This paper introduces two novel adaptive beam-forming techniques for noise reduction applications. The proposed architectures derive from the generalized sidelobe canceller (GSC); the novelty relies on the use of a combined adaptive sidelobe cancelling structure which allows the system to achieve robustness in nonstationary environments. This structure is composed of a convex combination of two multiple-input singleoutput (MISO) adaptive systems with complementary capabilities which is able to preserve the best properties of each system. The difference between the two schemes lies in the way of combining the two MISO systems. The effectiveness of the proposed systems is assessed in a typical context of a hands-free teleconferencing application in a noisy environment. The experiments show that the proposed beamforming system is capable of improving performance of conventional techniques. © 2013 IEEE.
Combined adaptive beamforming techniques for noise reduction in changing environments / Comminiello, Danilo; Scarpiniti, Michele; Parisi, Raffaele; Uncini, Aurelio. - (2013), pp. 690-694. (Intervento presentato al convegno 2013 36th International Conference on Telecommunications and Signal Processing, TSP 2013 tenutosi a Rome; Italy nel 2 July 2013 through 4 July 2013) [10.1109/tsp.2013.6614025].
Combined adaptive beamforming techniques for noise reduction in changing environments
COMMINIELLO, DANILO;SCARPINITI, MICHELE;PARISI, Raffaele;UNCINI, Aurelio
2013
Abstract
This paper introduces two novel adaptive beam-forming techniques for noise reduction applications. The proposed architectures derive from the generalized sidelobe canceller (GSC); the novelty relies on the use of a combined adaptive sidelobe cancelling structure which allows the system to achieve robustness in nonstationary environments. This structure is composed of a convex combination of two multiple-input singleoutput (MISO) adaptive systems with complementary capabilities which is able to preserve the best properties of each system. The difference between the two schemes lies in the way of combining the two MISO systems. The effectiveness of the proposed systems is assessed in a typical context of a hands-free teleconferencing application in a noisy environment. The experiments show that the proposed beamforming system is capable of improving performance of conventional techniques. © 2013 IEEE.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
