonzentrierten Magnesiumsulfatlösungen bei Einwirkung auf Beton ist seit vielen Jahrzehnten bekannt. Neben dem Sulfat greift zusätzlich auch das Magnesium den Zementstein an. Bei hohen Lösungskonzentrationen nimmt der Magnesiumangriff gegenüber dem Sulfatangriff sogar eine dominante Rolle ein. Magnesiumgehalte unter 300 mg/l im Grundwasser gelten allerdings bislang als nicht angreifend. In Auslagerungs- und Laborversuchen wurde jedoch festgestellt, dass auch bei praxisrelevanten Magnesium- (<300 mg/l) und Sulfatgehalten (1.500 mg/l) das Magnesium zu einer deutlichen Verschärfung des Sulfatangriffes bei niedrigen Temperaturen führte. Diese Verschärfung trat bei Mörteln und Betonen auf, bei denen der erhöhte Sulfatwiderstand durch einen teilweisen Zementersatz mit 20 % Flugasche zu einem CEM II/A-LL erreicht werden sollte, gemäß der Flugascheregelung nach EN 206-1/DIN 1045-2.
Bei einem teilweisen Zementersatz durch 30 % Flugasche konnte auch in magnesiumhaltigen Sulfatlösungen eine deutliche Verbesserung des Sulfatwiderstandes erreicht werden. Mörtel mit HS-Zement als Bindemittel wiesen keinerlei Schäden auf. Schadensverursachend war eine Kombination mehrerer Einflüsse. Zum einen wurde der Sulfatwiderstand des Zement-Flugasche-Systems durch die unzureichende Reaktion der Flugasche infolge der niedrigen Lagerungstemperatur geschwächt. Zum anderen konnte durch die Einwirkung des Magnesiums in der Randzone vermutlich eine Destabilisierung der C-S-H-Phasen erfolgen, wodurch die Thaumasitbildung an dieser Stelle forciert wurde. Zusätzlich wurde durch den Portlanditverbrauch und die pH-Wert-Absenkung in der Randzone die puzzolanische Reaktion der Flugasche behindert.
Der Nachbehandlung eines Fahrbahndeckenbetons kommt zum Erzielen eines hohen Frost-Tausalz-Widerstandes der fertigen Betondecke eine besondere Bedeutung zu. Bei der Waschbetonbauweise erfolgt die Nachbehandlung in mehreren Schritten. Eine erste Nachbehandlung gewährleistet den Verdunstungsschutz des Betons bis zum Zeitpunkt des Ausbürstens des verzögerten Oberflächenmörtels. Daran schließt sich die zweite Nachbehandlung an, in der Regel durch Aufsprühen eines flüssigen Nachbehandlungsmittels.
Der zweite Nachbehandlungsschritt ist entscheidend für den Frost-Tausalz-Widerstand der Betondecke. Im Rahmen eines Forschungsprojektes wurde daher untersucht, inwiefern durch eine Optimierung der zweiten Nachbehandlung der Frost-Tausalz-Widerstand von Waschbetonoberflächen erhöht werden kann, insbesondere bei Verwendung hüttensandhaltiger Zemente. Schon durch eine einmalige Nassnachbehandlung wurde eine deutlich höherer Widerstand der Waschbetons gegen Frost-Tausalz-Angriff erzielt.
SENSORY TECTONICS
(2011)
Kari Jormakka has been teaching architectural theory at the Bauhaus University in Weimar since 2007. In addition, he has been an Ordinarius Professor of architectural theory at Vienna University of Technology since 1998. Previously, he has taught at the Knowlton School of Architecture at the Ohio State University, the University of Illinois at Chicago, Tampere University of Technology as well as Harvard University. Author of ten books and many papers on architectural history and theory, he studied architecture at Otaniemi University in Helsinki and at Tampere University of Technology, as well as philosophy at Helsinki University.
M. Christine Boyer is an urban historian whose interests include the history of the American city, city planning, preservation planning, and computer science. Before coming to Princeton University in 1991, Boyer was professor and chair of the City and Regional Planning Program at Pratt Institute. She was a visiting professor in the Ph.D. program at TU Deflt School of Design for Spring 2005. She has written extensively about American urbanism. Her publications include Dreaming the Rational City: The Myth of American City Planning 1890 –1945 (Cambridge: The MIT Press, 1983), Manhattan Manners: Architecture and Style 1850-1900 (New York: Rizzoli, 1985), The City of Collective Memory (Cambridge: The MIT Press, 1994), and CyberCities (New York: Princeton Architectural Press, 1996).
Geb. 1956 in Zürich; nach Berufslehre und -tätigkeit in der Chemischen Industrie Studium der Kunstwissenschaft, Geschichte, Ur- und Frühgeschichte und Mittelalterarchäologie. 1992 Promotion zum Dr. phil., danach Oberassistent am Institut für Denkmalpflege der Architekturabteilung der ETH Zürich, unterbrochen durch Forschungsaufenthalt als Mitglied des Istituto Svizzero in Rom. Lehraufträge an den Universitäten Basel, Bern und Zürich sowie an der ETH Zürich. 2000 Habilitation an der Philosophisch-Historischen Fakultät der Universität Basel, ebd. bis 2007 Privatdozent für Kunstwissenschaft. Wissenschaftlicher Mitarbeiter und Leiter von Nationalfonds-Projekten. 2003 Berufung auf die Professur für Denkmalkunde und angewandte Bauforschung an der Fakultät Architektur der Technischen Universität Dresden. Seit Januar 2008 Professor für Denkmalpflege und Baugeschichte an der Fakultät Architektur der Bauhaus-Universität Weimar. Forschungen und Publikation zur Architektur- und Kunstgeschichte hauptsächlich des Mittelalters, zur Rezeptions- und Fachgeschichte sowie zur Geschichte und Theorie der Denkmalpflege. (Mit-)Organisator zahlreicher internationaler Tagungen. Mitglied zahlreicher Denkmalpflegerischer Arbeitskreise und Gremien.
Lara Schrijver is an assistant professor at the Faculty of Architecture of the TU Delft. She is one of three program leaders for a new research program in the department of architecture, ‘The Architectural Project and its Foundations’. Schrijver holds degrees in architecture from Princeton University and the TU Delft. She received her Ph.D. from the TU Eindhoven in 2005. Schrijver has taught design and theory courses, and contributed to conferences in the Netherlands as well as abroad. She was an editor for OASE, journal for architecture, for ten years, and was co-organizer of the 2006 conference ‘The Projective Landscape’. Her current work revolves around the role of architecture in the city, and its responsibility in defining the public domain. Her first book, Radical Games, on the influence of the 1960s on contemporary discourse, is forthcoming in the spring of 2009.
EXTRA-STATECRAFT
(2011)
Keller Easterling is an architect, urbanist, and writer. Her latest book, Enduring Innocence: Global Architecture and Its Political Masquerades (MIT, 2005), researches familiar spatial products that have landed in difficult or hyperbolic political situations around the world. Her previous book, Organization Space: Landscapes, Highways and Houses in America, applies network theory to a discussion of American infrastructure and development formats. A forthcoming book, Extrastatecraft, researches global infrastructure as a medium of polity. Ms. Easterling is also the author of Call It Home, a laser disc history of suburbia, and American Town Plans. She has recently completed two research installations on the Web: “Wildcards: A Game of Orgman” and “Highline: Plotting NYC.” Her work has been widely published in journals such as Grey Room, Volume, Cabinet, Assemblage, Log, Praxis, Harvard Design Magazine, Perspecta, Metalocus, and ANY. Her work is also included as chapters in numerous publications. She has lectured widely in the United States as well as internationally. Ms. Easterling’s work has been exhibited at the Queens Museum, the Architectural League, the Municipal Arts Society, and the Wexner Center. Easterling is a professor at Yale’s School of Architecture.
OUT OF EMPIRE
(2011)
Philip Ursprung studierte Kunstgeschichte, Allgemeine Geschichte und Germanistik in Genf, Wien und Berlin. Er wurde 1993 an der FU Berlin promoviert und 1999 an der ETH Zürich habilitiert. Er unterrichtete an den Universitäten Genf, Basel und Zürich, an der ETH Zürich, der Kunsthochschule Berlin-Weissensee und der Universität der Künste Berlin. 2001-2005 war er Nationalfonds- Förderungsprofessor für Geschichte der Gegenwartskunst am Departement Architektur der ETH Zürich. Seit 2005 ist er Professor für Moderne und zeitgenössische Kunst an der Universität Zürich. 2007 war er Gastprofessor an der Graduate School of Architecture, Planning and Preservation der Columbia University New York. Er war Gastkurator am Museum für Gegenwartskunst in Basel, am Canadian Centre for Architecture in Montreal und der Graduate School for Architecture, Planning and Preservation der Columbia University New York. Er ist Autor von Grenzen der Kunst: Allan Kaprow und das Happening, Robert Smithson und die Land Art (München, 2003), Herausgeber von Herzog & de Meuron: Naturgeschichte (Montreal und Baden 2002), sowie Ko-autor von Images: A Picture Book of Architecture (München 2004), Minimal Architecture (München, 2003) und Studio Olafur Eliasson: An Encyclopedia (Köln, 2008). Zuletzt erschien Caruso St John: Almost Everything (Barcelona, 2008).
