TY - GEN

T1 - Semi-adaptive active noise cancellation headphones

AU - Li, Song

AU - Schlieper, Roman

AU - Peissig, Jürgen

N1 - Funding Information: This work is supported by Huawei Innovation Research Program project (HIRP FLAGSHIP).

PY - 2021/8/1

Y1 - 2021/8/1

N2 - Active noise cancellation (ANC) headphones are becoming increasingly popular as they can effectively attenuate perceived ambient noise. Fixed filters are commonly applied in commercially available ANC headphones due to their robustness. However, they are not capable of adapting to changes that occur in dynamic environments, resulting in degraded ANC performance. In contrast, adaptive filters are able to update the ANC filters to compensate for noise in dynamic environments, but large estimation errors can occur due to a sudden change in the type of noise or secondary path. Some studies have suggested an ANC structure by combining fixed and adaptive filters. Based on this, we propose a semi-adaptive ANC system in which the fixed and adaptive filters are weighted in real-time. Initially, the weighting for the fixed filter dominates the whole system to ensure the robustness of the ANC system. Then, the residual error provided by the adaptive filter is simulated and compared to the real measured one to determine the relative weighting between the fixed and adaptive filters. In this study, this approach is applied to a feedback ANC system. Simulation results show that our proposed approach achieves high noise attenuation performance while maintaining robustness with time-varying secondary paths.

AB - Active noise cancellation (ANC) headphones are becoming increasingly popular as they can effectively attenuate perceived ambient noise. Fixed filters are commonly applied in commercially available ANC headphones due to their robustness. However, they are not capable of adapting to changes that occur in dynamic environments, resulting in degraded ANC performance. In contrast, adaptive filters are able to update the ANC filters to compensate for noise in dynamic environments, but large estimation errors can occur due to a sudden change in the type of noise or secondary path. Some studies have suggested an ANC structure by combining fixed and adaptive filters. Based on this, we propose a semi-adaptive ANC system in which the fixed and adaptive filters are weighted in real-time. Initially, the weighting for the fixed filter dominates the whole system to ensure the robustness of the ANC system. Then, the residual error provided by the adaptive filter is simulated and compared to the real measured one to determine the relative weighting between the fixed and adaptive filters. In this study, this approach is applied to a feedback ANC system. Simulation results show that our proposed approach achieves high noise attenuation performance while maintaining robustness with time-varying secondary paths.

UR - http://www.scopus.com/inward/record.url?scp=85117383988&partnerID=8YFLogxK

U2 - 10.3397/IN-2021-2808

DO - 10.3397/IN-2021-2808

M3 - Conference contribution

AN - SCOPUS:85117383988

T3 - Proceedings of INTER-NOISE 2021 - 2021 International Congress and Exposition of Noise Control Engineering

SP - 4717

EP - 4723

BT - Proceedings of INTER-NOISE 2021 - 2021 International Congress and Exposition of Noise Control Engineering

A2 - Dare, Tyler

A2 - Bolton, Stuart

A2 - Davies, Patricia

A2 - Xue, Yutong

A2 - Ebbitt, Gordon

T2 - 50th International Congress and Exposition of Noise Control Engineering, INTER-NOISE 2021

Y2 - 1 August 2021 through 5 August 2021

ER -