lmfeeney.bib

@inproceedings{feeney14dynamics,
  author = {Laura Marie Feeney and Christian Rohner and Per Gunningberg and Anders Lindgren and Lars Andersson},
  title = {How do the dynamics of battery discharge affect sensor lifetime?},
  booktitle = {11th {IEEE}/{IFIP} Conf on Wireless On-demand Network Systems and Services ({WONS'14})},
  year = 2014,
  url = {http://www.sics.se/~lmfeeney/publications/Files/wons14feeney.pdf},
  abstract = {"Evaluation of energy consumption and device lifetime in battery-powered wireless sensor networks (WSN) is almost exclusively based on measurements or simulations of the total charge (i.e. total mA-h) consumed by the device. In reality, batteries are complex electro-chemical systems and their discharge behavior depends heavily on the timing and intensity of the applied load.  However, there is very little empirical data or reliable models available for the kinds of batteries and loads that are typically used in WSNs.  The effect of battery dynamics on sensor lifetime is therefore not well understood. We characterize CR2032 Li coin cells using carefully controlled synthetic loads and a wide range of WSN-typical load parameters.  Our results are the first to quantify in-depth the discharge behavior of primary batteries in the WSN context.  We report that in some common cases, observed lifetimes can differ from predicted ones by almost a factor of three.  Furthermore, loads with similar average currents -- which would be expected to have similar lifetimes -- can vary significantly in the amount of capacity they can utilize, with short duration loads generally faring better. The results show that energy evaluation based on ``total mA-h consumed'' has significant limitations.  This has important implications for the design and evaluation of WSN applications, as well as for important practical problems in network dimensioning and lifetime estimation."
},
  slides = {http://www.sics.se/~lmfeeney/publications/Files/wons14_slides.pdf},
  note = {Best Paper Award}
}
@article{Foster2013162,
  title = {Dynamic landscapes: A model of context and contingency in evolution },
  journal = {Journal of Theoretical Biology },
  volume = {334},
  pages = {162 - 172},
  year = {2013},
  issn = {0022-5193},
  doi = {http://dx.doi.org/10.1016/j.jtbi.2013.05.030},
  url = {http://www.sciencedirect.com/science/article/pii/S0022519313002610},
  arxiv = {http://arxiv.org/abs/1210.5497},
  author = {David V. Foster and Mary M. Rorick and Tanja Gesell and Laura M. Feeney and Jacob G. Foster},
  abstract = {Abstract Although the basic mechanics of evolution have been understood since Darwin, debate continues over whether macroevolutionary phenomena are driven by the fitness structure of genotype space or by ecological interaction. In this paper we propose a simple model capturing key features of fitness-landscape and ecological models of evolution. Our model describes evolutionary dynamics in a high-dimensional, structured genotype space with interspecies interaction. We find promising qualitative similarity with the empirical facts about macroevolution, including broadly distributed extinction sizes and realistic exploration of the genotype space. The abstraction of our model permits numerous applications beyond macroevolution, including protein and RNA evolution.}
}
@inproceedings{rohner13evaluating,
  author = {Christian Rohner and Laura Marie Feeney and Per Gunningberg},
  title = {Evaluating Battery Models in Wireless Sensor Networks},
  booktitle = {11th Int'l Conf. on Wired/Wireless Internet Communications ({WWIC 2013})},
  year = 2013,
  url = {http://www.sics.se/~lmfeeney/publications/Files/wwic13_rohner.pdf}
}
@inproceedings{Fee+:sensys12poster,
  author = {Laura Marie Feeney and Lars Andersson and Anders Lindgren and Stina Starborg and Annika Ahlberg Tidblad},
  title = {Poster Abstract: Using batteries wisely},
  booktitle = {{ACM} Conf. on Embedded Networked Sensor Systems ({Sensys'12})},
  year = 2012,
  url = {http://www.sics.se/~lmfeeney/publications/Files/sensys12feeney.pdf},
  poster = {http://www.sics.se/~lmfeeney/publications/Files/sensys12_poster.pdf}
}