IST DAS BAUHAUS AKTUELL?
(2011)
Geboren 1922 in Buenos Aires, ist Tomás Maldonado heute Professor Emeritus für Umweltplanung am Politecnico in Mailand. Er studierte an der Academia Nacional de Bellas Artes in Buenos Aires. 1954 bis 1967 war er Dozent an der Hochschule für Gestaltung (HfG) Ulm, 1955-1956 Prorektor, bis 1960 Rektor der HfG. 1965: Lethaby Lecturer am Royal College of Arts, London. 1966 wurde er zum Fellow des Council of Humanities an der University Princeton (USA) ernannt, von 1968 bis 1970 lehrte er an der School of Architecture dieser Universität. Die Society of Industrial Artists and Designers (GB) verleih ihm 1968 die „Design Medal“. Er war von 1967 bis 1969 Vorsitzender des Präsidiums des International Council of Societies of Industrial Design (ICSID). Von 1971 bis 1983 lehrte er zusätzlich an der Universität von Bologna. 1976 bis 1981 war er der Herausgeber der Zeitschrift Casabella in Mailand. 1979 Research Fellow an der Graduate School of Design der Harvard University. Ausgewählte Schriften erschienen 2007 unter dem Titel „Digitale Welt und Gestaltung“ in Zürich.
Leslie Kavanaugh is both an architect and a philosopher. She is a licensed architect in America and the Netherlands, as well as a member of the AIA, but studied philosophy from undergraduate to doctorate at the University of Amsterdam. She has taught philosophy and design at various institutions, including twelve years at TUDelft, and as a guest professor at the Tokyo Science University and Milano Politecnico. Her publications include The Architectonic of Philosophy: Plato, Aristotle, Leibniz (Amsterdam: University of Amsterdam Press, 2007), Crossovers (with A.Graafland), Meditations on Space (2010), Aggregates (2010), and Chronotopologies: Hybrid Spatialities and Multiple Temporalities (Amsterdam: Rodopi Press, forthcoming). Presently she is the founder and director of studiokav.com in Amsterdam, a multi-disciplinary and collaborative atelier. In addition, Kavanaugh is an affiliated Senior Scholar at the Philosophy Institute, Leiden University, the Netherlands.
Stanford Anderson is Professor of History and Architecture and was Head of the Department of Architecture from 1991 through 2004. He was director of MIT’s PhD program in History, Theory and Criticism of Architecture, Art and Urban Form from its founding in 1974 to 1991 and in 1995-96. Anderson’s research and writing concern architectural theory, early modern architecture in northern Europe, American architecture and urbanism, and epistemology and historiography. He has organized numerous professional conferences and served on the editorial boards of Assemblage, Journal of Architectural Education, Places, and The MIT Press. In addition to numerous articles, his books are Planning for Diversity and Choice, On Streets, and Hermann Muthesius: Style-Architecture and Building Art. He is co-author of Kay Fisker. Peter Behrens and a New Architecture for the Twentieth Century appeared in 2000 and Eladio Dieste: Innovation in Structural Art in 2004. In 1997, The MIT Press published a collection of essays in his honor, edited by Martha Pollak: The Education of the Architect: Historiography, Urbanism, and the Growth of Knowledge. He was a Fulbright fellow at the Technische Hochschule in Munich and subsequently a fellow of the John Simon Guggenheim Foundation and the American Council of Learned Societies. Anderson received his bachelor’s degree from the University of Minnesota, his master’s in architecture from the University of California at Berkeley, and his doctoral degree in the history of art from Columbia University in New York City.
Eine neue, kopflose Gewalt hat den Imperialismus vergangener Zeiten abgelöst. Die neue Weltordnung, das »Empire«, überschreitet alle Grenzen unserer althergebrachten politischen Begriffe – Staat und Gesellschaft, Krieg und Frieden, Kontrolle und Freiheit. Das dezentralisierte und deterritorialisierte Empire beherrscht uns, indem es durch die Medien, die Technik und durch soziale Praktiken unmittelbaren Einfluss auf uns Menschen nimmt.
Architektur und Raumplanung haben sich in den letzten Jahrzehnten radikal gewandelt. Die alten, modernistischen Bestrebungen nach erschwinglichen Wohnungen und einer rationalen Organisation der Städte sind ebenso in den Hintergrund gerückt wie die postmodernen Obsessionen der Kommunikation, der Nutzerbeteiligung und des öffentlichen Raumes. Stattdessen stehen nun ästhetische und entschieden unpolitischere Belange im Vordergrund: Diskussionen zwischen einer kritischen und einer projektiven Praxis, zwischen Blobs und Kisten, zwischen Atmosphäre und Ornament.
Doch das ist noch lange nicht das Ende der Geschichte, wie im vorliegenden Band deutlich wird. Die Beiträge des 11. Bauhaus-Kolloquiums umspannen einen Zeitraum, der von der Gründung des Bauhauses in Weimar bis zur globalen Architektur unserer Zeit reicht, und verfolgen dabei die Entwicklung des Empires zurück, um gleichzeitig nach Konsequenzen und Alternativen zu fragen, denen die Architektur sich heute gegenübergestellt sieht.
REVISITING 1923
(2011)
Addison Godel is a student at the Knowlton School of Architecture at Ohio State, working towards a three-year Master of Architecture. He is a teaching assistant for a variety of history and theory courses, as well as two of the school’s European travel-abroad programs. His interests include the relationship between style and larger cultural forces, and the efforts of architecture to symbolically adapt and represent contemporary technology.
DAS KOLLOQUIUM
(2011)
Geb.1946 in Luckenwalde, nach dem Studium der Architektur in Weimar Promotion 1974 auf dem Gebiet der Architekturtheorie, 1973 bis 1980 Abteilung Theorie und Geschichte der Architektur am Institut für Städtebau und Architektur der Bauakademie in Berlin. Arbeiten zur Architekturpsychologie und Architektursemiotik sowie Beiträge zur empirischen Wirkungsforschung in der Architektur. Ab 1980 Lehrtätigkeit an der Hochschule für Architektur und Bauwesen (HAB) Weimar. 1992 Berufung zum Universitätsprofessor an der HAB für das Fach „Entwerfen und Architekturtheorie“, im gleichen Jahr Wahl zum Rektor der Hochschule, 1996 Wiederwahl für weitere vier Jahre. Publikationen zur Architekturtheorie, Konzeption und Veranstaltung der Internationalen Bauhaus-Kolloquien, internationale Programme mit der WASEDA Universität Tokyo, dem IIT Chicago, seit Mitte der 90er Jahre jährliche Entwurfsakademie in Rom. 2003 Wahl zum Dekan der Fakultät Architektur und 2004 erneute Wahl zum Rektor der Bauhaus-Universität Weimar.
Michael Speaks ist Dekan an der Universität des Kentuck Collge of Design und ehemaliger Gründungsvorstand des Metropolitan Research and Design Postgraduate Program der Sci-Arc in Los Angeles. Er leitet ebenfalls Big Soft Orange, eine niederländisch-amerikanische Stadtforschungsgruppe mit Standorten in Rotterdam und Los Angeles. Er war Herausgeber und Gründer des Kulturjournals Polygraph, sowie Mitherausgeber von Architecture New York und a+u (Tokyo), und arbeitet derzeit als beitragender Herausgeber für das Architecutral Record. Als Lehrer, Forscher und Herausgeber hat Speaks in zahlreichen Institutionen innerhalb der Vereinigten Staaten wie auch im Ausland mitgewirkt, darunter die Technischen Universität Delft, die Yale School of Arts, die Harvard University, die Columbia University, die University of Michigan, das Berlage Institut in Rotterdam und die University of California, Los Angeles. Außerhalb des Hörsaals hat der in Los Angeles lebende Schriftsteller und Kritiker sich in Vorträgen und Veröffentlichungen zur Kunst, Architektur, der Stadt- und Szenarienplanung geäußert. In jüngeren Diskussionen um die Rolle von Innovation und Prototypenentwicklung für das Design nimmt er eine zentrale Position ein und hat eine vielzahl einflussreicher Aufsätze geschrieben, welche auf die Bedeutung dessen verweisen, was er eine „Design Intelligence“ nennt.
SPACE SYNTAX
(2011)
Bill Hillier ist Professor für architektonische und urbane Morphologie an der University of London, Vorsitzender der Bartlett School of Graduate Studies und Leiter des Space Syntax Laboratorys an der University of London. Er besitzt einen DSc (gehobene Doktorenwürde) an der University of London. Als ursprünglicher Wegbereiter der Methode zur Analyse räumliche Muster, die unter dem Namen "Space Syntax" bekannt wurde, ist er auch Verfasser von The Social Logic of Space (Cambridge University Press, 1984, 1990), das eine allgemeine Theorie über das Verhältnis von Menschen zu dem sie umgebenden, gebauten Raum darlegt, ‘Space is the Machine’ (CUP 1996) das den grundlegenden Untersuchungsstand zu dieser Theorie beeinhaltet, sowie zahlreicher Artikel, die sich mit dem Raum und dessen Wirken befassen. Auch über andere Aspekte der Architekturtheorie hat er ausgiebig geschrieben.
Studium der Architektur an der Technischen Universität Wien. Von 2001 bis 2002 Lehrbeauftragte am Institut für künstlerische Gestaltung der TU Wien. Im Zeitraum 1997-2002 Wettbewerbe, Planungen und Realisationen in den Architekturbüros „the unit“ und „ckp“, 2002-2007 „limit architects“, Wien. Seit 2008 querkraft architekten wien. Dissertationsprojekt seit 2004: Design Strategies: Case Study of Six Projects of Rem Koohaas/ OMA. Seit 2008 wissenschaftliche Assistentin am Institut für Architekturtheorie, Kunst- und Kulturwissenschaften der TU Graz. Forschungsschwerpunkte: Architekturtheorie, Gegenwartsarchitektur, Entwurfsmethoden, Architectural Research/Design Studies, Wahrnehmung und Architektur.
TRANSFORMING TACIT KNOWLEDGE
(2011)
Sabine Ammon studied architecture and philosophy at the Technische Universität Berlin. Study and research visits led her to the University of London, Harvard University and ETH Zürich. Furthermore, she practised building design as a freelance architect. Her dissertation “Wissen verstehen. Perspektiven einer prozessualen Theorie der Erkenntnis”, Weilerswist 2009, develops a theory of knowledge, based on the philosophy of symbols. In her current research project she explores the epistemic dimension of architectural design processes.
TRANSFORMING TO EXPERT
(2011)
Katharina Richter holds a degree in Architecture, Urban- and Regional Planning from the Bauhaus-University Weimar, where she is appointed as Assistant Professor at the Chair of Computer Science in Architecture since 2000. She teaches architecture studio in undergraduate and graduate programs and has been supervising several international teaching projects. In Fall 2004 she was teaching and researching at the Washington Alexandria Architecture Consortium - Virginia Polytechnic and State University, Alexandria, VA. Her current research focuses on the investigation of the potential of computer based exchange of experiential knowledge in architecture. Between 2000 and 2006 she coordinated third party verification procedures at the Collaborative Research Center SFB 524 „Materials and Structures in Revitalization of Buildings“, Bauhaus-University Weimar, Germany. Her work has been published at various international conferences as well as in related reviewed journals.
GENERIC REALISM
(2011)
Bettina Schürkamp completed her diploma in architecture at the State Academy of Fine Arts Stuttgart in 1995 and attended the graduate course „Histories and Theories of Architecture“ at the Architectural Association in London. For more than five years she worked as a practising architect for architectural firms in England and Germany such as Bolles+Wilson, Münster and Peter Kulka, Köln. From 2001 until 2007 she held a research and teaching position at the Institute for History and Theory of Architecture at Wuppertal University. Currently she is completing her dissertation on the Dutch architectural firm OMA*AMO She writes as a freelance journalist for architectural magazines in Germany and Switzerland and has been publishing in magazines such as Archithese, Arch+, Bauwelt and Deutsche Bauzeitung.
GRAFT is an architectural firm located in Los Angeles, Berlin, and Beijing. Their collective professional experience encompasses a wide array of building types including Fine Arts, Educational, Institutional, Commercial and Residential facilities. The firm has won numerous awards in Europe as well as in the United States. GRAFT was established in 1998 in Los Angeles by Lars Krückeberg, Wolfram Putz and Thomas Willemeit and opened an office in Berlin in 2001. In 2003 GRAFT opened an office in Beijing with Gregor Hoheisel as partner for the asian market. In 2007 Alejandra Lillo became Partner for the office in Los Angeles. GRAFT was conceived as a ‘Label’ for Architecture, Urban Planning, Design, Music, and the “pursuit of happiness”. Since the firm was established, it has been commissioned to design and manage a wide range of projects in multiple disciplines and locations. With the core of the firm’s enterprises gravitating around the field of architecture and the built environment, GRAFT has always maintained an interest in crossing the boundaries between disciplines and “grafting” the creative potentials and methodologies of different realities. This is reflected in the firm’s expansion into the fields of exhibition design and product design, art installations, academic projects and “events” as well as in the variety of project locations in Germany, China, UAE, Russia, Georgia, in the U.S. and Mexico, to name a few.
PANTS ON FIRE?
(2011)
Grace Quiroga studied architecture at the University of Michigan and at the Vienna University of Technology. Her ongoing architectural projects include the design of a housing project in the Chinese province of Sichuan for a thousand families displaced by the earthquake of 2008. In addition, she is working on a doctoral dissertation titled “Rem Koolhaas and the architecture culture of the AA in the 1970’s”.
Albert Narath is a doctoral candidate in modern architectural history at Columbia University in New York and a Paul Mellon Pre-doctoral Fellow at the Center for Advanced Research in the Visual Arts at the National Gallery of Art in Washington, DC. He holds an MA degree from the Architectural Association in London. His dissertation concerns architectural and art historical debates surrounding the Neo-baroque at the end of the nineteenth century in Germany.
Nicole E. Stöcklmayr ist Post-Doc-Stipendiatin im Research-Fellow Programm „Werkzeuge des Entwerfens“ am Internationalen Kolleg für Kulturtechnikforschung und Medienphilosophie (IKKM) der Bauhaus-Universität Weimar. Stöcklmayr promovierte an der Universität für angewandte Kunst Wien an der sie auch Architektur in den Meisterklassen Hans Hollein, Greg Lynn sowie Zaha Hadid studierte. In ihrer von Gabriele Werner betreuten und von der Österreichischen Akademie der Wissenschaften geförderten Dissertation mit dem Titel „Das Architekturbild im digitalen Paradigmenwechsel“ untersuchte sie den Status des Bildes im digitalen Prozess des Architekturentwurfs. Veröffentlichungen: „Architektur ohne Maßstab. Digitale Visualisierungen im Entwurfsprozess“, in: Ingeborg Reichle, Steffen Siegel (Hg.), Maßlose Bilder. Visuelle Ästhetik der Transgression, München 2009, S. 279 – 294; „Das digitale Bild des Architekturentwurfs“, in: Gerald Bast, Florian Bettel, Barbara Hollendonner (Hg.), uni*vers. Junge Forschung in Wissenschaft und Kunst, Wien 2010; S. 59 – 69.
SENSUAL IS POLITICAL
(2011)
Daniela Brasil is currently a PhD candidate at the professorship of Spatial Planning and Research at Architecture Faculty of the Bauhaus-Universität Weimar, where she has also been teaching since 2007. Her seminars foster bodily experiments and critical thinking on “city’s sensuality”, where discussions on city marketing and affectivity are central. She was educated in architecture and urbanism in Brazil and Portugal and holds a Master of Fine Arts in Public Art and new artistic strategies. Idealizing and realizing artistic-oriented projects that intervene in relations between bodies and cities is her main concern since the mid-nineties; where she preferably works in transdisciplinary groups, as in “Lisbon Capital of Nothing: create, debate and intervene in public space, Marvila 2001”. Daniela currently runs the project “Baustelle M10 > gallery for contemporary experiments” within a collective of artists and students in Weimar.
ARCHITECTURE AND ATMOSPHERE
(2011)
Nathalie Bredella is an architect. She was educated at the TU Berlin and Cooper Union, New York. She received a PhD in Architectural Theory. She taught architectural design at the TU Berlin. She ist the author of Architekturen des Zuschauens. Imaginäre und reale Räume im Film (transcript-verlag). The work is based on an interdisciplinary approach incorporating architecture, film theory and philosophy. Her interests in architectural practice focus on the relationship between spatial strategies, film and media on an urban and architectural scale.
OÍDA OUK EIDÓS
(2011)
Ralf Hennig is a PhD-candidate at the chair of Theory and History of Modern Architecture at the Bauhaus-University Weimar. His prior research interests are focused on historical and current interaction between media, architecture and the city as well as the influence of the alliance of these entities on traditional principles of dwelling. In 2004-2005 he was responsible for the conception and constitution of the postgraduate Master’s degree programme MediaArchitecture at the Bauhaus-University Weimar. In 2007-2008 he worked there as a scientific associate at the chair of Sociology of Globalisation, involved in various activities such as the research project MEDIACITY.
Sandra Lippert-Vieira, 1971 in Lissabon, Portugal geboren, schloss 1995 ihr Architekturstudium an der Universidade Lusíada in Lissabon ab. Bis 2003 arbeitete sie als Freie Architektin in Lissabon und war Entwurfsassistentin an der Universidade Moderne und Universidade Lusófona in Lissabon bei Prof. em. Amâncio d’Alpoim Guedes, Lehrstuhl für Entwurf. Derzeit ist sie wissenschaftliche Mitarbeiterin im Fachgebiet Gebäudelehre bei Prof. Daniele Marques, Institut für Entwerfen, Kunst und Theorie, KIT – Karlsruher Institut für Technologie. Sie promovierte an der BTU Cottbus, Prof. Führ, zum Thema „Dissoziative Architektur. Zwischen Teufelskralle und Scheinriese. Wege zu einem weiteren Verständnis der Architektur des Expressionismus.“
Bisherige Veröffentlichungen:
„Wege zu einer Rezeptionsästhetik in der Architektur: das implizite Leben der gebauten Welt,“ in: Wolkenkuckucksheim (Heft 2/08); „Texte und Kontexte“ von Jürgen Habermas und „Martin Heidegger. Unterwegs zu seiner Biographie“ von Hugo Ott. Forschungsschwerpunkte: Expressionistische Architektur, Outsider Architektur, Architekturinterpretationsmethoden, Avantgarde und Postanarchismus.
FORM’S FALLOW FUNCTION
(2011)
Douglas Graf received an A.B. in architecture and urban planning from Princeton and a M.Arch. from Harvard and currently teaches courses in design and architectural theory at the Knowlton School of Architecture at the Ohio State University. His teaching career has included the Kentucky, Washington, and Yale, as well as positions in Britain, Germany, and Finland, where he first went on a Fulbright to study the work of Alvar Aalto. He has received five teaching awards. His interest in design theory has a primary focus on formal analysis, which is applied not only to architecture but also to urban form, landscape, photography, painting, product design, and graphics. One of his signature investigations has been into the structure and use of diagrams as tools for ‘close reading.’ Many of his investigations have explored ‘metaphoric time’ as a central design strategy. He has written about the idea of the ‘encyclopedic set’ as a persistent means of modeling complexity and the use of ‘fictive landscapes’ to derive narratives for the city. He currently divides his time between Columbus (the one in Ohio) and London (not the one in Ohio), where he has been researching the design strategies in English gardens and the formal structure of the pre-industrial village. He is one of the principals in Mid-Ohio Design, a firm of architects and urban designers whose work elides from the real to the academic and who have won a number of urban design competitions.
MODELLWECHSEL
(2011)
Wolfgang Pehnt lehrte Baugeschichte an der Ruhr-Universität Bochum. Er hat zahllose Arbeiten zur Architekturgeschichte der Moderne veröffentlicht und Monographien über Baumeister wie Gottfried Böhm, Hans Poelzig, Rudolf Schwarz und Karljosef Schattner geschrieben; er war Autor bei der Propyläen-Kunstgeschichte und Mitarbeiter von Fachzeitschriften, Katalogbüchern, Tageszeitungen und Rundfunkanstalten. Seine Bücher „Die Architektur des Expressionismus“ und „Deutsche Architektur seit 1900“ gelten als Standardwerke. Er wurde vielfach ausgezeichnet, zuletzt mit dem Deutschen Preis für Denkmalschutz (Karl Friedrich Schinkel-Ring).
Richard Shusterman received a B.A. and M.A. in Philosophy from the Hebrew University of Jerusalem, and completed his doctoral studies in Philosophy at Oxford University. In Israel he taught at the Hebrew University and the University of the Negev, and then moved to the United States, where he was Professor of Philosophy at Temple University, and chaired its department from 1998-2004. He then was awarded the Dorothy F. Schmidt Eminent Scholar Chair in the Humanities at Florida Atlantic University, where he also directs the Center for Body, Mind, and Culture. His authored books include Surface and Depth (2002); Performing Live (2000); Practicing Philosophy: Pragmatism and the Philosophical Life (1997); Sous l’interprétation (1994), Pragmatist Aesthetics: Living Beauty, Rethinking Art (1992, 2nd edition 2000); T.S. Eliot and the Philosophy of Criticism (1988); and The Object of Criticism (1984). His most recent book, Body Consciousness: A Philosophy of Mindfulness and Somaesthetics was published by Cambridge University Press. It provides the most detailed formulation of his project of somaesthetics.
Andreas Rumpfhuber is Architect and Researcher and currently based in Vienna, Austria. He studied architecture at University of Technology in Graz and the Bartlett School of Architecture in London. He is member of the research collective roundtable.kein.org at the Centre for Research Architecture at Goldsmiths College in London. He has taught and lectured at architecture schools in Europe and is a regular contributor to the Vienna street newspaper Augustin and architecture journals like derivé, UmBau, Monu, Arkitekten. In his office he is currently working on small scale projects.
EXPLAINING JUNKSPACE
(2011)
Dr. Silke Ötsch is currently working on a research project on the role of architects as intermediaries in financialization founded by the Austrian Research Found (FWF) at the Department of Sociology at the University of Innsbruck. She worked as scientific employee at the Institute of Construction and Design at the Innsbruck University, as lecturer at the Institute for Architecture Theory at the University of Innsbruck (Austria), in the architectural offices of Arets Architekten in Maastricht as well as Haid und Partner in Nürnberg and for Attac Germany. Silke Ötsch received her doctoral degree at the Bauhaus-University Weimar and studied architecture in Weimar and Paris. She published books in the field of architecture theory with the title “Stripping las Vegas” (with K. Jaschke) and “Überwältigen und Schmeicheln”, and articels in the review GAM and others, and published in the field of political economy, among others the book “Das Casino schließen” (together with T. Sauer and P. Wahl) on the financial crisis and “Räume der Offshore-Welt” (together with Celia Di Pauli), which is a publication on concrete spaces of tax havens and offshore centres in Europe and their implications. Her main research interest is globalization and financial architecture.
Hermann Czech studierte Architektur an der Technischen Hochschule und in der Meisterschule von Ernst Plischke an der Akademie der bildenden Künste in Wien. 1958 und 1959 war er Seminarteilnehmer bei Konrad Wachsmann an der Sommerakademie in Salzburg. An der Akademie für angewandte Kunst in Wien war er von 1974 bis 1980 Assistent bei Hans Hollein und Johannes Spalt, 1985/86 Gastprofessor an derselben Hochschule. 1988/89 und 1993/94 war er Gastprofessor an der Harvard University in Cambridge/USA, 2004-07 Gastprofessor an der ETH Zürich. Sein ungleichartiges architektonisches Werk umfasst Planungen, Wohn-, Schul- und Hotelbauten ebenso wie Interventionen in kleinem Maßstab und Ausstellungsgestaltungen. Seine Projekte haben starken Bezug zum Kontext und beinhalten bewusst die vorhandenen Widersprüche. Ab den 1970er Jahren (»Architektur ist Hintergrund«) wurde Hermann Czech zum Protagonisten einer neuen, »stillen« Architektur, die »nur spricht, wenn sie gefragt wird«. Er ist Autor zahlreicher kritischer und theoretischer Publikationen zur Architektur. In seiner Theorie spielen die Begriffe Umbau und Manierismus eine zentrale Rolle. Veröffentlichungen (Auswahl): ‚Zur Abwechslung. Ausgewählte Schriften zur Architektur. Wien‘, Wien 1996, ‚Das Looshaus‘, Wien 1976 (mit Wolfgang Mistelbauer), ‚Komfort – ein Gegenstand der Architekturtheorie?‘, in: werk,bauen+wohnen, Zürich, 3/2003, S. 10-15.
MAD is a Beijing-based architectural design studio. In their work, they are examining and developing a unique concept of futurism through current theoretical practice in architectural design, landscape design, and urban planning. In 2006, MAD was awarded the Architectural League Young Architects Forum Award. In the same year, MAD was shown at the ‘MAD in China’ exhibition in Venice during the Architecture Bienniale, and the ‘MAD Under Construction’ exhibition at the Tokyo Gallery in Beijing. MAD’s conceptual proposal, Super Star – A mobile China Town was exhibited in the Uneternal City of the 11th Architecture Biennale in Venice. Ma Yansong received his Master of Architecture from the Yale University School of Architecture in 2002. Prior to founding MAD in 2004, Mr. Ma worked as a project designer with Zaha Hadid Architects and Eisenman Architects. He also taught architecture at the Central Academy of Fine Arts in Beijing. In 2008, one of his built works, Hongluo Clubhouse, was nominated as one of the 100 designs by the London Design Museum. He was also nominated as one of the 20 most influential young architects today by ICON.
Professor Jane Rendell is Director of Architectural Research at the Bartlett, UCL. An architectural designer and historian, art critic and writer, her work has explored various interdisciplinary intersections: feminist theory and architectural history, ne art and architectural design, autobiographical writing and criticism. She is author of Site-Writing: The Architecture of Art Criticism (2010), Art and Architecture (2006), The Pursuit of Pleasure (2002) and co-editor of Pattern (2007), Critical Architecture (2007), Spatial Imagination (2005), The Unknown City (2001), Intersections (2000), Gender Space Architecture (1999) and Strangely Familiar (1995). Her talks and texts have been commissioned by artists such as Daniel Arsham and Bik Van Der Pol, and galleries, as the Baltic, the Hayward, Kunstmuseum Thon, the Serpentine, the Tate and the Whitechapel. She is on the Editorial Board for ARQ (Architectural Research Quarterly), Haecceity, The Happy Hypocrite, The Issues and the Journal of Visual Culture in Britain.
