lmfeeney.bib

@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 the 9th ACM International Symposium on Mobile Ad Hoc Networking and Computing {(MobiHoc2008)}},
  month = may,
  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}
}
@inproceedings{fee+:wwic07,
  author = {Laura Marie Feeney and Bilge Cetin and Daniel Hollos and Holger Karl and  Martin Kubisch and Seble Mengesha},
  title = {Multi-rate relaying for performance improvement in {IEEE} 802.11 {WLAN}s},
  booktitle = {5th Int'l Conf on Wired/Wireless Internet Communications {(WWIC 2007)}},
  month = may,
  year = 2007,
  url = {http://www.sics.se/~lmfeeney/publications/Files/wwic07multirate.pdf},
  slides = {http://www.sics.se/~lmfeeney/publications/Files/wwic07_slides.pdf}
}
@inproceedings{feeney:wcnc07,
  author = {Laura Marie Feeney and Christian Rohner and Bengt Ahlgren},
  title = {The impact of wakeup schedule distribution in asynchronous\
         power save protocols on the performance of multihop wireless\
         networks},
  booktitle = {{IEEE} Wireless Communications and Networking Conf ({WCNC'07})},
  month = mar,
  year = 2007,
  url = {http://www.sics.se/~lmfeeney/publications/Files/wcnc07wakeup.pdf},
  slides = {http://www.sics.se/~lmfeeney/publications/Files/wcnc07_slides.pdf}
}
@inproceedings{hurni:wwic06,
  author = {Philipp Hurni and Torsten Braun and Laura Marie Feeney},
  title = {Simulation and evaluation of unsynchronized power saving mechanisms in wireless ad hoc networks},
  booktitle = {4th Int'l Conf on Wired/Wireless Internet Communications {(WWIC 2006)}},
  month = may,
  year = 2006,
  abstract = {Power saving mechanisms in wireless ad hoc network nodes 
      mainly switch off the transmission and reception hardware for a
      maximal amount of time and turn it on again within a given
      interval. Many approaches aim to synchronize the state changes of the
      nodes in the network through distributed beacon generation and
      introduce mechanisms where nodes synchronously wake up at designated
      points of time to exchange announcements about pending
      traffic. Synchronization however is difficult to achieve, in
      particular in ad hoc networks.  This paper describes the simulation,
      evaluation and refinement of a recently proposed power saving approach
      based on asynchronous wake-up patterns and wake-up announcements
      integrated with AODV. We show that significant improvements of the
      connectivity under low wake ratios can be achieved by carefully
      designed forwarding strategies of AODV route request messages.},
  url = {http://www.iam.unibe.ch/~rvs/research/pub_files/HBF06.pdf}
}
@inproceedings{Feeney:infocom01,
  key = {},
  author = {Laura Marie Feeney and Martin Nilsson},
  title = {Investigating the Energy Consumption of a Wireless Network
Interface in an Ad Hoc Networking Environment},
  booktitle = {{IEEE} Conf on Computer Communications ({Infocom'01})},
  year = 2001,
  month = apr,
  abstract = { Energy-aware design and evaluation of network potocols
	 requires knowledge of the energy consumption behavior of
	 actual wireless interfaces.  But little practical information
	 is available about the energy consumption behavior of
	 well-known wireless network interfaces and device
	 specifications do not provide information in a form that is
	 helpful to protocol developers.  This paper describes a
	 series of experiments which obtained detailed measurements of
	 the energy consumption of an IEEE 802.11 wireless network
	 interface operating in an ad hoc networking environment.  The
	 data is presented as a collection of linear equations for
	 calculating the energy consumed in sending, receiving and
	 discarding broadcast and point-to-point data packets of
	 various sizes.  Some implications for protocol design and
	 evaluation in ad hoc networks are discussed.},
  url = {http://www.sics.se/~lmfeeney/publications/Files/infocom01investigating.pdf},
  slides = {http://www.sics.se/~lmfeeney/publications/Files/infocom01_slides.pdf}
}
@inproceedings{Fee+:spontnet-experiences,
  key = {},
  author = {Laura Marie Feeney and Bengt Ahlgren and Assar Westerlund and Adam Dunkels},
  title = {Spontnet: Experiences in Configuring and Securing Small Ad Hoc Networks},
  booktitle = {5th Int'l Workshop on Networked Applicances({IWNA5})},
  year = {2002},
  month = oct,
  url = {http://www.sics.se/~lmfeeney/publications/Files/iwna02spontnet.pdf},
  slides = {http://www.sics.se/~lmfeeney/publications/Files/iwna02_slides.pdf},
  abstract = {In contrast with work focusing on routing problems in
                mobile ad hoc networks, this work addresses the
                problem of system configuration in such networks.

