@COMMENT This file was generated by bib2html.pl <http://www.cs.cmu.edu/~pfr/misc_software/index.html#bib2html> version 0.91
@COMMENT written by Patrick Riley <http://www.cs.cmu.edu/~pfr>
@COMMENT This file came from Gal A. Kaminka's publication pages at
@COMMENT http://www.cs.biu.ac.il/~galk/Publications/
@InProceedings{victor09ijcaiws,
  author = 	 {Victor Shafran and Gal A. Kaminka and Sarit Kraus and Alcherio Martinoli}, 
  title = 	 {Coverage Under Dead Reckoning Errors: A Hybrid Approach}, 
  OPTcrossref =  {}, 
  OPTkey = 	 {}, 
  booktitle = {Proceedings of the {IJCAI} 2009 International Workshop on Hybrid Control of Autonomous Systems ({HYCAS})}, 
  OPTvolume = {},
  OPTpages = 	 {}, 
  year = 	 {2009}, 
  abstract = {Coverage is a task, where a robot is to move about a given a target area until every point in it is visited. Many efficient coverage algorithms cannot be used in practice, because they assume accurate movements by the robot; unfortunately, real robots have navigational errors. A standard costly solution is to utilize a robot that continuously localizes, so as to make course corrections.  
 In this work we present {\sc Trim Sail}, a novel hybrid coverage algorithm
that takes as input an exact-movement coverage algorithm, and a maximal dead-reckoning
error bound.  It optimizes use of the exact-movement algorithm, so as to execute its coverage
plan while minimizing movement and localization costs. {\sc Trim Sail} guarantees
complete coverage, even under dead-reckoning errors. We present several  variants of
{\sc Trim Sail} and demonstrate their efficacy in experiments using data collected from real robots. }, 
  wwwnote = { }, 
  OPTeditor = 	 {}, 
  OPTvolume = 	 {}, 
  OPTnumber = 	 {}, 
  OPTseries = 	 {}, 
  OPTaddress = 	 {}, 
  OPTmonth = 	 {}, 
  OPTorganization = {}, 
  OPTpublisher = {}, 
  OPTacceptance = {}, 
  OPTannote = 	 {} 
}