Martin Peschken studied History of Art and Literature in Berlin and Madrid. In 2005 he completed his doctoral studies in comparative literature at Freie Universität Berlin. He worked then as a curator of the gallery “Laden V-17” in Berlin. In 2005 he joined the project-team of International Building Exhibition “Stadtumbau 2010” in Saxony-Anhalt based at Stiftung Bauhaus Dessau, where he curated several exhibitions and urban projects. He currently works as Scientific Assistant at Technische Universität Braunschweig in the department of “History and Theory of Architecture and Urbanism”.
SYSWELD Forum 2011
(2011)
Am 25. und 26. Oktober 2011 trafen sich an der Bauhaus-Universität Weimar 70 nationale und internationale Fachleute aus Forschung und Praxis, um sich im Rahmen des vierten SYSWELD Forums über aktuelle Entwicklungen der numerischen Simulation auf dem Gebiet der Wärmebehandlung und des Schweißens auszutauschen. Die numerische Simulation im Bereich des Schweißens und der Wärmebehandlung hat sich in den letzten Jahren beachtlich weiterentwickelt und bietet ein zukunftsweisendes und innovatives Arbeitsfeld für Ingenieure.
PRÄ- UND POST-ARCHITEKTUR
(2011)
1988-1994 Redakteur bei Arch+. Gastprofessur an der TU Cottbus 2000–02. Initiator und Co-Leiter des Europäischen Forschungsprojekt Urban Catalyst 2001–03. Mitinitiator von ZwischenPalastNutzung und Künstlerischer Co-Leiter von Volkspalast 2004. Leitender Kurator des Projektes Schrumpfende Städte für die Kulturstiftung des Bundes 2002–08. Autor und Herausgeber mehrerer Bücher und Schriften, u.a. Wohltemperierte Architektur und Berlin_Stadt ohne Form. Seit Herbst 2006 Professor für Architekturtheorie und Entwerfen an der Universität Kassel, seit März 2009 Leiter der Stiftung Bauhaus Dessau.
FRAGEN ZU HANNES MEYER
(2011)
Otto Karl Werckmeister war, neben Forschungsaufträgen am Warburg Institute, London und dem Deutschen Archäologischen Institut, Professor für Kunstgeschichte an der UCLA und der Northwestern University in Evanstown/Illinois, sowie Gastprofessor an den Universitäten Marburg und Hamburg. Die Strategien von Künstlern des 20. Jahrhunderts auf dem Weg zum Ruhm hat er ebenso untersucht wie das Bildrepertoire frühmittelalterlicher Buchillustrationen oder der japanischen Manga-Comics. Walter Benjamins Forderung nach einer „Aktualität des Denkens“ hat ihm als Motto seiner Untersuchungen gedient. Zu seinen wichtigsten Veröffentlichungen gehören: Ende der Ästhetik (1971), Ideologie und Kunst bei Marx (1974), Versuche über Paul Klee (1981), The Making of Paul Klee‘s Career, 1914-1920 (1988), Zitadellenkultur. Die schöne Kunst des Untergangs in der Kultur der Achtziger Jahre (1989); Linke Ikonen: Benjamin, Eisenstein, Picasso - nach dem Fall des Kommunismus (1997), Der Medusa-Effekt - Politische Bildstrategien seit dem 11. September 2001 (2005).
THE HERPICH AFFAIR OF 1924
(2011)
Michele Stavagna is an architect and architectural historian, who lives and works in Berlin, and is the correspondent from Italy for the magazine “der architekt - BDA”. He was educated at the Università IUAV of Venice (Italy), holds a degree in architectural design and a PhD in history of architecture and urban design, and has taught Theory and History of Industrial Design at the Università degli Studi of Triest (Italy). Stavagna translated and edited the first Italian edition of “Die Baukunst der neuesten Zeit” by G. A. Platz. His research themes focus on the birth and affirmation of Modernism within the broader context of the mass public and economic development of the modern society.
CLOSING THE WORLD’S FACTORY
(2011)
Joshua Bolchover is an urban researcher, academic and architectural designer. He is an Assistant Professor at the University of Hong Kong, focusing on researching and designing buildings in rural China. In 2010 he exhibited Rural Urban Ecology at the Venice Biennale 2010. He has curated, designed and contributed to several international exhibitions including: Utopia Now: Opening the Closed Area, a research project on the Hong Kong and Shenzhen border at the Venice Biennale 2008; Get it Louder, a touring exhibition in China; Airspace: What Skyline does London want; Hydan; Can Buildings Curate and has exhibited at the HK-SZ Biennale. Joshua was a local curator for the Manchester-Liverpool section of Shrinking Cities between 2003 and 2005. He has collaborated with Raoul Bunschoten, Chora, researching strategic urban projects and has worked with Diller + Scofidio in New York. Joshua has previously taught architecture at the Chinese University of Hong Kong, London Metropolitan University, Cambridge University and the Architectural Association. He was educated at Cambridge University and at the Bartlett School of Architecture. John Lin is an architect based in Hong Kong and a graduate of The Cooper Union in New York City. His experimental constructions have been published in FRAME magazine (2003) and exhibited in the Kolonihaven (Architecture Park) at the Louisiana Museum of Modern Art in Copenhagen (2004) and the Venice Biennale (2008). Current projects include the design of several school buildings in China. He has taught at the Royal Danish Academy of Fine Arts, School of Architecture, and The Chinese University of Hong Kong and is currently an Assistant Professor at the University of Hong Kong.
WECHSELNDE ZUSCHREIBUNGEN
(2011)
Steffen de Rudder, Dr.-Ing., ist Architekt und wissenschaftlicher Mitarbeiter an der Bauhaus-Universität Weimar. Er lehrt städtebauliches Entwerfen und forscht zu Themen der Architektur- und Stadtbaugeschichte. 1996 Lehrbeauftragter am Kunsthistorischen Institut der Humboldt-Universität zu Berlin, 1990 bis 2001 selbstständiger Architekt in Potsdam und Berlin (Neubau, Sanierung, Denkmalpflege). Veröffentlichungen zur Bauhaus-Rezeption, zur amerikanischen Architekturgeschichte der Moderne und zur Stadtentwicklung in Berlin und in Thüringen. 2007 erschien: „Der Architekt Hugh Stubbins. Amerikanische Moderne der Fünfziger Jahre in Berlin“.
Yolanda Ortega Sanz is an architect and associate professor at Polytechnic School, Universitat de Girona, Catalonia, Spain; where she teaches architectural design. Ortega was educated at School of architecture in Barcelona and Arkitektskolen i Aarhus, Denmark. Later on, she received a grant to be a young researcher at Danmarks Kunstbibliotek, Copenhagen. Currently, she is PhD Candidate in the research group FORM where she develops her thesis entitled “Nordic assembly” focus on Modern Architecture in Nordic countries. Her research has been published and presented in several conferences as: 1st International Conference on contemporary architects: Jørn Utzon, Sevilla, Spain; 1st Conference on architectural competition, Nordic Symposium, KTH, Stockholm, Sweden; or Responsibilities and Opportunities in Architectural Conservation, CSAAR, Amman, Jordan.
DIE MODERNE ALS TRADITION
(2011)
Anne Schmedding ist als freie Kunst- und Architekturhistorikerin in Berlin tätig, unter anderem bei Urbanizers, Büro für städtische Konzepte. Von 2005 bis 2009 war sie wissenschaftliche Mitarbeiterin an der TU Braunschweig im Fachbereich Geschichte und Theorie der Architektur und Stadt. Sie ist Mitherausgeberin des Kataloges „Gesetz und Freiheit“ zu Leben und Werk des Architekten Friedrich Wilhelm Kraemers (Berlin 2007). Sie war von 1996–1999 Redakteurin der Zeitschrift Daidalos und ist Mitherausgeberin des Buches „Architektur in Berlin“ (Berlin 1999). Sie war wissenschaftliche Kuratorin und Mitarbeiterin der Ausstellung „Stadt der Architektur. Architektur der Stadt“, die im Jahr 2000 im Neuen Museum in Berlin zu sehen war. Momentaner Forschungsschwerpunkt ist Architektur und Kunst der westdeutschen Nachkriegszeit. Vor kurzem schloß sie ihre Dissertation über Dieter Oesterlen ab.
