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+\documentclass[format=acmsmall,natbib=true, review=false, screen=true]{acmart}
+
+\usepackage{booktabs} % For formal tables
+
+\usepackage[ruled]{algorithm2e} % For algorithms
+\renewcommand{\algorithmcfname}{ALGORITHM}
+\SetAlFnt{\small}
+\SetAlCapFnt{\small}
+\SetAlCapNameFnt{\small}
+\SetAlCapHSkip{0pt}
+\IncMargin{-\parindent}
+
+
+% Metadata Information
+\acmJournal{TWEB}
+\acmVolume{9}
+\acmNumber{4}
+\acmArticle{39}
+\acmYear{2010}
+\acmMonth{3}
+\copyrightyear{2009}
+%\acmArticleSeq{9}
+
+% Copyright
+%\setcopyright{acmcopyright}
+\setcopyright{acmlicensed}
+%\setcopyright{rightsretained}
+%\setcopyright{usgov}
+%\setcopyright{usgovmixed}
+%\setcopyright{cagov}
+%\setcopyright{cagovmixed}
+
+% DOI
+\acmDOI{0000001.0000001}
+
+% Paper history
+\received{February 2007}
+\received[revised]{March 2009}
+\received[accepted]{June 2009}
+
+
+% Document starts
+\begin{document}
+% Title portion. Note the short title for running heads
+\title[A Multifrequency MAC for Wireless Sensor]{A Multifrequency MAC
+ Specially Designed for Wireless Sensor Network Applications}
+\author{Gang Zhou}
+\affiliation{College of William and Mary}
+\author{Yafeng Wu}
+\affiliation{University of Virginia}
+\author{Ting Yan}
+\affiliation{Eaton Innovation Center}
+\author{Tian He}
+\affiliation{University of Minnesota}
+\author{Chengdu Huang}
+\author{John A. Stankovic}
+\author{Tarek F. Abdelzaher}
+\affiliation{University of Virginia}
+
+\begin{abstract}
+Multifrequency media access control has been well understood in
+general wireless ad hoc networks, while in wireless sensor networks,
+researchers still focus on single frequency solutions. In wireless
+sensor networks, each device is typically equipped with a single
+radio transceiver and applications adopt much smaller packet sizes
+compared to those in general wireless ad hoc networks. Hence, the
+multifrequency MAC protocols proposed for general wireless ad hoc
+networks are not suitable for wireless sensor network applications,
+which we further demonstrate through our simulation experiments. In
+this article, we propose MMSN, which takes advantage of
+multifrequency availability while, at the same time, takes into
+consideration the restrictions of wireless sensor networks. Through
+extensive experiments, MMSN exhibits the prominent ability to utilize
+parallel transmissions among neighboring nodes. When multiple physical
+frequencies are available, it also achieves increased energy
+efficiency, demonstrating the ability to work against radio
+interference and the tolerance to a wide range of measured time
+synchronization errors.
+\end{abstract}
+
+
+%
+% The code below should be generated by the tool at
+% http://dl.acm.org/ccs.cfm
+% Please copy and paste the code instead of the example below.
+%
+\begin{CCSXML}
+<ccs2012>
+ <concept>
+ <concept_id>10010520.10010553.10010562</concept_id>
+ <concept_desc>Computer systems organization~Embedded systems</concept_desc>
+ <concept_significance>500</concept_significance>
+ </concept>
+ <concept>
+ <concept_id>10010520.10010575.10010755</concept_id>
+ <concept_desc>Computer systems organization~Redundancy</concept_desc>
+ <concept_significance>300</concept_significance>
+ </concept>
+ <concept>
+ <concept_id>10010520.10010553.10010554</concept_id>
+ <concept_desc>Computer systems organization~Robotics</concept_desc>
+ <concept_significance>100</concept_significance>
+ </concept>
+ <concept>
+ <concept_id>10003033.10003083.10003095</concept_id>
+ <concept_desc>Networks~Network reliability</concept_desc>
+ <concept_significance>100</concept_significance>
+ </concept>
+</ccs2012>
+\end{CCSXML}
+
+\ccsdesc[500]{Computer systems organization~Embedded systems}
+\ccsdesc[300]{Computer systems organization~Redundancy}
+\ccsdesc{Computer systems organization~Robotics}
+\ccsdesc[100]{Networks~Network reliability}
+
+%
+% End generated code
+%
+
+% We no longer use \terms command
+%\terms{Design, Algorithms, Performance}
+
+\keywords{Wireless sensor networks, media access control,
+multi-channel, radio interference, time synchronization}
+
+
+\thanks{This work is supported by the National Science Foundation,
+ under grant CNS-0435060, grant CCR-0325197 and grant EN-CS-0329609.
+
+ Author's addresses: G. Zhou, Computer Science Department, College of
+ William and Mary; Y. Wu {and} J. A. Stankovic, Computer Science
+ Department, University of Virginia; T. Yan, Eaton Innovation Center;
+ T. He, Computer Science Department, University of Minnesota; C.
+ Huang, Google; T. F. Abdelzaher, (Current address) NASA Ames
+ Research Center, Moffett Field, California 94035.}
+
+
+\maketitle
+
+% The default list of authors is too long for headers}
+\renewcommand{\shortauthors}{G. Zhou et. al.}
+
+\input{samplebody-journals}
+
+
+\end{document}