The task is to determine trade-off designs that constitute the Pareto front (blue cycles, dashed blue line) in the objective space. The Pareto front trades-off information-rich, economic designs from sub-optimal, dominated solutions (orange squares, gray area). All solutions located on the Pareto front are considered to be equally good solutions of the MO-ED task.</p
<p>The effectiveness (a) and economy (b) contours radiate outwards from the archetypes, which have t...
International audienceDesign space exploration, that is an embodiment of a paradigm Design by Shoppi...
Purpose – This paper seeks to describe an approach to multi-objective optimization problems (MOOPs)...
This electronic version was submitted by the student author. The certified thesis is available in th...
[EN] New challenges in engineering design lead to multiobjective (multicriteria) problems. In this c...
Yellow dots represent all shading variants simulated in the general optimisation study, while green ...
As engineering systems grow in complexity, the teams that design them require increasingly disparate...
A: Chord diagram linking designs and objective (circular node elements) by inlying chords, here for ...
Performing an experimental design prior to the collection of data is in most circumstances important...
Engineering design problems often occur as multi-objective optimization problems related to the Pare...
International audienceReliability-based and risk-informed design, operation, maintenance and regulat...
<p>The bold symbols correspond to a subset of five optimal phenotypes that are shown on the figures ...
Reliability-based design, operation and maintenance of multi-state systems lead to multiobjective (m...
<p>Schematic representation of the design of experiments A, B and C (minimum competition) and D (dir...
Identifying performance trade-offs between various designs given a set of independent variables that...
<p>The effectiveness (a) and economy (b) contours radiate outwards from the archetypes, which have t...
International audienceDesign space exploration, that is an embodiment of a paradigm Design by Shoppi...
Purpose – This paper seeks to describe an approach to multi-objective optimization problems (MOOPs)...
This electronic version was submitted by the student author. The certified thesis is available in th...
[EN] New challenges in engineering design lead to multiobjective (multicriteria) problems. In this c...
Yellow dots represent all shading variants simulated in the general optimisation study, while green ...
As engineering systems grow in complexity, the teams that design them require increasingly disparate...
A: Chord diagram linking designs and objective (circular node elements) by inlying chords, here for ...
Performing an experimental design prior to the collection of data is in most circumstances important...
Engineering design problems often occur as multi-objective optimization problems related to the Pare...
International audienceReliability-based and risk-informed design, operation, maintenance and regulat...
<p>The bold symbols correspond to a subset of five optimal phenotypes that are shown on the figures ...
Reliability-based design, operation and maintenance of multi-state systems lead to multiobjective (m...
<p>Schematic representation of the design of experiments A, B and C (minimum competition) and D (dir...
Identifying performance trade-offs between various designs given a set of independent variables that...
<p>The effectiveness (a) and economy (b) contours radiate outwards from the archetypes, which have t...
International audienceDesign space exploration, that is an embodiment of a paradigm Design by Shoppi...
Purpose – This paper seeks to describe an approach to multi-objective optimization problems (MOOPs)...