PSO based adaptive narrowband ANC algorithm without the use of synchronization signal and secondary path estimate

[Display omitted] •A new PSO based narrowband active noise control algorithm is proposed.•It does not require a synchronization signal and a secondary path estimate.•The controller adapts to change in frequencies, amplitude, phase of discrete tones in the noise, the primary and secondary paths.•Algo...

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Published in	Mechanical systems and signal processing Vol. 114; pp. 378 - 398
Main Authors	Rout, Nirmal Kumar, Das, Debi Prasad, Panda, Ganapati
Format	Journal Article
Language	English
Published	Berlin Elsevier Ltd 01.01.2019 Elsevier BV
Subjects	Active noise control Adaptive algorithms Adaptive control Computer simulation Conditional freezing particle swarm optimization (CFPSO) Narrowband Narrowband ANC Noise control Optimization algorithms Parameter estimation Particle swarm optimization Particle swarm optimization (PSO) Performance degradation Signal processing Synchronism Transfer functions Waveform analysis Waveform synthesis Conditional freezing particle swarm optimization (CFPSO) Waveform synthesis Particle swarm optimization (PSO) Active noise control Narrowband ANC
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ISSN	0888-3270 1096-1216
DOI	10.1016/j.ymssp.2018.05.018

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Abstract	[Display omitted] •A new PSO based narrowband active noise control algorithm is proposed.•It does not require a synchronization signal and a secondary path estimate.•The controller adapts to change in frequencies, amplitude, phase of discrete tones in the noise, the primary and secondary paths.•Algorithm is derivative free algorithm and immune to fall in local minima.•A novel conditional freezing PSO is proposed for achieving early convergence. Narrowband active noise control (ANC) conventionally uses the waveform synthesis method in which a synchronization signal is essential. In addition to this, to update the parameters of the controller, prior estimation of the secondary path is required. Any mismatch in the frequency of the synchronization signal and the secondary path estimate compared to actual leads to a degraded performance in noise control. In this paper, a new type of narrowband ANC algorithm is proposed which requires neither the synchronization signal nor the secondary path estimate for controller tuning. Therefore, the algorithm is free from the effect of the change in the source frequency and the secondary path transfer function. The proposed adaptive algorithm is based on a non-gradient type optimization algorithm named as particle swarm optimization (PSO) algorithm. Through exhaustive computer based simulation, it has been demonstrated that the algorithm is not only capable to control a monotone noise but also efficiently control a multi-tone noise. The algorithm, due to its adaptive nature, is also capable of tracking the change in amplitude and frequency of the noise as well as, the change in the characteristics of primary and secondary paths.
AbstractList	[Display omitted] •A new PSO based narrowband active noise control algorithm is proposed.•It does not require a synchronization signal and a secondary path estimate.•The controller adapts to change in frequencies, amplitude, phase of discrete tones in the noise, the primary and secondary paths.•Algorithm is derivative free algorithm and immune to fall in local minima.•A novel conditional freezing PSO is proposed for achieving early convergence. Narrowband active noise control (ANC) conventionally uses the waveform synthesis method in which a synchronization signal is essential. In addition to this, to update the parameters of the controller, prior estimation of the secondary path is required. Any mismatch in the frequency of the synchronization signal and the secondary path estimate compared to actual leads to a degraded performance in noise control. In this paper, a new type of narrowband ANC algorithm is proposed which requires neither the synchronization signal nor the secondary path estimate for controller tuning. Therefore, the algorithm is free from the effect of the change in the source frequency and the secondary path transfer function. The proposed adaptive algorithm is based on a non-gradient type optimization algorithm named as particle swarm optimization (PSO) algorithm. Through exhaustive computer based simulation, it has been demonstrated that the algorithm is not only capable to control a monotone noise but also efficiently control a multi-tone noise. The algorithm, due to its adaptive nature, is also capable of tracking the change in amplitude and frequency of the noise as well as, the change in the characteristics of primary and secondary paths. Narrowband active noise control (ANC) conventionally uses the waveform synthesis method in which a synchronization signal is essential. In addition to this, to update the parameters of the controller, prior estimation of the secondary path is required. Any mismatch in the frequency of the synchronization signal and the secondary path estimate compared to actual leads to a degraded performance in noise control. In this paper, a new type of narrowband ANC algorithm is proposed which requires neither the synchronization signal nor the secondary path estimate for controller tuning. Therefore, the algorithm is free from the effect of the change in the source frequency and the secondary path transfer function. The proposed adaptive algorithm is based on a non-gradient type optimization algorithm named as particle swarm optimization (PSO) algorithm. Through exhaustive computer based simulation, it has been demonstrated that the algorithm is not only capable to control a monotone noise but also efficiently control a multi-tone noise. The algorithm, due to its adaptive nature, is also capable of tracking the change in amplitude and frequency of the noise as well as, the change in the characteristics of primary and secondary paths.
Author	Panda, Ganapati Das, Debi Prasad Rout, Nirmal Kumar
Author_xml	– sequence: 1 givenname: Nirmal Kumar surname: Rout fullname: Rout, Nirmal Kumar email: nkrout@kiit.ac.in, routnirmal@rediffmail.com organization: School of Electronics Engineering, KIIT University, Bhubaneswar, India – sequence: 2 givenname: Debi Prasad surname: Das fullname: Das, Debi Prasad email: dpdas@immt.res.in, dpdasimmt@gmail.com organization: Process Modeling and Instrumentation Dept., CSIR-Institute of Minerals and Materials Technology, Bhubaneswar, India – sequence: 3 givenname: Ganapati surname: Panda fullname: Panda, Ganapati email: ganapati.panda@gmail.com organization: School of Electrical Sciences, Indian Institute of Technology, Bhubaneswar, India
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Keywords	Conditional freezing particle swarm optimization (CFPSO) Waveform synthesis Particle swarm optimization (PSO) Active noise control Narrowband ANC
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Snippet	[Display omitted] •A new PSO based narrowband active noise control algorithm is proposed.•It does not require a synchronization signal and a secondary path... Narrowband active noise control (ANC) conventionally uses the waveform synthesis method in which a synchronization signal is essential. In addition to this, to...
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SubjectTerms	Active noise control Adaptive algorithms Adaptive control Computer simulation Conditional freezing particle swarm optimization (CFPSO) Narrowband Narrowband ANC Noise control Optimization algorithms Parameter estimation Particle swarm optimization Particle swarm optimization (PSO) Performance degradation Signal processing Synchronism Transfer functions Waveform analysis Waveform synthesis
Title	PSO based adaptive narrowband ANC algorithm without the use of synchronization signal and secondary path estimate
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