Th`ese de Doctorat de l'université Paris VI Pierre et Marie Curie Mlle ...
Th`ese de Doctorat de l'université Paris VI Pierre et Marie Curie Mlle ...
Th`ese de Doctorat de l'université Paris VI Pierre et Marie Curie Mlle ...
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high n<strong>et</strong>work loads, where it achieves almost 18% higher revenue than IDBA.<br />
S1<br />
S2<br />
S5<br />
S6<br />
S9<br />
S10<br />
S3<br />
S4<br />
S7<br />
S8<br />
S11<br />
S12<br />
1<br />
6 Mb/s<br />
6 Mb/s<br />
4 Mb/s<br />
3 5<br />
D1<br />
D3<br />
D6<br />
D8<br />
6 Mb/s<br />
6 Mb/s<br />
4 Mb/s 4 Mb/s<br />
2 4 6<br />
7<br />
8<br />
D2 D4<br />
D9<br />
D11<br />
D5 D7<br />
D10<br />
D12<br />
Figure 7.17: N<strong>et</strong>work topology with multiple bottleneck links<br />
Table 7.2: Peak rate, subscribed rate, utility function and path for the connections in the n<strong>et</strong>work<br />
scenario of Figure 7.17<br />
Connection Peak Rate Subscribed Rate Utility Function Path<br />
(kb/s) (kb/s)<br />
1 40 100 0.5log(1+x) 1-3-5<br />
2 40 100 0.5log(1+x) 1-3-4-6-7<br />
3 40 100 0.5log(1+x) 2-4-3-5<br />
4 40 100 0.5log(1+x) 2-4-6-7<br />
5 500 300 0.5log(1+x) 1-3-4-6-8<br />
6 500 300 0.5log(1+x) 1-3-5<br />
7 500 300 0.5log(1+x) 2-4-6-8<br />
8 500 300 0.5log(1+x) 2-4-3-5<br />
9 1000 300 1.5log(1+x) 1-3-4-6-7<br />
10 1000 300 1.5log(1+x) 1-3-4-6-8<br />
11 1000 300 1.5log(1+x) 2-4-6-7<br />
12 1000 300 1.5log(1+x) 2-4-6-8<br />
7.2.4 Complex Core N<strong>et</strong>work Scenario<br />
Finally, we consi<strong>de</strong>red the n<strong>et</strong>work topology proposed in [14] and illustrated in Figure 7.20.<br />
This n<strong>et</strong>work scenario is more complex than the previous ones and it allows to test our<br />
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