fix TeX formulas after doxygen change ns-3.11-RC1
authorVedran Mileti? <rivanvx@gmail.com>
Sun, 15 May 2011 09:40:43 -0400
changeset 7207440bbee145f0
parent 7206 a6da68275fa9
child 7208 0be956c9cb65
fix TeX formulas after doxygen change
src/propagation/model/jakes-propagation-loss-model.h
src/propagation/model/propagation-loss-model.h
     1.1 --- a/src/propagation/model/jakes-propagation-loss-model.h	Sun May 15 09:28:09 2011 -0400
     1.2 +++ b/src/propagation/model/jakes-propagation-loss-model.h	Sun May 15 09:40:43 2011 -0400
     1.3 @@ -41,22 +41,22 @@
     1.4   * \f[ u_s(t) = \frac{2}{\sqrt{N}}\sum_{n=0}^{M}b_n\cos(\omega_n t+\phi_n)\f]
     1.5   * where
     1.6   * \f[ a_n=\left \{ \begin{array}{ll}
     1.7 - * \sqrt{2}\cos\beta_0 & n=0 \ \
     1.8 + * \sqrt{2}\cos\beta_0 & n=0 \\
     1.9   * 2\cos\beta_n & n=1,2,\ldots,M
    1.10   * \end{array}
    1.11   * \right .\f]
    1.12   * \f[ b_n=\left \{ \begin{array}{ll}
    1.13 - * \sqrt{2}\sin\beta_0 & n=0 \ \
    1.14 + * \sqrt{2}\sin\beta_0 & n=0 \\
    1.15   * 2\sin\beta_n & n=1,2,\ldots,M
    1.16   * \end{array}
    1.17   * \right .\f]
    1.18   * \f[ \beta_n=\left \{ \begin{array}{ll}
    1.19 - * \frac{\pi}{4} & n=0 \ \
    1.20 + * \frac{\pi}{4} & n=0 \\
    1.21   * \frac{\pi n}{M} & n=1,2,\ldots,M
    1.22   * \end{array}
    1.23   * \right .\f]
    1.24   * \f[ \omega_n=\left \{ \begin{array}{ll}
    1.25 - * 2\pi f_d & n=0 \ \
    1.26 + * 2\pi f_d & n=0 \\
    1.27   * 2\pi f_d \cos\frac{2\pi n}{N} & n=1,2,\ldots,M
    1.28   * \end{array}
    1.29   * \right .\f]
     2.1 --- a/src/propagation/model/propagation-loss-model.h	Sun May 15 09:28:09 2011 -0400
     2.2 +++ b/src/propagation/model/propagation-loss-model.h	Sun May 15 09:40:43 2011 -0400
     2.3 @@ -353,9 +353,9 @@
     2.4   *
     2.5   * \f[\displaystyle L =
     2.6  \begin{cases}
     2.7 -0 & d < d_0 \ \
     2.8 -L_0 + 10 \cdot n_0 \log_{10}(\frac{d}{d_0}) & d_0 \leq d < d_1 \ \
     2.9 -L_0 + 10 \cdot n_0 \log_{10}(\frac{d_1}{d_0}) + 10 \cdot n_1 \log_{10}(\frac{d}{d_1}) & d_1 \leq d < d_2 \ \
    2.10 +0 & d < d_0 \\
    2.11 +L_0 + 10 \cdot n_0 \log_{10}(\frac{d}{d_0}) & d_0 \leq d < d_1 \\
    2.12 +L_0 + 10 \cdot n_0 \log_{10}(\frac{d_1}{d_0}) + 10 \cdot n_1 \log_{10}(\frac{d}{d_1}) & d_1 \leq d < d_2 \\
    2.13  L_0 + 10 \cdot n_0 \log_{10}(\frac{d_1}{d_0}) + 10 \cdot n_1 \log_{10}(\frac{d_2}{d_1}) + 10 \cdot n_2 \log_{10}(\frac{d}{d_2})& d_2 \leq d
    2.14  \end{cases}\f]
    2.15   *