1.
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Brož, P.
Stochastic theory for fracture of concrete materials is applied. The fracture process can be described not only under monotonically increasing load but also under time-de [...]
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2.
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Rohan, E.
The paper deals with the method of interpolation of the homogenized effective material parameters which are computed by solving local microscopic boundary value problems. [...]
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3.
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Skrzypczyk, J.
In this paper we study the generalized eigenvalue problem Ax=λBx for matrices with II-order perturbations with use of perturbation numbers. Such general formulation appe [...]
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4.
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Methodologies for indicators selection and benchmarking are paramount to present strategies for achieving sustainability in the construction industry. Life cycle-based st [...]
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5.
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Lepš, M.
This paper presents a discrete optimization of reinforced concrete structures based on an efficient combination of deterministic and stochastic optimization strategies. T [...]
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6.
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This paper presents discrete optimization of reinforced concrete structures based on an efficient combination of deterministic and stochastic optimization strategies. The [...]
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7.
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In the paper, we present a fuzzy-oriented methodology to model structural and loading uncertainties in elastostatics and potential problems within a Boundary Element Meth [...]
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8.
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Omishore, A.
The verification of the design reliability of a steel element according to the concepts of standards EUROCODE 3 and EN1990 is presented in the article. Reliability analys [...]
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9.
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Oberguggenberger, M.
Understanding the effects of model and parameter uncertainty in engineering systems has become a major theme in the past decades. Many mathematical approaches have been d [...]
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10.
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In this paper, an approach to dynamic analysis based on the fuzzy set theory is presented as a alternative to the classical stochastic dynamic analysis. The material para [...]
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