Stochastic Battery Model

This is an OMNeT++ simulation for a stochastic battery model based on the theory of Chiasserini and Rao. [1-4]
It was done within the course Stochastic Simulation of Communication Networks and their Protocols at the University of Bremen, hosted by the ComNets group of Prof. Anna Förster. The specific task can be found project_task.pdf

What is given

This GitHub Repository contains a runnable OMNeT++ 5.0 file set.
The preset values within the simulation are set for energy efficient radio-based devices. An example with some options is given.
Be aware, that the original model was not intended for such a scenario, what leads to long simulation durations (up to hours)! ###Parameters There are examples given for transceiver parameters, as well as the possibility to set own values in the omnetpp.ini. In addition you can set the size of the Battery. We recommend not to stretch them too far, because this might break the limits of the model.
To extend it, you have to adjust the core parameters of the stochastic model. We highly recommend to look at the more comprehensive documentation in the stochstic_battery_documentation.pdf. It was originally the report for the stated university curse, but also serves as an additional description of the project.

Best success with your own project, might our work help you.
Eike Brandt
Florian Schaffarzyk
20 February 2017

####Sources [1] C.-F. Chiasserini and R. R. Rao, “A model for battery pulsed discharge with recovery effect,” in Wireless Communications and Networking Conference, 1999. WCNC. 1999 IEEE, 1999, vol. 2, pp. 636–639.
[2] C.-F. Chiasserini and R. R. Rao, “Pulsed battery discharge in communication devices,” in Proceedings of the 5th annual ACM/IEEE international conference on Mobile computing and networking, 1999, pp. 88–95.
[3] C.-F. Chiasserini and R. R. Rao, “Improving battery performance by using traffic shaping techniques,” IEEE J. Sel. Areas Commun., vol. 19, no. 7, pp. 1385–1394, 2001.
[4] C.-F. Chiasserini and R. R. Rao, “Energy efficient battery management,” IEEE J. Sel. Areas Commun., vol. 19, no. 7, pp. 1235–1245, 2001.

Name		Name	Last commit message	Last commit date
Latest commit History 43 Commits
out/gcc-debug		out/gcc-debug
results		results
.cmdenv-log		.cmdenv-log
.cproject		.cproject
.gitattributes		.gitattributes
.oppbuildspec		.oppbuildspec
.project		.project
.tkenvlog		.tkenvlog
.tkenvrc		.tkenvrc
Makefile		Makefile
Netzwerk.ned		Netzwerk.ned
Node.ned		Node.ned
README.md		README.md
battery.cc		battery.cc
battery.ned		battery.ned
omnetpp.ini		omnetpp.ini
package.ned		package.ned
power_update.msg		power_update.msg
power_update_m.cc		power_update_m.cc
power_update_m.h		power_update_m.h
project_task.pdf		project_task.pdf
stochastic_battery.exe		stochastic_battery.exe
stochastic_battery_documentation.pdf		stochastic_battery_documentation.pdf
transceiver.cc		transceiver.cc
transceiver.ned		transceiver.ned

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Stochastic Battery Model

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