Add to ORKGPracticing structural engineers may be familiar with the main principles of structural reliability but may not necessarily be experts in using such methods. This may lead to a lack in understanding the effect of uncertainties on the ensuing structural safety and to sub-optimization of more traditional structural engineering aspects. The aim of the current paper is to highlight the importance of considering risks and uncertainties in design and to improve the awareness of practicing engineers to such considerations. The importance of a consistent treatment of uncertainties in structural engineering is brought to attention with focus on the modelling approaches which often underlie decisions. Different aspects discussed are: decision making i...
Modern structural reliability analysis is concerned with the uncertainty that affects structural saf...
Engineering decisions are made under substantial uncertainty about current and future system cost an...
In the context of structural design, risk optimization allows one to find a proper point of balance ...
Many decisions in the everyday work of the structural engineer are taken under the influence of unce...
This paper considers the role of structural reliability theory in the wider context of (i) achieving...
Actual load, material characteristics and other quantities often differ from the design values. This...
Structural analysis and design has to be performed by considering uncertainties both in loading and ...
It is known that human errors are the cause of most structural failures. Extreme loads or material d...
The problem of how to manage uncertainties when modeling or designing an engineering structure is br...
This article discusses the role of structural reliability theory in the wider context of structural ...
In the contemporary world of engineering, engineers strive towards designing reliable and robust art...
It has been recognized for some time that for the realistic analysis of engineering systems it is ne...
ABSTRACT: Engineering decisions are invariably made under substantial uncertainty about current and ...
ii Structural systems are subject to inherent uncertainties due to the variability in many hard-to-c...
Structural reliability methods (FORM/SORM, Simulation methods, etc.) allow us to account for the unc...
Modern structural reliability analysis is concerned with the uncertainty that affects structural saf...
Engineering decisions are made under substantial uncertainty about current and future system cost an...
In the context of structural design, risk optimization allows one to find a proper point of balance ...
Many decisions in the everyday work of the structural engineer are taken under the influence of unce...
This paper considers the role of structural reliability theory in the wider context of (i) achieving...
Actual load, material characteristics and other quantities often differ from the design values. This...
Structural analysis and design has to be performed by considering uncertainties both in loading and ...
It is known that human errors are the cause of most structural failures. Extreme loads or material d...
The problem of how to manage uncertainties when modeling or designing an engineering structure is br...
This article discusses the role of structural reliability theory in the wider context of structural ...
In the contemporary world of engineering, engineers strive towards designing reliable and robust art...
It has been recognized for some time that for the realistic analysis of engineering systems it is ne...
ABSTRACT: Engineering decisions are invariably made under substantial uncertainty about current and ...
ii Structural systems are subject to inherent uncertainties due to the variability in many hard-to-c...
Structural reliability methods (FORM/SORM, Simulation methods, etc.) allow us to account for the unc...
Modern structural reliability analysis is concerned with the uncertainty that affects structural saf...
Engineering decisions are made under substantial uncertainty about current and future system cost an...
In the context of structural design, risk optimization allows one to find a proper point of balance ...