Dr. phil., seit 2001 Professorin für Geschichte und Theorie der Architektur und der Stadt; zuvor Professorin für Kunstgeschichte an der TU Graz; Gastprofessuren für Kunst-, Architektur- und Designgeschichte an der UdK Berlin, Universität Kassel, Oldenburg und Bonn; Studium der Kunstgeschichte, Soziologie, Psychologie und Philosophie. Karin Wilhelm ist Organisatorin mehrerer internationaler Ausstellungen zur modernen Architektur und zum Design (Berlin, London, Stock olm) und war wissenschaftlicher Beirat der Stiftung Bauhaus Dessau und des Deutschen Architekturmuseums (DAM). Zahlreiche Veröffentlichungen, zuletzt: Bauhaus Weimar 1919 –1924 (1996); Kunst als Revolte? Von der Fähigkeit der Künste, Nein zu sagen (1996); Visionen vom Glück – Visionen vom Untergang: Zeichen und Diskurse zur „schönen neuen Welt“ (1998); Sehen – Gehen – Denken: der Entwurf des Bauhausgebäudes, in: ‚Das Bauhausgebäude in Dessau 1926 –1999‘ (1998); City-Lights – Zentren, Peripherien, Regionen: interdisziplinäre Positionen für eine urbane Kultur (2002), Idea and form: Häuser von Szyszkowitz + Kowalski (2003); Formationen der Stadt. Camillo Sitte weitergelesen (2005).
Tobias Danielmeier teaches design at the Otago Polytechnic as well as at the University of Otago in Dunedin, New Zealand. He holds a Masters of Arts in Architecture from the Münster School of Architecture and is currently completing his PhD at the University of Otago. His research investigates the art, business and science of winery architecture and their interrelation with place and technology. Tobias Danielmeier’s practical experience includes projects for Reichardt Architekten, Essen, and Bolles+Wilson, Münster.
Tatjana Schneider is lecturer at the School of Architecture, University of Sheffield. She holds a PhD in architecture. She worked in architectural practice in Germany and the UK, and has taught, lectured and published widely (including ‘Flexible Housing’ with Jeremy Till). She was a member of the worker’s cooperative G.L.A.S. (Glasgow Letters on Architecture and Space), which undertook agit-prop works, educational workshops, community based design consultancy and produced the quarterly journal glaspaper. Her work focuses on the production and political economy of the built environment. Current work includes the research ‘Spatial Agency’.
GENUFLECTION AND EMPIRE
(2011)
Eymen Homsi has degrees in architecture from the Ohio State University and biology/botany from the University of Southern Colorado. He taught design and theory at the Ohio State University (1991–99), worked at the Atelier Jose Oubrerie (1991–1995), and was Director of Design at the Columbus Neighborhood Design Centre (1998–99), where he designed the Salvation Army Transitional Housing, Friends of the Homeless Dormitory, and other public projects. He established Studio Noni in Helsinki (2000–04) for experimental projects, speculative works, competitions. He was coordinator of Habitation Studio at the Chinese University of Hong Kong (2004–09). He returned to Istanbul in 2009 after an absence of thirty five years to teach studio at Mimar Sinan University of Fine Arts (2009–10). Currently he teaches studio at Istanbul Technical University, and theory at Kültür University. His research concerns the relationship between rites of worship in Islam and the space of the mosque.
HOW CRITICAL IS CRITICALITY?
(2011)
Rixt Hoekstra is an architectural historian and a Wissenschaftliche Mitarbeiterin at the Leopold Franzens University of Innsbruck, where she teaches theory and history of architecture. Hoekstra studied architectural history in Groningen, the Netherlands, and received her PhD in architectural history in 2005. Her publications include: Building versus Bildung, Manfredo Tafuri and the construction of a historical discipline (2005) and Lost in Translation? Tafuri on Germany, Tafuri in Germany, a history of reception (2008). Currently, her research interests focus on the status of criticality in architecture in relationship to the legacy of the Venice School and on genderstudies in architecture.
This paper deals with the modelling and the analysis of masonry vaults. Numerical FEM analyses are performed using LUSAS code. Two vault typologies are analysed (barrel and cross-ribbed vaults) parametrically varying geometrical proportions and constraints. The proposed model and the developed numerical procedure are implemented in a computer analysis. Numerical applications are developed to assess the model effectiveness and the efficiency of the numerical procedure. The main object of the present paper is the development of a computational procedure which allows to define 3D structural behaviour of masonry vaults. For each investigated example, the homogenized limit analysis approach has been employed to predict ultimate load and failure mechanisms. Finally, both a mesh dependence study and a sensitivity analysis are reported. Sensitivity analysis is conducted varying in a wide range mortar tensile strength and mortar friction angle with the aim of investigating the influence of the mechanical properties of joints on collapse load and failure mechanisms. The proposed computer model is validated by a comparison with experimental results available in the literature.
Using a quaternionic reformulation of the electrical impedance equation, we consider a two-dimensional separable-variables conductivity function and, posing two different techniques, we obtain a special class of Vekua equation, whose general solution can be approach by virtue of Taylor series in formal powers, for which is possible to introduce an explicit Bers generating sequence.
In this note, we describe quite explicitly the Howe duality for Hodge systems and connect it with the well-known facts of harmonic analysis and Clifford analysis. In Section 2, we recall briefly the Fisher decomposition and the Howe duality for harmonic analysis. In Section 3, the well-known fact that Clifford analysis is a real refinement of harmonic analysis is illustrated by the Fisher decomposition and the Howe duality for the space of spinor-valued polynomials in the Euclidean space under the so-called L-action. On the other hand, for Clifford algebra valued polynomials, we can consider another action, called in Clifford analysis the H-action. In the last section, we recall the Fisher decomposition for the H-action obtained recently. As in Clifford analysis the prominent role plays the Dirac equation in this case the basic set of equations is formed by the Hodge system. Moreover, analysis of Hodge systems can be viewed even as a refinement of Clifford analysis. In this note, we describe the Howe duality for the H-action. In particular, in Proposition 1, we recognize the Howe dual partner of the orthogonal group O(m) in this case as the Lie superalgebra sl(2 1). Furthermore, Theorem 2 gives the corresponding multiplicity free decomposition with an explicit description of irreducible pieces.
MULTI-SITE CONSTRUCTION PROJECT SCHEDULING CONSIDERING RESOURCE MOVING TIME IN DEVELOPING COUNTRIES
(2010)
Under the booming construction demands in developing countries, particularly in Vietnam situation, construction contractors often perform multiple concurrent projects in different places. In construction project scheduling processes, the existing scheduling methods often assume the resource moving time between activities/projects to be negligible. When multiple projects are deployed in different places and far from each other, this assumption has many shortcomings for properly modelling the real-world constraints. Especially, with respect to developing countries such as the Vietnam which contains transportation systems that are still in backward and low technical standards. This paper proposes a new algorithm named Multi-Site Construction Project Scheduling - MCOPS. The objective of this algorithm is to solve the problem of minimising multi-site construction project duration under limited available conditions of renewable resources (labour, machines and equipment) combining with the moving time of required resource among activities/projects. Additionally, in order to mitigate the impact of resource moving time into the multi-site project duration, this paper proposed a new priority rule: Minimum Resource Moving Time (MinRMT). The MinRMT is applied to rank the finished activities according to a priority order, to support the released resources to the scheduling activities. In order to investigate the impact of the resource moving time among activities during the scheduling process, computational experimentation was implemented. The results of the MCOPS-based computational experiments showed that, the resource moving time among projects has significantly impacted the multi-site project durations and this amount of time can not be ignored in the multi-site project scheduling process. Besides, the efficient application of the MinRMT is also demonstrated through the achieved results of the computational experiment in this paper. Though the efforts in this paper are based on the Vietnamese construction conditions, the proposed method can be usefully applied in other developing countries which have similar construction conditions.
The article presents analysis of stress distribution in the reinforced concrete support beam bracket which is a component of prefabricated reinforced concrete building. The building structure is spatial frame where dilatations were applied. The proper stiffness of its structure is provided by frames with stiff joints, monolithic lift shifts and staircases. The prefabricated slab floors are supported by beam shelves which are shaped as inverted letter ‘T’. Beams are supported by the column brackets. In order to lower the storey height and fulfill the architectural demands at the same time, the designer lowered the height of beam at the support zone. The analyzed case refers to the bracket zone where the slant crack. on the support beam bracket was observed. It could appear as a result of overcrossing of allowable tension stresses in reinforced concrete, in the bracket zone. It should be noted that the construction solution applied, i.e. concurrent support of the “undercut” beam on the column bracket causes local concentration of stresses in the undercut zone where the strongest transverse forces and tangent stresses occur concurrently. Some additional rectangular stresses being a result of placing the slab floors on the lower part of beam shelves sum up with those described above.
