Damien Hedde, Pierre-Henri Horrein, Frédéric Pétrot, Robin Rolland, Franck Rousseau
A MPSoC prototyping platform for flexible radio applications
In Proceedings of DSD 2009, 12th Euromicro Conference on Digital System Design. Patras, Greece, August 27-29, 2009
Thursday 27 August 2009
Full-fledged software radio platforms are complex and expensive systems, focused on signal processing, and not very suitable for easy development and large scale experimentation. We propose a Multi-Processor System-on-Chip (MPSoC) prototyping platform targeting the support for flexible radio. This platform is fully customizable at every layer of the wireless networking stack, making it easy to prototype new protocols from the radio to the application layers. Our goal was threefold: design an efficient but cheap platform supporting flexible radio, provide support for a full system on the platform so that it can run autonomously, use “standard” components as much as possible and a modular design to ensure fast and simple development and testing to network developers. We rely on a highly modular Field-Programmable Gate Array (FPGA) based architecture. The practical results achieved so far show the effectiveness of the proposed solution in term of flexibility and cost.
P.S.
@inproceedings{hedde-dsd2009,
author = {Hedde, Damien and Horrein, Pierre-Henri and Pétrot, Frédéric and Rolland, Robin and Rousseau, Franck},
title = {A {MPSoC} prototyping platform for flexible radio applications},
booktitle = {Proceedings of the 12th Euromicro Conference on Digital System Design (DSD2009)},
publisher = {IEEE Computer Society},
address = {Patras, Greece},
abstract = {Full-fledged software radio platforms are complex and expensive systems, focused on signal processing, and not very suitable for easy development and large scale experimentation. We propose a Multi-Processor System-on-Chip (MPSoC) prototyping platform targeting the support for flexible radio. This platform is fully customizable at every layer of the wireless networking stack, making it easy to prototype new protocols from the radio to the application layers. Our goal was threefold : design an efficient but cheap platform supporting flexible radio, provide support for a full system on the platform so that it can run autonomously, use “standard” components as much as possible and a modular design to ensure fast and simple development and testing to network developers. We rely on a highly modular Field-Programmable Gate Array (FPGA) based architecture. The practical results achieved so far show the effectiveness of the proposed solution in term of flexibility and cost.},
pages = {559--566},
month = Aug # {~27--29},
year = 2009
}titre documents joints:
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Article (PDF - 1.1 Mb)
