From 00ff0e6d0f61e2be2ba759f4fe8606ec60d91314 Mon Sep 17 00:00:00 2001 From: Karine Deschinkel Date: Thu, 3 Sep 2015 13:33:55 +0200 Subject: [PATCH] ok --- article.tex | 6 +----- 1 file changed, 1 insertion(+), 5 deletions(-) diff --git a/article.tex b/article.tex index f8f7ec4..28220ff 100644 --- a/article.tex +++ b/article.tex @@ -541,11 +541,7 @@ active nodes. %Instead of working with a continuous coverage area, we make it discrete by considering for each sensor a set of points called primary points. Consequently, we assume that the sensing disk defined by a sensor is covered if all of its primary points are covered. The choice of number and locations of primary points is the subject of another study not presented here. -\indent Instead of working with the coverage area, we consider for each sensor a set of points called primary points~\cite{idrees2014coverage}. We also assume that the sensing disk defined by a sensor is covered if all the primary points of this sensor are covered. By knowing the position (point center: ($p_x,p_y$)) of a wireless sensor node and it's sensing range $R_s$, we calculate the primary points directly based on the proposed model. We use these primary points (that can be increased or decreased if necessary) as references to ensure that the monitored region of interest is covered by the selected set of sensors, instead of using all the points in the area. -We can calculate the positions of the selected primary -points in the circle disk of the sensing range of a wireless sensor -node (see Figure~\ref{fig1}) as follows:\\ -Assuming that the point center of a wireless sensor node is located at $(p_x,p_y)$, we can define up to 25 primary points $X_1$ to $X_{25}$.\\ +\indent Instead of working with the coverage area, we consider for each sensor a set of points called primary points~\cite{idrees2014coverage}. We assume that the sensing disk defined by a sensor is covered if all the primary points of this sensor are covered. By knowing the position (point center: ($p_x,p_y$)) of a wireless sensor node and it's sensing range $R_s$, we define up to 25 primary points $X_1$ to $X_{25}$ as decribed on Figure~\ref{fig1}. The coordinates of the primary points are the following :\\ %$(p_x,p_y)$ = point center of wireless sensor node\\ $X_1=(p_x,p_y)$ \\ $X_2=( p_x + R_s * (1), p_y + R_s * (0) )$\\ -- 2.39.5