Euclidean Clifford analysis is a higher dimensional function theory offering a refinement of classical harmonic analysis. The theory is centered around the concept of monogenic functions, i.e. null solutions of a first order vector valued rotation invariant differential operator called the Dirac operator, which factorizes the Laplacian. More recently, Hermitean Clifford analysis has emerged as a new and successful branch of Clifford analysis, offering yet a refinement of the Euclidean case; it focusses on the simultaneous null solutions, called Hermitean (or h-) monogenic functions, of two Hermitean Dirac operators which are invariant under the action of the unitary group. In Euclidean Clifford analysis, the Clifford-Cauchy integral formula has proven to be a corner stone of the function theory, as is the case for the traditional Cauchy formula for holomorphic functions in the complex plane. Previously, a Hermitean Clifford-Cauchy integral formula has been established by means of a matrix approach. This formula reduces to the traditional Martinelli-Bochner formula for holomorphic functions of several complex variables when taking functions with values in an appropriate part of complex spinor space. This means that the theory of Hermitean monogenic functions should encompass also other results of several variable complex analysis as special cases. At present we will elaborate further on the obtained results and refine them, considering fundamental solutions, Borel-Pompeiu representations and the Teoderescu inversion, each of them being developed at different levels, including the global level, handling vector variables, vector differential operators and the Clifford geometric product as well as the blade level were variables and differential operators act by means of the dot and wedge products. A rich world of results reveals itself, indeed including well-known formulae from the theory of several complex variables.
Several results concerning the distribution of the headway of busses in the flow behind a traffic signal are presented. In the main focus of interest is the description of analytical models, which are verified by the results of Monte-Carlo-Methods. The advantage of analytical models (verified, but not derived by simulation methods) is their flexibility with respect to possible generalizations. For instance, several random distributions of the flow incoming to the traffic signal can be compared. The attention will be directed at the question, how the primary headway H (analyzed in front of the traffic signal) is mapped to the headway H’ analyzed behind of the traffic signal and how the random distribution of H is mapped to that of H’. For the traffic flow in front of the traffic signal several models will be discussed. The first case considers the situation, that busses operate on a common lane with the individual motor car traffic and the traffic flow is saturated. In the second situation, busses operate on a separated bus lane. Moreover, a mixed situation is discussed to model as close to reality as possible.
The application of partly decoupled approach by means of continuum mechanics facilitates the calculation of structural responses due to welding. The numerical results demonstrate the ability of a qualitative prediction of welded connections. As it is intended to integrate the local effects of a joint in structural analysis of steel constructions, it is necessary to meet higher approaches towards quality. The wide array of material parameters are presented, which are affecting the thermal, metallurgical and mechanical behavior, and which have to be identified. For that purpose further investigations are necessary to analyze the sensitivity of the models towards different material properties. The experimental determination of every material parameter is not possible due to the extraordinary laborious efforts needed. Besides that, experimentally identified parameters can be applied only for the tested steel quality for measured temperature-time regimes. For that reason alternative approaches for identification of material parameters, such as optimization strategies, have to be applied. After a definition of material parameters a quantitative prediction of welded connections will also be possible. Numerical results show the effect of phase transformation, activated by welding process, on residual stress state. As these phenomena occur in local areas in the range of crystal and grain sizes, the description of microscopic phenomena and their propagation on a macroscopic level due to approaches of homogenization might be expedient. Nevertheless, one should bear in mind, the increasing number of material parameters as well as the complexity of their experimental determination. Thus the microscopic approach should always be investigated under the scope of ability and efficiency of a required prediction. Under certain circumstances a step backwards, adopting a phenomenological approach, also can be beneficial.
Steel structural design is an integral part of the building construction process. So far, various methods of design have been applied in practice to satisfy the design requirements. This paper attempts to acquire the Differential Evolution Algorithms in automatization of specific synthesis and rationalization of design process. The capacity of the Differential Evolution Algorithms to deal with continuous and/or discrete optimization of steel structures is also demonstrated. The goal of this study is to propose an optimal design of steel frame structures using built-up I-sections and/or a combination of standard hot-rolled profiles. All optimized steel frame structures in this paper generated optimization solutions better than the original solution designed by the manufacturer. Taking the criteria regarding the quality and efficiency of the practical design into consideration, the produced optimal design with the Differential Evolution Algorithms can completely replace conventional design because of its excellent performance.
CRITICAL STRESS ASSESSMENT IN ANGLE TO GUSSET PLATE BOLTED CONNECTION BY SIMPLIFIED FEM MODELLING
(2010)
Simplified modelling of friction grip bolted connections of steel member – to – gusset plate is often applied in engineering practise. The paper deals with the simplification of pre-tensioned bolt model and simplification of load transfer within connection. Influence on normal strain (and thus stress) distribution at critical cross-section is investigated. Laboratory testing of single-angle or double-angle members – to – gusset plates bolted connections were taken as basis for numerical analysis. FE models were created using 1D and 2D elements. Angles and gusset plates were modelled with shell elements. Two methods of modelling of friction grip bolting were considered: bolt-regarding approach with 1D element systems modelling bolts and two variants of bolt-disregarding approach with special constraints over some part of member and gusset plate surfaces in contact: a) constraints over whole area of contact, b) constraints over the area around each bolt shank (“partially tied”). Modelling of friction grip bolted connections using simplified bolt modelling may be effective, especially in the case of analysis concerning elastic range only. In such a case disregarding bolts and replacing them with “partially tied” modelling seems to be more attractive. It is less time-consuming and provides results of similar accuracy in comparison to analysis utilizing simplified bolt modelling.
Within the scheduling of construction projects, different, partly conflicting objectives have to be considered. The specification of an efficient construction schedule is a challenging task, which leads to a NP-hard multi-criteria optimization problem. In the past decades, so-called metaheuristics have been developed for scheduling problems to find near-optimal solutions in reasonable time. This paper presents a Simulated Annealing concept to determine near-optimal construction schedules. Simulated Annealing is a well-known metaheuristic optimization approach for solving complex combinatorial problems. To enable dealing with several optimization objectives the Pareto optimization concept is applied. Thus, the optimization result is a set of Pareto-optimal schedules, which can be analyzed for selecting exactly one practicable and reasonable schedule. A flexible constraint-based simulation approach is used to generate possible neighboring solutions very quickly during the optimization process. The essential aspects of the developed Pareto Simulated Annealing concept are presented in detail.
Nonlinear analyses are characterised by approximations of the fundamental equations in different quality. Starting with a general description of nonlinear finite element formulation the fundamental equations are derived for plane truss elements. Special emphasis is placed on the determination of internal and external system energy as well as influence of different quality approaches for the displacement-strain relationship on solution quality. To simplify the solution procedure the nonlinear function describing the kinematics is expanded into a Taylor series and truncated after the n-th series term. The different kinematics influence speed of convergence as well as exactness of solution. On a simple truss structure this influence is shown. To assess the quality of different formulations concerning the nonlinear kinematic equation three approaches are discussed. First the overall internal and external energy is compared for different kinematical models. In a second step the energy content related to single terms describing displacement-strain relationship is investigated and used for quality control following two different paths. Based on single ε-terms an adaptive scheme is used to change the kinematical model depending on increasing nonlinearity of the structure. The solution quality has turned out satisfactory compared to the exact result. More detailed investigations are necessary to find criteria for the threshold values for the iterative process as well as for decision on number and step size of incremental load steps.
The application of a recent method using formal power series is proposed. It is based on a new representation for solutions of Sturm-Liouville equations. This method is used to calculate the transmittance and reflectance coefficients of finite inhomogeneous layers with high accuracy and efficiency. Tailoring the refraction index profile defining the inhomogeneous media it is possible to develop very important applications such as optical filters. A number of profiles were evaluated and then some of them selected in order to perform an improvement of their characteristics via the modification of their profiles.
MICROPLANE MODEL WITH INITIAL AND DAMAGE-INDUCED ANISOTROPY APPLIED TO TEXTILE-REINFORCED CONCRETE
(2010)
The presented material model reproduces the anisotropic characteristics of textile reinforced concrete in a smeared manner. This includes both the initial anisotropy introduced by the textile reinforcement, as well as the anisotropic damage evolution reflecting fine patterns of crack bridges. The model is based on the microplane approach. The direction-dependent representation of the material structure into oriented microplanes provides a flexible way to introduce the initial anisotropy. The microplanes oriented in a yarn direction are associated with modified damage laws that reflect the tension-stiffening effect due to the multiple cracking of the matrix along the yarn.
Building information modeling offers a huge potential for increasing the productivity and quality of construction planning processes. Despite its promising concept, this approach has not found widespread use. One of the reasons is the insufficient coupling of the structural models with the general building model. Instead, structural engineers usually set up a structural model that is independent from the building model and consists of mechanical models of reduced dimension. An automatic model generation, which would be valuable in case of model revisions is therefore not possible. This can be overcome by a volumetric formulation of the problem. A recent approach employed the p-version of the finite element method to this problem. This method, in conjunction with a volumetric formulation is suited to simulate the structural behaviour of both „thick“ solid bodies and thin-walled structures. However, there remains a notable discretization error in the numerical models. This paper therefore proposes a new approach for overcoming this situation. It sugggests the combination of the Isogeometric analysis together with the volumetric models in order to integrate the structural design into the digital, building model-centered planning process and reduce the discretization error. The concept of the isogeometric analysis consists, roughly, in the application of NURBS functions to represent the geometry and the shape functions of the elements. These functions possess some beneficial properties regarding numerical simulation. Their use, however, leads to some intricacies related to the setup of the stiffness matrix. This paper describes some of these properties.
