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@Inproceedings { 200606LandsiedelRatWatch,
   title = {Rat Watch: Using Sensor Networks for Animal Observation},
   year = {2006},
   month = {6},
   day = {19},
   volume = {1},
   pages = {1--2},
   abstract = {In an attempt to employ sensor network technology for animal observation, in particular of wild rats, we identified several restrictive shortcomings in existing sensor network research, which we discuss in this paper.},
   note = {(Poster and Abstract)},
   tags = {RatPack},
   url = {fileadmin/papers/2006/2006-06-Landsiedel-RatWatch.pdf},
   web_url2 = {http://www.sics.se/realwsn06/program.html},
   misc2 = {Online},
   editor = {Pedro Jos{\'e} Marron and Thiemo Voigt},
   publisher = {SICS},
   address = {Uppsala, Sweden},
   booktitle = {ACM Workshop on Real-World Wireless Sensor Networks (RealWSN) in conjunction with ACM MobiSys, Uppsala, Sweden},
   organization = {ACM},
   event_place = {Uppsala, Sweden},
   event_name = {ACM Workshop on Real-World Wireless Sensor Networks, REALWSN'06},
   event_date = {June 19, 2006},
   language = {en},
   reviewed = {1},
   author = {Landsiedel, Olaf and Bitsch Link, J{\'o} Agila and Wehrle, Klaus and Thiele, Johannes and Mallot, Hanspeter}
}

@Inproceedings { 200602LandsiedelEWSNModularSN,
   title = {Modular Communication Protocols for Sensor Networks},
   year = {2006},
   month = {2},
   day = {13},
   volume = {507},
   pages = {22 -- 23},
   abstract = {In this paper we present our ongoing work on modular communication protocols for sensor networks. Their modularity allows recomposing a protocol dynamically at runtime and adapting it to the changing needs of a sensor network. Compared to existing work, our componentization is fine grained and protocol independent, enabling a high degree of component reusability.},
   note = {(Poster and Abstract)},
   url = {fileadmin/papers/2006/2006-02-Landsiedel-EWSN-ModularSN.pdf},
   web_url2 = {ftp://ftp.inf.ethz.ch/pub/publications/tech-reports/5xx/507.pdf},
   misc = {Technical Report},
   misc2 = {Online},
   editor = {Kay R{\"o}mer and Holger Karl and Friedemann Matterns},
   publisher = {Department of Computer Science, ETH Zurich},
   address = {Zurich, Switzerland},
   series = {Technical Report ETH Zurich / Dept. of Computer Science},
   booktitle = {European Workshop on Wireless Sensor Networks (EWSN 2006), Zurich Switzerland},
   organization = {EWSN},
   event_place = {Zurich, Switzerland},
   event_name = {3rd European Workshop on Wireless Sensor Networks (EWSN 2006)},
   event_date = {February 13-15, 2006},
   language = {en},
   reviewed = {1},
   author = {Landsiedel, Olaf and Bitsch Link, J{\'o} Agila and Denkinger, Katharina and Wehrle, Klaus}
}

@Conference { 200607landsiedelfgsnmodular,
   title = {When Modularity Matters},
   year = {2006},
   abstract = {In an attempt to employ sensor network technology for animal observation, in particular of wild rats, we identified several restrictive shortcomings in existing sensor network research. In this paper, we present modular and flexible communication protocols as an efficient substrate to address these shortcomings. Their modularity allows recomposing a protocol dynamically at runtime and adapting it to the changing needs of a deployed sensor network.},
   booktitle = {5th GI/ITG KuVS Fachgespr{\"a}ch ''Wireless Sensor Networks'', Stuttgart, Germany},
   author = {Landsiedel, Olaf and Wehrle, Klaus}
}

@Conference { 200607landsiedelngimodels,
   title = {Towards flexible and modular simulation models},
   year = {2006},
   abstract = {In this talk we discuss the increasing need for flexible and modular simulation models and our ongoing work in this area. Although a huge number of simulation models are available today, these models do not interoperate and cannot be easily combined to form a full protocol simulation stack.},
   booktitle = {Visions of Future Generation Networks, W{\"u}rzburg, Germany},
   author = {Landsiedel, Olaf and Petrak, Leo and Wehrle, Klaus}
}

@Inproceedings { 200605NSDIOCALA,
   title = {OCALA: An Architecture for Supporting Legacy Applications over Overlays},
   year = {2006},
   abstract = {In order for overlays and new network architectures to gain real user acceptance, users should be able to leverage overlay functionality without any modifications to their applications and operating systems. We present our design, implementation, and experience with OCALA, an overlay convergence architecture that achieves this goal. OCALA interposes an overlay convergence layer below the transport layer. This layer is composed of an overlay independent sub-layer that interfaces with legacy applications, and an overlay dependent sub-layer that delivers packets to the overlay. Unlike previous efforts, OCALA enables: (a) simultaneous access to multiple overlays (b) communication between hosts in different overlays (c) communication between overlay hosts and legacy hosts (d) extensibility, allowing researchers to incorporate their overlays into OCALA. We currently support five overlays, i3 [32], RON [1], HIP [19], DOA [39] and OverDoSe [31] on Linux, Windows XP/2000 and Mac OS X. We (and a few other research groups and end-users) have used OCALA for over a year with many legacy applications ranging from web browsers to remote desktop applications.},
   note = {San Jose, California},
   publisher = {USENIX / ACM},
   booktitle = {Proceedings of 3rd ACM Sigcomm/ACM Sigops Symposium on Networked Systems Design and Implementation (NSDI 2006)},
   organization = {ACM},
   author = {Joseph, Dilip A and Lakshminarayanan, Karthik and Stoica, Ion and Wehrle, Klaus}
}

@Inproceedings { 200608landsiedelp2p06scalablemobility,
   title = {Towards Scalable Mobility in Distributed Hash Tables},
   year = {2006},
   pages = {203-209},
   abstract = {For the use in the Internet domain, distributed hash tables (DHTs) have proven to be an efficient and scalable approach to distributed content storage and access. In this paper, we explore how DHTs and mobile ad-hoc networks (MANETs) fit together. We argue that both share key characteristics in terms of self organization, decentralization, redundancy requirements, and limited infrastructure. However, node mobility and the continually changing physical topology pose a special challenge to scalability and the design of a DHT for mobile ad-hoc networks. In this paper, we show that with some local knowledge we can build a scalable and mobile structured peer-to-peer network, called Mobile Hash Table (MHT). Furthermore, we argue that with little global knowledge, such as a map of the city or whatever area the nodes move in, one can even further improve the scalability and reduce DHT maintenance overhead significantly, allowing MHT to scale up to several ten thousands of nodes.},
   url = {https://www.comsys.rwth-aachen.de/fileadmin/papers/2006/2006-landsiedel-p2p-mobility.pdf},
   misc2 = {print},
   publisher = {IEEE},
   address = {Washington, DC, USA},
   howpublished = {print},
   booktitle = {Proceedings of the Sixth IEEE International Conference on Peer-to-Peer Computing (P2P'06), Cambridge, UK},
   organization = {IEEE},
   event_place = {Cambridge, UK},
   event_name = {Sixth IEEE International Conference on Peer-to-Peer Computing (P2P'06)},
   event_date = {2006-09-06},
   language = {en},
   ISBN = {0-7695-2679-9},
   DOI = {10.1109/P2P.2006.46},
   reviewed = {1},
   author = {Landsiedel, Olaf and G{\"o}tz, Stefan and Wehrle, Klaus}
}