Final report on link level and system level channel models - Winner
Final report on link level and system level channel models - Winner
Final report on link level and system level channel models - Winner
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WINNER D5.4 v. 1.4<br />
a<br />
Figure 5.52: a) Distributi<strong>on</strong>s of the path delays for the different sub-scenarios.<br />
b<br />
5.4.9.2 Scenario B1<br />
Figure 5.53 shows the empirical probability density functi<strong>on</strong> of the differential delays of the ZDSCs in<br />
LOS <strong>and</strong> NLOS cases. It can be seen that the distributi<strong>on</strong> of ZDSC delays follows exp<strong>on</strong>ential shape for<br />
LOS case <strong>and</strong> follows uniform distributi<strong>on</strong> shape in NLOS up to about 400 ns <strong>and</strong> after 400 ns it has<br />
exp<strong>on</strong>ential shape.<br />
(a) LOS<br />
(b) NLOS<br />
Figure 5.53: Empirical probability density functi<strong>on</strong>s of the ZDSC delays.<br />
5.4.9.3 Scenario B3<br />
In Figure 5.54 distributi<strong>on</strong>s of the ZDSC delays for the scenario B3 for LOS <strong>and</strong> NLOS envir<strong>on</strong>ments are<br />
presented. As expected, in NLOS case probability of ZDSC with higher delays is higher as in the LOS<br />
case.<br />
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