Colored scatter plots represent 2D projections of the Pareto front approximation for the 5D-MO-ED scenario, the 3D-MO-ED Pareto front is shown in black. Design costs are color-coded. For comparability, all criterion values are normalized to [0,1]. Complete Pareto fronts are provided in S1 Data.</p
<p>Flux response (<i>f<sub>1</sub></i>) vs. cost (<i>f<sub>2</sub></i>), for the eight courses. The ...
<p>Illustration of Pareto fronts obtained by the complete enumeration with different values of .</p
<p>The effectiveness (a) and economy (b) contours radiate outwards from the archetypes, which have t...
<p>(A) The different panels are views of the Pareto front when rotated around the relevance-axis (wi...
Yellow dots represent all shading variants simulated in the general optimisation study, while green ...
Pareto frontiers connect lower left and upper right corners of the boxes (see also the Pareto fronts...
<p>The bold symbols correspond to a subset of five optimal phenotypes that are shown on the figures ...
<p>(A) Pareto front of our model (open blue circles) and Thornley’s one (open red triangles). The fi...
In all subfigures red lines are contours of noise performance function, blue lines are contours of f...
© 2017 Solving a multi-objective optimization problem yields an infinite set of points in which no o...
<p>A) Solved Pareto front for the Core network, showing the 3-D front (left) and projections (right ...
Each point represents a cell (or other spatial unit) being ranked. The first criterion is plotted on...
The attached files are the true PFs for two randomly generated small-sized instances, i.e., SI_1 and...
Top: Chord diagrams relate tracer compositions with D-criterion values and costs by showing an overl...
<p>(a) Pareto optimization unconstrained to the available resources. Red points represent the subopt...
<p>Flux response (<i>f<sub>1</sub></i>) vs. cost (<i>f<sub>2</sub></i>), for the eight courses. The ...
<p>Illustration of Pareto fronts obtained by the complete enumeration with different values of .</p
<p>The effectiveness (a) and economy (b) contours radiate outwards from the archetypes, which have t...
<p>(A) The different panels are views of the Pareto front when rotated around the relevance-axis (wi...
Yellow dots represent all shading variants simulated in the general optimisation study, while green ...
Pareto frontiers connect lower left and upper right corners of the boxes (see also the Pareto fronts...
<p>The bold symbols correspond to a subset of five optimal phenotypes that are shown on the figures ...
<p>(A) Pareto front of our model (open blue circles) and Thornley’s one (open red triangles). The fi...
In all subfigures red lines are contours of noise performance function, blue lines are contours of f...
© 2017 Solving a multi-objective optimization problem yields an infinite set of points in which no o...
<p>A) Solved Pareto front for the Core network, showing the 3-D front (left) and projections (right ...
Each point represents a cell (or other spatial unit) being ranked. The first criterion is plotted on...
The attached files are the true PFs for two randomly generated small-sized instances, i.e., SI_1 and...
Top: Chord diagrams relate tracer compositions with D-criterion values and costs by showing an overl...
<p>(a) Pareto optimization unconstrained to the available resources. Red points represent the subopt...
<p>Flux response (<i>f<sub>1</sub></i>) vs. cost (<i>f<sub>2</sub></i>), for the eight courses. The ...
<p>Illustration of Pareto fronts obtained by the complete enumeration with different values of .</p
<p>The effectiveness (a) and economy (b) contours radiate outwards from the archetypes, which have t...