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OpenIDE-Module-Display-Category=Plugin
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OpenIDE-Module-Name=Complex Generator Plugin UI
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BarabasiAlbertPanel.constraintsLabel.text=<html>\nN > 0<br>\nm0 > 0<br>\nm0 < N<br>\nM > 0<br>\nM <= m0\n</html>
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BarabasiAlbertPanel.NLabel.text=N \u2013 number of nodes in generated network:
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BarabasiAlbertPanel.NField.text=
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BarabasiAlbertPanel.m0Label.text=m0 \u2013 number of nodes at the start time:
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BarabasiAlbertPanel.m0Field.text=
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BarabasiAlbertPanel.MLabel.text=M \u2013 number of edges coming with every new node:
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BarabasiAlbertPanel.MField.text=
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BarabasiAlbertGeneralizedPanel.MLabel.text=M \u2013 number of edges to add, rewire or coming with a node in every step:
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BarabasiAlbertGeneralizedPanel.NField.text=
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BarabasiAlbertGeneralizedPanel.MField.text=
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BarabasiAlbertGeneralizedPanel.NLabel.text=N \u2013 number of the algorithm's steps:
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BarabasiAlbertGeneralizedPanel.m0Field.text=
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BarabasiAlbertGeneralizedPanel.constraintsLabel.text=<html>\nN > 0<br>\nm0 > 0<br>\nM > 0<br>\nM <= m0<br>\n0 <= p < 1<br>\n0 <= q < 1 - p\n</html>
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BarabasiAlbertGeneralizedPanel.m0Label.text=m0 \u2013 number of isolated nodes at the start time:
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BarabasiAlbertGeneralizedPanel.pLabel.text=p \u2013 probability of adding new edges:
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BarabasiAlbertGeneralizedPanel.pField.text=
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BarabasiAlbertGeneralizedPanel.qLabel.text=q \u2013 probability of rewiring existing edges:
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BarabasiAlbertGeneralizedPanel.qField.text=
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BarabasiAlbertSimplifiedAPanel.MField.text=
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BarabasiAlbertSimplifiedAPanel.m0Field.text=
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BarabasiAlbertSimplifiedAPanel.NField.text=
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BarabasiAlbertSimplifiedAPanel.m0Label.text=m0 \u2013 number of nodes at the start time:
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BarabasiAlbertSimplifiedAPanel.NLabel.text=N \u2013 number of nodes in generated network:
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BarabasiAlbertSimplifiedAPanel.constraintsLabel.text=<html>\nN > 0<br>\nm0 > 0<br>\nm0 < N<br>\nM > 0<br>\nM <= m0\n</html>
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BarabasiAlbertSimplifiedAPanel.MLabel.text=M \u2013 number of edges coming with every new node:
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BarabasiAlbertSimplifiedBPanel.NField.text=
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BarabasiAlbertSimplifiedBPanel.MField.text=
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BarabasiAlbertSimplifiedBPanel.MLabel.text=M \u2013 number of edges in generated network:
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BarabasiAlbertSimplifiedBPanel.constraintsLabel.text=<html>\nN > 0<br>\nM > 0<br>\nM <= N * (N - 1) / 2<br>\n</html>
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BarabasiAlbertSimplifiedBPanel.NLabel.text=N \u2013 number of nodes in generated network:
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ErdosRenyiGnpPanel.constraintsLabel.text=<html>\nn > 0<br>\n0 <= p <= 1<br>\n</html>
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ErdosRenyiGnpPanel.nLabel.text=n \u2013 number of nodes in generated network:
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ErdosRenyiGnpPanel.nField.text=
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ErdosRenyiGnpPanel.pLabel.text=p \u2013 probability of edge existence between all pairs of nodes:
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ErdosRenyiGnpPanel.pField.text=
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ErdosRenyiGnmPanel.nField.text=
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ErdosRenyiGnmPanel.constraintsLabel.text=<html>\nn > 0<br>\nm >= 0<br>\nm <= n * (n - 1) / 2\n</html>
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ErdosRenyiGnmPanel.nLabel.text=n \u2013 number of nodes in generated network:
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ErdosRenyiGnmPanel.mLabel.text=m \u2013 number of edges in generated network:
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ErdosRenyiGnmPanel.mField.text=
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KleinbergPanel.constraintsLabel.text=<html>\nn >= 2<br>\np >= 1<br>\np <= 2n - 2<br>\nq >= 0<br>\nq <= n^2 - p * (p + 3) / 2 - 1 for p < n<br>\nq <= (2n - p - 3) * (2n - p) / 2 + 1 for p >= n<br>\nr >= 0\n</html>
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KleinbergPanel.nLabel.text=n \u2013 size of a lattice:
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KleinbergPanel.nField.text=
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KleinbergPanel.pLabel.text=p - lattice distance to local contacs:
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KleinbergPanel.pField.text=
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KleinbergPanel.qLabel.text=q - long-range contacs:
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KleinbergPanel.qField.text=
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KleinbergPanel.rLabel.text=r \u2013 clustering exponent:
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KleinbergPanel.rField.text=
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OpenIDE-Module-Short-Description=Scientific generators UI
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WattsStrogatzBetaPanel.constraintsLabel.text=<html>\nN > K >= ln(N) >= 1<br>\nK is even<br>\n0 <= beta <= 1\n</html>
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WattsStrogatzBetaPanel.NField.text=
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WattsStrogatzBetaPanel.NLabel.text=N \u2013 the desired number of nodes:
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WattsStrogatzBetaPanel.KLabel.text=K \u2013 the number of edges connected to each node:
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WattsStrogatzBetaPanel.KField.text=
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WattsStrogatzBetaPanel.betaLabel.text=beta - the probability of an edge being rewired randomly:
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WattsStrogatzBetaPanel.betaField.text=
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WattsStrogatzAlphaPanel.constraintsLabel.text=<html>\nn > k > 0<br>\n0 <= alpha\n</html>
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WattsStrogatzAlphaPanel.nLabel.text=n \u2013 the desired number of nodes:
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WattsStrogatzAlphaPanel.nField.text=
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WattsStrogatzAlphaPanel.kLabel.text=k \u2013 the average degree of the graph:
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WattsStrogatzAlphaPanel.kField.text=
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WattsStrogatzAlphaPanel.alphaLabel.text=alpha - a tunable parameter:
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WattsStrogatzAlphaPanel.alphaField.text=
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BalancedTreePanel.constraintsLabel.text=<html>\nr >= 2<br>\nh >= 1\n</html>
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BalancedTreePanel.rLabel.text=r - a degree of the root:
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BalancedTreePanel.rField.text=
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BalancedTreePanel.hLabel.text=h - a height of the tree:
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BalancedTreePanel.hField.text=
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KleinbergPanel.torusCheckBox.text=torus based