@inproceedings{Feeney:mswim12paper,
  author = {Laura Marie Feeney},
  title = {Towards trustworthy simulation of wireless {MAC/PHY} layers: {A} comparison framework},
  booktitle = {15th {ACM} Int'l Conf. on Modeling, Analysis and Simulation of Wireless and Mobile Systems ({MSWiM'12})},
  year = 2012,
  url = {http://www.sics.se/~lmfeeney/publications/Files/mswim12feeney.pdf},
  slides = {http://www.sics.se/~lmfeeney/publications/Files/mswim12feeney_slides.pdf}
}
@inproceedings{Fee+:wintech12poster,
  author = {Laura Marie Feeney and Lars Andersson and Anders Lindgren and 
  Stina Starborg and Annika Ahlberg Tidblad},
  title = {Poster Abstract: A Testbed for Measuring Battery Discharge Behavior},
  booktitle = {7th {ACM} Int'l Workshop on Wireless Network Testbeds, Experimental Evaluation and Characterization ({WiNTECH'12})},
  year = 2012,
  url = {http://www.sics.se/~lmfeeney/publications/Files/wintech12feeney.pdf},
  poster = {http://www.sics.se/~lmfeeney/publications/Files/wintech12feeney_poster.pdf}
}
@inproceedings{feeney:opp11,
  author = {Laura Marie Feeney},
  title = {Two simple tools for testing wireless communication modules in {OMNeT++}},
  booktitle = {4th Int'l Workshop on {OMNeT++} in conjunction with 4th Int'l Conf on Simulation Tools and Techniques {(Simutools 2011)}},
  year = 2011,
  abstract = {This code contribution abstract presents two OMNeT++ modules,
\texttt{ScriptApplLayer} and \texttt{EnsembleApplLayer}, which can be
used for testing of OMNeT++ simulations of communication protocols,
especially those used in wireless environments.  The discussion highlights the
importance of reproducible unit and ensemble tests, by describing how
these tools were used to uncover an issue in long-standing code.},
  url = {http://www.sics.se/~lmfeeney/publications/Files/omnet11test.pdf},
  slides = {http://www.sics.se/~lmfeeney/publications/Files/omnet11_slides.pdf},
  poster = {http://www.sics.se/~lmfeeney/publications/Files/omnet11_poster.pdf}
}
@inproceedings{feeney:opp10,
  author = {Laura Marie Feeney and Daniel Willkomm},
  title = {Energy Framework: An Extensible Framework for Simulating Battery Consumption in Wireless Networks},
  booktitle = {3rd Int'l Workshop on {OMNeT++} in conjunction with 3rd Int'l Conf on Simulation Tools and Techniques {(Simutools 2010)}},
  year = 2010,
  abstract = {Energy Framework is an extensible OMNeT++ framework for
       modeling battery consumption in wireless networks.  It is
       designed so there is a clear separation between modeling of
       battery state and energy consuming operations, enabling more
       sophisticated modeling of system behavior.  The Energy
       Framework is largely implemented in ``pure'' OMNeT++; it has
       been successfully incorporated into the Mobility Framework and
       MiXiM.},
  url = {http://www.sics.se/~lmfeeney/publications/Files/omnet10energy.pdf},
  slides = {http://www.sics.se/~lmfeeney/publications/Files/omnet10_slides.pdf},
  poster = {http://www.sics.se/~lmfeeney/publications/Files/omnet10_poster.pdf}
}
@inproceedings{feeney:hetersanet08,
  author = {Laura Marie Feeney},
  title = {Exploring Semantic Interference in Heterogenous Sensor Networks},
  booktitle = {1st {ACM} Workshop on Heterogeneous Sensor and Actor Networks, in conjunction with 9th {ACM} Int'l Symp. on Mobile Ad Hoc Networking and Computing {(MobiHoc2008)}},
  year = 2008,
  abstract = {As the use of sensor networks expands, there will be
       multiple, independent networks operating in the same physical
       space.  These networks will run heterogeneous applications and
       be managed by different entities.  At the same time, the use of
       general purpose sensor platforms makes it likely that 
       co-located networks use the same underlying platform.  Such
       networks will unavoidably interact with each other due their
       common communication hardware.  This paper examines modes of
       conflict, co-existence, and cooperation that obtain in this
       scenario.},
  url = {http://www.sics.se/~lmfeeney/publications/Files/heter08semantic.pdf},
  slides = {http://www.sics.se/~lmfeeney/publications/Files/heter08_slides.pdf}
}