#+TITLE: Estimating the end-to-end energy consumption of IoT devices along with their impact on Cloud and telecommunication infrastructures #+EXPORT_EXCLUDE_TAGS: noexport #+STARTUP: hideblocks #+OPTIONS: H:5 author:nil email:nil creator:nil timestamp:nil skip:nil toc:nil ^:nil #+LATEX_CLASS: IEEEtran #+LATEX_HEADER: \usepackage{hyperref} #+LATEX_HEADER: \IEEEoverridecommandlockouts #+LATEX_HEADER: \author{\IEEEauthorblockN{1\textsuperscript{st} Anne-Cécile Orgerie} #+LATEX_HEADER: \IEEEauthorblockA{\textit{Univ Rennes, Inria, CNRS, IRISA, Rennes, France} \\ #+LATEX_HEADER: Rennes, France \\ #+LATEX_HEADER: anne-cecile.orgerie@irisa.fr} #+LATEX_HEADER: \and #+LATEX_HEADER: \IEEEauthorblockN{2\textsuperscript{nd} Loic Guegan} #+LATEX_HEADER: \IEEEauthorblockA{\textit{Univ Rennes, Inria, CNRS, IRISA, Rennes, France} \\ #+LATEX_HEADER: Rennes, France \\ #+LATEX_HEADER: loic.guegan@irisa.fr} #+LATEX_HEADER: } #+BEGIN_EXPORT latex \begin{abstract} Information and Communication Technology takes a growing part in the worldwide energy consumption. One of the root causes of this increase lies in the multiplication of connected devices. Each object of the Internet-of-Things often does not consume much energy by itself. Yet, their number and the infrastructures they require to properly work have leverage. In this paper, we combine simulations and real measurements to study the energy impact of IoT devices. In particular, we analyze the energy consumption of Cloud and telecommunication infrastructures induced by the utilization of connected devices, and we propose an end-to-end energy consumption model for these devices. \end{abstract} \begin{IEEEkeywords} component, formatting, style, styling, insert \end{IEEEkeywords} #+END_EXPORT * Introduction * Related Work * Use-Case ** 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 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 $f$ and the local timestamp. Then, these data are transmitted through the network along with an arbitrary sensor id of 128 bits. Finally, the AP is in charge to transmit the data to the cloud 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 of several network switches and router and it is considered to be a wired network. ** Cloud Part * Evaluation ** IoT/Network Consumption ** Cloud Energy Consumption ** Virtual Machine Size Impact ** Application Accuracy Refresh frequency etc... ** End-To-End Consumption * Discussion * Conclusion * Emacs settings :noexport: # Local Variables: # eval: (unless (boundp 'org-latex-classes) (setq org-latex-classes nil)) # eval: (add-to-list 'org-latex-classes # '("IEEEtran" "\\documentclass[conference]{IEEEtran}\n \[NO-DEFAULT-PACKAGES]\n \[EXTRA]\n" ("\\section{%s}" . "\\section*{%s}") ("\\subsection{%s}" . "\\subsection*{%s}") ("\\subsubsection{%s}" . "\\subsubsection*{%s}") ("\\paragraph{%s}" . "\\paragraph*{%s}") ("\\subparagraph{%s}" . "\\subparagraph*{%s}"))) # End: