This file was created by the TYPO3 extension
bib
--- Timezone: UTC
Creation date: 2024-12-03
Creation time: 14-17-54
--- Number of references
8
techreport
rfc5201-bis-03
<prt>Host Identity Protocol Version 2</prt>
2010
10
1
draft-ietf-hip-rfc5201-bis-03.txt
<prt>expires: April 26, 2011 (work in progress)</prt>
http://tools.ietf.org/html/draft-ietf-hip-rfc5201-bis-03
Online
<prt>IETF Trust</prt>
An online version is available at: http://tools.ietf.org/html/draft-ietf-hip-rfc5201-bis-03
Internet Drafts
<prt>Internet Engineering Task Force</prt>
Internet Engineering Task Force
en
1
RobertMoskowitz
PetriJokela
ThomasR. Henderson
TobiasHeer
techreport
rfc5201-bis-01
<prt>Host Identity Protocol Version 2</prt>
2010
9
1
draft-ietf-hip-rfc5201-bis-01.txt
<prt>expires: March 7, 2011 (work in progress)</prt>
http://tools.ietf.org/html/draft-ietf-hip-rfc5201-bis-01
Online
<prt>IETF Trust</prt>
An online version is available at: http://tools.ietf.org/html/draft-ietf-hip-rfc5201-bis-01
Internet Drafts
<prt>Internet Engineering Task Force</prt>
Internet Engineering Task Force
en
1
RobertMoskowitz
PetriJokela
ThomasR. Henderson
TobiasHeer
techreport
moskowitz-rfc5201-bis-02
<prt>Host Identity Protocol Version 2</prt>
2010
7
1
draft-moskowitz-hip-rfc5201-bis-02.txt
<prt>expires: January 2, 2011 (work in progress)</prt>
http://tools.ietf.org/html/draft-moskowitz-hip-rfc5201-bis-02
Online
<prt>IETF Trust</prt>
An online version is available at: http://tools.ietf.org/html/draft-moskowitz-hip-rfc5201-bis-02
Internet Drafts
<prt>Internet Engineering Task Force</prt>
Internet Engineering Task Force
en
1
RobertMoskowitz
PetriJokela
ThomasR. Henderson
TobiasHeer
techreport
rfc5201-bis-02
<prt>Host Identity Protocol Version 2</prt>
2010
7
1
draft-ietf-hip-rfc5201-bis-02.txt
<prt>expires: March 7, 2011 (work in progress)</prt>
http://tools.ietf.org/html/draft-ietf-hip-rfc5201-bis-02
Online
<prt>IETF Trust</prt>
An online version is available at: http://tools.ietf.org/html/draft-ietf-hip-rfc5201-bis-02
Internet Drafts
<prt>Internet Engineering Task Force</prt>
Internet Engineering Task Force
en
1
RobertMoskowitz
PetriJokela
ThomasR. Henderson
TobiasHeer
inbook
2010-aktas-modeling-application-traffic-bookchapter
Modeling Application Traffic
2010
4
397-426
Springer
18
Modeling and Tools for Network Simulation
978-3-642-12330-6
IsmetAktas
CemMengi
ThomasKing
techreport
moskowitz-rfc5201-bis-01
<prt>Host Identity Protocol Version 2</prt>
2010
3
1
draft-moskowitz-hip-rfc5201-bis-01.txt
<prt>expires: September 10, 2010 (work in progress)</prt>
http://tools.ietf.org/html/draft-moskowitz-hip-rfc5201-bis-01
Online
<prt>IETF Trust</prt>
An online version is available at: http://tools.ietf.org/html/draft-moskowitz-hip-rfc5201-bis-01
Internet Drafts
<prt>Internet Engineering Task Force</prt>
Internet Engineering Task Force
en
1
RobertMoskowitz Pekka Nikander
PetriJokela
ThomasR. Henderson
TobiasHeer
inbook
201001ThieleINTECHRatpack
Dynamic Wireless Sensor Networks for Animal Behavior Research
2010
1
629--644
RatPack
http://www.comsys.rwth-aachen.de/fileadmin/papers/2010/2010-01-Thiele-INTECH-Ratpack.pdf
http://sciyo.com/articles/show/title/dynamic-wireless-sensor-networks-for-animal-behavior-research
http://www.intechopen.com/articles/show/title/dynamic-wireless-sensor-networks-for-animal-behavior-research
Online
Domenico Campolo
InTech
Vienna, Austria
32
Recent Advances in Biomedical Engineering
en
978-953-7619-57-2
1
JohannesThiele
Jó AgilaBitsch Link
OkuaryOsechas
HanspeterMallot
KlausWehrle
inproceedings
20105munawardynamictinyos
Dynamic TinyOS: Modular and Transparent Incremental Code-Updates for Sensor Networks
2010
1-6
Long-term deployments of sensor networks in physically inaccessible environments make remote re-programmability of sensor nodes a necessity. Ranging from full image replacement to virtual machines, a variety of mechanisms exist today to deploy new software or to fix bugs in deployed systems. However, TinyOS - the current state of the art sensor node operating system - is still limited to full image replacement as nodes execute a statically-linked system-image generated at compilation time. In this paper we introduce Dynamic TinyOS to enable the dynamic exchange of software components and thus incrementally update the operating system and its applications. The core idea is to preserve the modularity of TinyOS, i.e. its componentization, which is lost during the normal compilation process, and enable runtime composition of TinyOS components on the sensor node. The proposed solution integrates seamlessly into the system architecture of TinyOS: It does not require any changes to the programming model of TinyOS and existing components can be reused transparently. Our evaluation shows that Dynamic TinyOS incurs a low performance overhead while keeping a smaller - upto one third - memory footprint than other comparable solutions.
fileadmin/papers/2010/2010-05-icc-munawar-DynamicTinyOS.pdf
Online
IEEE
Proceedings of the IEEE International Conference on Communications (ICC), Cape Town, South Africa
en
978-1-4244-6402-9
1550-3607
1
WaqaasMunawar
Muhammad HamadAlizai
OlafLandsiedel
KlausWehrle