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Loic Guegan 2019-05-20 10:00:40 +02:00
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@ -34,9 +34,7 @@ component, formatting, style, styling, insert
* Related Work * Related Work
* Use-Case * Use-Case
** Application Characteristic ** Application Characteristic
** Cloud Infrastructure
* System Model
** IoT Part
The IoT part is composed of an Access Point (AP), connected to several sensors using WIFI. In the The IoT part is composed of an Access Point (AP), connected to several sensors using WIFI. In the
system, the IoT part is considered as the part where the system data are created. In fact, the system, the IoT part is considered as the part where the system data are created. In fact, the
data life cycle start when the sensors records their respectives local temperature at a frequency data life cycle start when the sensors records their respectives local temperature at a frequency
@ -44,9 +42,43 @@ component, formatting, style, styling, insert
arbitrary sensor id of 128 bits. Finally, the AP is in charge to transmit the data to the cloud arbitrary sensor id of 128 bits. Finally, the AP is in charge to transmit the data to the cloud
using the network part. using the network part.
** Network Part
The network part is considered as the medium that link the IoT part to the cloud. It is composed The network part is considered as the medium that link the IoT part to the cloud. It is composed
of several network switches and router and it is considered to be a wired network. of several network switches and router and it is considered to be a wired network.
** Cloud Infrastructure
* System Model
The system model is divided in two parts. First, the IoT and the Network part are models through
simulations. Then, the Cloud part is model using real servers connected to wattmeters. In this way,
it is possible to evaluate the end-to-end energy consumption of the system.
** IoT Part
In the first place, the IoT part is composed of several sensors connected to an AP which forms a
cell. It is model using the ns-3 network simulator. Thus, we setup between 5 and 20 sensors
connected to the AP using WIFI 5GHz 802.11n. All the nodes of the cell are setup with the default
WIFI energy model provided by ns-3. The different energy values used by the energy model come
from the litterature and are provided on Table \ref{tab:wifi-energy}. Note that we suppose that the
energy source of the cell nodes are unlimited and thus every nodes can communicate for all the
simulation duration.
#+BEGIN_EXPORT latex
\begin{table}[]
\centering
\caption{Wifi Energy Settings}
\label{tab:wifi-energy}
\begin{tabular}{|l|l|l|}
\hline
& Value & Reference(s) \\ \hline
Supply Voltage & 3.3V & TODO \\ \hline
Tx & 0.38A & TODO \\ \hline
Rx & 0.313A & TODO \\ \hline
Idle & 0.273A & TODO \\ \hline
\end{tabular}
\end{table}
#+END_EXPORT
** Network Part
** Cloud Part ** Cloud Part

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