X-Git-Url: https://bilbo.iut-bm.univ-fcomte.fr/and/gitweb/ThesisAli.git/blobdiff_plain/6c9723566b14728397259220cd27d10ba8d490d2..de19a5ef179d0e0b0a56acf7549582147ba4b9c1:/CHAPITRE_02.tex diff --git a/CHAPITRE_02.tex b/CHAPITRE_02.tex index ee59f56..e977bf7 100644 --- a/CHAPITRE_02.tex +++ b/CHAPITRE_02.tex @@ -195,7 +195,7 @@ DESK is based on the result from \cite{ref133}. In \cite{ref133}, the whole area \begin{figure}[h!] \centering -\includegraphics[scale=0.4]{Figures/ch2/DESK.eps} +\includegraphics[scale=0.45]{Figures/ch2/DESK.eps} \caption{ DESK network time line.} \label{desk} \end{figure} @@ -219,7 +219,7 @@ DESK uses two types of messages, mACTIVATE message by which a sensor informs oth Typically, the algorithm works as follows. At the beginning of each round, no sensors are active. All sensors are in listening mode, i.e. all wait for the time to make a decision while still doing sensing job. All the sensor nodes collect the information (coordinates, current residual energy, and sensing range) from the one-hop neighbors. It stores this information into a list L in the increasing order of the angle $\alpha $ . Each sensor node set its timer to $w_i$ and initially it is proposed that all of its neighbors need it to join the network. When the sensor node $s_j$ joins the network, it broadcasts a mACTIVATE message to inform all of its 1-hop neighbors about its status change. Its neighbors execute the perimeter coverage model to recalculate its coverage level. If it finds any neighbor u that is useless in covering its perimeter, i.e., the perimeter that u covers was covered by other active neighbors, it will send mASK2SLEEP message to that sensor. When the sensor node receives mASK2SLEEP message, it updates its counter $n_i$, contribution $c_i$ to coverage level, and recalculate waiting time $w_i$. It then check if its $n_i$ is decreased to 0 or not. If $n_i$ of a sensor node is 0 (i.e., it receives mASK2SLEEP message from all of its neighbors), then it will send message mGOSLEEP to all of its neighbors telling them that it is about to go to sleep, and set a timer $R_i$ for waking up in next round and at last go to sleep. If the sensor node receives mGOSLEEP message, it removes the neighbor sending that message out of its list L. All the sensors have to decide its status in the decision phase. After that, the active sensors perform the sensing task during the sensing phase. - +The period the average \begin{table}