Active noise control (ANC) techniques have been intensively studied and applied for the cancellation of stationary noise. More recently, adaptive solutions for the case of impulsive noise, i.e. stochastic processes for which statistical moments superior to the first are not defined, have been proposed in the literature. Nevertheless, such a model fits a limited class of impulsive disturbances that could be experienced in practice. This paper introduces a preliminary study on a non-adaptive deterministic ANC technique for pulse signals that relies on no statistical assumptions. In particular, the spatial audio rendering framework of Wave Field Synthesis is formally adopted in order to synthesize the cancelling acoustic field. Simulations in free field environment, including the analysis of impairments such as time mismatch and template mismatch, have been carried out, showing promising performances in terms of noise cancellation.
Active noise control for pulse signals by Wave Field Synthesis / Lapini, Alessandro; Biagini, Massimiliano; Borchi, Francesco; Carfagni, Monica; Argenti, Fabrizio. - ELETTRONICO. - 2016:(2016), pp. 883-887. (Intervento presentato al convegno 24th European Signal Processing Conference, EUSIPCO 2016 tenutosi a Hotel Hilton Budapest, hun nel 29 Aug.-2 Sept. 2016) [10.1109/EUSIPCO.2016.7760375].
Active noise control for pulse signals by Wave Field Synthesis
LAPINI, ALESSANDRO;Borchi, Francesco;CARFAGNI, MONICA;ARGENTI, FABRIZIO
2016
Abstract
Active noise control (ANC) techniques have been intensively studied and applied for the cancellation of stationary noise. More recently, adaptive solutions for the case of impulsive noise, i.e. stochastic processes for which statistical moments superior to the first are not defined, have been proposed in the literature. Nevertheless, such a model fits a limited class of impulsive disturbances that could be experienced in practice. This paper introduces a preliminary study on a non-adaptive deterministic ANC technique for pulse signals that relies on no statistical assumptions. In particular, the spatial audio rendering framework of Wave Field Synthesis is formally adopted in order to synthesize the cancelling acoustic field. Simulations in free field environment, including the analysis of impairments such as time mismatch and template mismatch, have been carried out, showing promising performances in terms of noise cancellation.File | Dimensione | Formato | |
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