                In particular, we are interested in ways to
                instantiate the configuration infrastructure --
                naming, addressing, authentication, and key
                distribution -- needed to establish small-to-medium
                scale ad hoc networks supporting collaborative
                applications.

                We argue that, in such spontaneous networks,much
                of the necessary infrastructure can be derived from
                the face-to-face human interactions that these
                networks are intended to facilitate.  This approach
                has the additional advantage of being intuitive for
                the non-expert user.}
}
@inproceedings{Fee:qos-aware-power,
  key = {},
  author = {Laura Marie Feeney},
  title = {A {QoS} Aware Power Save Protocol for Wireless Ad Hoc Networks},
  booktitle = {1st Mediterranean Workshop on Ad Hoc Networks({Med-Hoc Net 2002})},
  year = {2002},
  month = sep,
  url = {http://www.sics.se/~lmfeeney/publications/Files/medhoc02qosaware.pdf},
  slides = {http://www.sics.se/~lmfeeney/publications/Files/medhoc02_slides.pdf},
  abstract = {This paper describes a power save protocol for ad hoc
                networks. The protocol is largely independent of the
                details of the underlying MAC and friendly toward any
                overlying energy-aware ad hoc routing.  A key
                advantage of the protocol is that it is fully
                asynchronous.  Each station independently establishes
                a periodic sleep/wake cycle.  Neighbors that wish to
                communicate estimate the relative phase difference
                between their sleep/wake cycles.  A station uses this
                phase information to order its pending transmissions
                so as to maximize value with respect to some QoS
                function.  A station can also adjust its phase
                relationships to avoid contention and increase
                effective bandwidth available to a flow, as well as
                reduce latency.}
}
@inproceedings{Fee+:networking04,
  key = {},
  author = {Laura Marie Feeney and Daniel Hollos and Holger Karl and  Martin Kubisch and Seble Mengesha},
  title = {A Geometric Derivation of the Probability of Finding a Relay in Multi-Rate Networks},
  booktitle = {3rd {IFIP} Conf on Networking {(Networking 2004)}},
  month = may,
  year = 2004,
  abstract = { Relaying can improve performance of a wireless network, 
    especially when different transmission modes with distance cost
    tradeoffs are available.  Examples of such modes include data rates
    or transmission power. This paper geometrically analyzes the
    probability that a high-cost direct transmission can be replaced by
    a combination of low-cost relay transmissions.  The main result of
    the analysis is a technology-agnostic characterization of a
    communication system's amenability to relaying strategies and some
    recommendations for how to structure such systems.  },
  url = {http://www.sics.se/~lmfeeney/publications/Files/networking04_geometric.pdf},
  poster = {http://www.sics.se/~lmfeeney/publications/Files/networking04_poster.pdf}
}
@inproceedings{Tra+:building-middle,
  key = {},
  author = {Franco Travostino and  Laura Feeney and Philippe Bernadat 
and Franklin Reynolds},
  title = {Building Middleware for Real-time Dependable Distributed
Services},
  booktitle = {1st {IEEE} Symposium on Object-oriented
Real-time Distributed Computing},
  month = apr,
  year = {1998}
}