From: Karine Deschinkel Date: Thu, 28 Aug 2014 09:13:02 +0000 (+0200) Subject: ok, changement M pour ML X-Git-Url: https://bilbo.iut-bm.univ-fcomte.fr/and/gitweb/JournalMultiPeriods.git/commitdiff_plain/ed874f7124de4037b1abb5073c85c4bc3cc698cd?ds=inline;hp=--cc ok, changement M pour ML --- ed874f7124de4037b1abb5073c85c4bc3cc698cd diff --git a/article.tex b/article.tex index 6707012..7b6a536 100644 --- a/article.tex +++ b/article.tex @@ -1011,7 +1011,7 @@ network, and $R$ is the total number of subregions in the network. % New version with global loops on period \begin{equation*} \scriptsize - \mbox{EC} = \frac{\sum\limits_{m=1}^{M_L} \left[ \left( E^{\mbox{com}}_m+E^{\mbox{list}}_m+E^{\mbox{comp}}_m \right) +\sum\limits_{t=1}^{T_m} \left( E^{a}_t+E^{s}_t \right) \right]}{\sum\limits_{m=1}^{M_L} T_m}, + \mbox{EC} = \frac{\sum\limits_{m=1}^{M} \left[ \left( E^{\mbox{com}}_m+E^{\mbox{list}}_m+E^{\mbox{comp}}_m \right) +\sum\limits_{t=1}^{T_m} \left( E^{a}_t+E^{s}_t \right) \right]}{\sum\limits_{m=1}^{M_L} T_m}, \end{equation*} @@ -1030,7 +1030,7 @@ network, and $R$ is the total number of subregions in the network. % Old version -> where $M_L$ and $T_L$ are respectively the number of periods and rounds during %$Lifetime_{95}$ or $Lifetime_{50}$. % New version -where $M_L$ is the number of periods and $T_m$ the number of rounds in a +where $M$ is the number of periods and $T_m$ the number of rounds in a period~$m$, both during $Lifetime_{95}$ or $Lifetime_{50}$. The total energy consumed by the sensors (EC) comes through taking into consideration four main energy factors. The first one , denoted $E^{\scriptsize \mbox{com}}_m$, @@ -1040,7 +1040,7 @@ factor, corresponds to the energy consumed by the sensors in LISTENING status before receiving the decision to go active or sleep in period $m$. $E^{\scriptsize \mbox{comp}}_m$ refers to the energy needed by all the leader nodes to solve the integer program during a period. Finally, $E^a_t$ and $E^s_t$ -indicate the energy consummed by the whole network in round $t$. +indicate the energy consumed by the whole network in round $t$. %\item {Network Lifetime:} we have defined the network lifetime as the time until all %nodes have been drained of their energy or each sensor network monitoring an area has become disconnected.