This paper introduces a transmit beamforming strategy taking into account the positions of primary, secondary victim and intended secondary receivers, to achieve underlay secondary access in multihop cognitive radio networking. The transmit beamforming strategy defines a novel path optimization scheme that deviates from a preselected path given by the routing module, based on local information and according to a relay selection metric. This metric is designed to improve both coexistence with primary/secondary victim receivers and performance of the secondary cognitive network. Simulations compare the proposed strategy with a baseline solution that does not adopt beamforming, and with a strategy that applies beamforming on each hop without modifying the original path. Results show that the proposed strategy is capable of improving coexistence with primary/secondary victims, and highlight that a trade-off exists between the meeting of coexistence constraints and maximisation of secondary network performance. © 2013 IEEE.
Multi-hop cognitive radio networking through beamformed underlay secondary access / Auon Muhammad, Akhtar; DE NARDIS, Luca; Mohammad Reza, Nakhai; Holland, Oliver; DI BENEDETTO, Maria Gabriella; A., Hamid Aghvami. - ELETTRONICO. - (2013), pp. 2863-2868. (Intervento presentato al convegno 2013 IEEE International Conference on Communications, ICC 2013 tenutosi a Budapest; Hungary nel 9 June 2013 through 13 June 2013) [10.1109/icc.2013.6654975].
Multi-hop cognitive radio networking through beamformed underlay secondary access
DE NARDIS, LUCA;DI BENEDETTO, Maria Gabriella;
2013
Abstract
This paper introduces a transmit beamforming strategy taking into account the positions of primary, secondary victim and intended secondary receivers, to achieve underlay secondary access in multihop cognitive radio networking. The transmit beamforming strategy defines a novel path optimization scheme that deviates from a preselected path given by the routing module, based on local information and according to a relay selection metric. This metric is designed to improve both coexistence with primary/secondary victim receivers and performance of the secondary cognitive network. Simulations compare the proposed strategy with a baseline solution that does not adopt beamforming, and with a strategy that applies beamforming on each hop without modifying the original path. Results show that the proposed strategy is capable of improving coexistence with primary/secondary victims, and highlight that a trade-off exists between the meeting of coexistence constraints and maximisation of secondary network performance. © 2013 IEEE.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