In this paper we present an inverse method which is capable of identifying system components in a hydro-mechanically coupled system, i.e. for fluid flow in porous media. As an example we regard water dams that were constructed more than hundred years ago but which are still in use. Over the time ageing processes have changed the condition of these dams. Within the dams fissures might have grown. The proposed method is designed to locate these fissures out of combined mechanical and hydraulic measurements. In a numerical example the fissures or damaged zones are described by a smeared crack model. The task is now to identify simultaneously the spatial distribution of Young’s modulus and the hydraulic permeability due to the fact, that in regions where damages are present, the mechanical stiffness of the system is reduced and the permeability increased. The inversion is shown to be an ill-posed problem. As a consequence regularizing methods have to be applied, where the nonlinear Landweber method (a gradient type method combined with a discrepancy principle) has proven to be an efficient choice.
Planning and construction processes are characterized by the peculiarity that they need to be designed individually for each project. It is necessary to set up an individual schedule for each project. As a basis for a new project, schedules from already finished projects are used, but adaptions are always necessary. In practice, scheduling tools only document a process. Schedules cover a set of activities, their duration and a set of interdependencies between activities. The design of a process is up to the user. It is not necessary to specify each interdependency, and completeness and correctness need to be checked manually. No methodologies are available to guarantee properties such as correctness or completeness. The considerations presented in the paper are based on an approach where a planning and a construction process including the interdependencies between planning and construction activities are regarded as a result. Selected information need to be specified by a user, and a proposal for an order of planning and construction activities is computed. As a consequence, process properties such as correctness and completeness can be guaranteed with respect to user input. Especially in Germany, clients are allowed to modify their requirements at any time. This leads to modifications in the planning and construction processes. This paper covers a mathematical formulation for this problem based on set theory. A complex structure is set up covering objects and relations; and operations are defined that guarantee consistency in the underlying and versioned process description. The presented considerations are based on previous work. This paper can be regarded as the next step in a series of previous work describing how a suitable concept for handling, planning and construction processes in civil engineering can be formed.
The uncertainty existing in the construction industry is bigger than in other industries. Consequently, most construction projects do not go totally as planned. The project management plan needs therefore to be adapted repeatedly within the project lifecycle to suit the actual project conditions. Generally, the risks of change in the project management plan are difficult to be identified in advance, especially if these risks are caused by unexpected events such as human errors or changes in the client preferences. The knowledge acquired from different resources is essential to identify the probable deviations as well as to find proper solutions to the faced change risks. Hence, it is necessary to have a knowledge base that contains known solutions for the common exceptional cases that may cause changes in each construction domain. The ongoing research work presented in this paper uses the process modeling technique of Event-driven Process Chains to describe different patterns of structure changes in the schedule networks. This results in several so called “change templates”. Under each template different types of change risk/ response pairs can be categorized and stored in a knowledge base. This knowledge base is described as an ontology model populated with reference construction process data. The implementation of the developed approach can be seen as an iterative scheduling cycle that will be repeated within the project lifecycle as new change risks surface. This can help to check the availability of ready solutions in the knowledge base for the situation at hand. Moreover, if the solution is adopted, CPSP, “Change Project Schedule Plan „a prototype developed for the purpose of this research work, will be used to make the needed structure changes of the schedule network automatically based on the change template. What-If scenarios can be implemented using the CPSP prototype in the planning phase to study the effect of specific situations without endangering the success of the project objectives. Hence, better designed and more maintainable project schedules can be achieved.
By the use of numerical methods and the rapid development of computer technology in the recent years, a large variety, complexity, refinement and capability of partial models have been achieved. This can be noticed in the evaluation of the reliability of structures, e.g. the increased use of spatial structural systems. For the different fields of civil engineering, well developed partial models already exist. Because these partial models are most often used separately, the general view is not entirely illustrated. Until now, there has been no common methodology for evaluating the efficiency of models; the trust in the prediction of a special engineering model has generally relied on the engineer’s experience. In this paper the basics of evaluation of simple models and coupled partial models of frame structures will be discussed using sustainable numerical methods. Furthermore, quality classes (levels) of design tasks will be defined based on their practical relevance. In addition, analysis methods will be systemized. After analysis of different published assessment methods, it may be noted, that the Efficiency Indicator Method (EWM) is most suitable for the observed evaluation problem. Therefore, the EWM was modified to the Model Efficiency Analysis (MEA) for the purpose of a holistic evaluation. The criteria are characterized by two groups, benefit and expenditure, and it is possible by calculating the quotient (benefit/expenditure) to make a statement about the efficiency of the observed models. Presently, the expenditure value is not a subject of investigation, and so the model efficiency is calculated only by the benefit value. This paper also contains the associated criteria catalog, different normalization methods, as well as weighting possibilities.
Die Planung von komplexen Bauwerken erfolgt zunehmend mit Planungswerkzeugen, die den Export von Bauwerksinformationen im STEP-Format auf Grundlage der IFC (Industry Foundation Classes) erlauben. Durch die Verfügbarkeit dieser Schnittstelle ist es möglich, Bauwerksinformationen für die weiterführende Verarbeitung zu verwenden. Zur Visualisierung der geometrischen Daten stehen innerhalb der IFC verschiedene geometrische Modelle für die Darstellung von Bauteilen zur Verfügung. Unter anderem werden für das „Ausschneiden“ von Öffnungen aus Bauteilen (z.B. für Fenster und Türen) geometrische boolesche Operationen benötigt.
Gegenstand des Beitrags ist die Vorstellung eines Algorithmus zur Berechnung von booleschen Operationen auf Basis eines triangulierten B-Rep (Boundary Representation) Modells nach HUBBARD (1990). Da innerhalb von IFC-Gebäudemodellen Bauteile oft das Resultat mehrerer boolescher Operationen sind (z.B. um mehrere Fensteröffnungen von einer gegebenen Wand abzuziehen), wurde der Algorithmus von Hubbard angepasst, sodass mehrere boolesche Operationen gleichzeitig berechnet werden können. Durch diese Optimierung wird eine deutliche Reduzierung der benötigten Berechnungen und somit der Rechenzeit erreicht.
We present recent developments of adaptive wavelet solvers for elliptic eigenvalue problems. We describe the underlying abstract iteration scheme of the preconditioned perturbed iteration. We apply the iteration to a simple model problem in order to identify the main ideas which a numerical realization of the abstract scheme is based upon. This indicates how these concepts carry over to wavelet discretizations. Finally we present numerical results for the Poisson eigenvalue problem on an L-shaped domain.
The evident advances of the computational power of the digital computers enable the modeling of the total system of structures. Such modeling demands compatible representations of the couplings of different structural subsystems. Therefore, models of dynamic interaction between the vehicle and the bridge and models of a bridge bearing, a coupling element between the bridge's superstructure and substructure, are of interest and discussed within this paper. The vehicle-bridge interaction may be described as a function connecting two sets of behavior. In this case, the coupling is embodied by mutual parameters that affect both systems, such as the frequency content of the bridge and the vehicle. Whereas the bridge bearings are elements used specifically to couple, in such elements the deformation and the transferred loads are used in characterizing the coupling The nature of these couplings and their influence on the bridge response is different. However, the need to assess the amount of dynamic response transferred by or within these couplings is a common argument.
The changed global security situation in the last eight years has shown the importance of emergency management plans in public buildings. Therefore, the use of computer simulators for surveying fire safety design and evacuation process is increasing. The aim of these simulators is to have more realistic evacuation simulations. The challenge is, firstly, to realize the virtual simulation environment based on geometrical and material boundary conditions, secondly, to considerate the mutual interaction effects between different parameters and, finally, to have a realistic visualization of the simulated results. In order to carry out this task, an especial new software method on a BIM-platform has to be developed which can integrate all required simulations and will be able to have an immersive output BIM ISEE (Immersive Safety Engineering Environment). The new BIM-ISEE will integrate the Fire Dynamics Simulator (FDS) for fire and evacuation simulation in the Autodesk Revit which is a BIM-platform and will represent the simulation results in the immersive virtual environment at the institute (CES-Lab). With BIM-ISEE the fire safety engineer will be able to obtain more realistic visualizations in the immersive environment, to modify his concept more effectively, to evaluate the simulation results more accurately and to visualize the various simulation results. It can also give the rescue staff the opportunity to perform and evaluate emergency evacuation trainings.
Information technology plays a key role in the everyday operation of buildings and campuses. Many proprietary technologies and methodologies can assist in effective Building Performance Monitoring (BPM) and efficient managing of building resources. The integration of related tools like energy simulator packages, facility, energy and building management systems, and enterprise resource planning systems is of benefit to BPM. However, the complexity to integrating such domain specific systems prevents their common usage. Service Oriented Architecture (SOA) has been deployed successfully in many large multinational companies to create integrated and flexible software systems, but so far this methodology has not been applied broadly to the field of BPM. This paper envisions that SOA provides an effective integration framework for BPM. Service oriented architecture for the ITOBO framework for sustainable and optimised building operation is proposed and an implementation for a building performance monitoring system is introduced.