Experimental optimization of wireless protocols and validation of novel solutions is often problematic, due to limited configuration space present in commercial wireless interfaces as well as complexity of monolithic driver implementation on SDR-based experimentation platforms. To overcome these limitations a novel software architecture is proposed, called WiSHFUL, devised to allow: i) maximal exploitation of radio functionalities available in current radio chips, and ii) clean separation between the logic for optimizing the radio protocols (i.e. radio control) and the definition of these protocols.
Ruckebusch, P., Giannoulis, S., De Poorter, E., Moerman, I., Tinnirello, I., Garlisi, D., et al. (2016). A unified radio control architecture for prototyping adaptive wireless protocols. In 2016 European Conference on Networks and Communications (EuCNC) (pp. 58-63). Institute of Electrical and Electronics Engineers Inc. [10.1109/EuCNC.2016.7561005].
A unified radio control architecture for prototyping adaptive wireless protocols
TINNIRELLO, Ilenia;GARLISI, Domenico;GALLO, Pierluigi;
2016-01-01
Abstract
Experimental optimization of wireless protocols and validation of novel solutions is often problematic, due to limited configuration space present in commercial wireless interfaces as well as complexity of monolithic driver implementation on SDR-based experimentation platforms. To overcome these limitations a novel software architecture is proposed, called WiSHFUL, devised to allow: i) maximal exploitation of radio functionalities available in current radio chips, and ii) clean separation between the logic for optimizing the radio protocols (i.e. radio control) and the definition of these protocols.
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