Investigation of an engine order noise cancellation system in a super sports car

IF 1 3区物理与天体物理 Q4 ACOUSTICS

Acta Acustica Pub Date : 2023-01-01 DOI:10.1051/aacus/2022060

Cesare Lupo Ferrari, J. Cheer, Mario Mautone

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引用次数: 4

Abstract

Today’s cars must meet ever-higher acoustic standards, and so, to avoid compromising vehicle dynamics, handling performance and fuel consumption, standard passive methods alone do not provide sufficient performance. Active control solutions can provide a potential solution to this challenge, particularly at low frequency and such systems have been investigated for application to small cars, SUVs and luxury vehicles. These vehicles are generally characterised by fairly slow dynamics and limited noise emission and, therefore, this paper explores the challenging application of active noise control to a two-seat super sports car equipped with a naturally aspirated engine. This work aims to track and then control sounds characterised by extremely rapid frequency variation rates, up to peaks of over 80 Hz/s, and high sound pressure levels. A multi-channel, multi-order FxLMS based control system has been implemented, which has been modified to optimise performance for this application by including both convergence gain and leakage scheduling, to achieve effective control at the driver’s and passenger’s ears. To evaluate the performance of the controller, its performance has been simulated when applied to measurements taken under several vehicle manoeuvres, ranging from conventional constant engine speed to very fast engine run-ups. From the presented results, it is shown that the system can obtain high levels of control during the manoeuvre set, with the controller reducing the overall sound pressure level by more than 10 dB at certain frequencies when analysing a single order, and it reduces the overall loudness by around 5% in all of the analysed cases.

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某超级跑车发动机命令噪声消除系统的研究

今天的汽车必须满足越来越高的声学标准，因此，为了避免影响车辆动力学，操纵性能和燃油消耗，标准的被动方法本身并不能提供足够的性能。主动控制解决方案可以为这一挑战提供潜在的解决方案，特别是在低频情况下，此类系统已被研究用于小型车、suv和豪华车。这些车辆通常具有相当缓慢的动力学和有限的噪声排放的特点，因此，本文探讨了主动噪声控制在配备自然吸气发动机的双座超级跑车上的具有挑战性的应用。这项工作旨在跟踪并控制以极快的频率变化率为特征的声音，最高可达80 Hz/s以上，声压级高。基于FxLMS的多通道、多阶控制系统已经实现，该系统经过修改，通过包括收敛增益和泄漏调度来优化性能，从而实现驾驶员和乘客耳朵的有效控制。为了评估控制器的性能，我们对其性能进行了模拟，并将其应用于几种车辆机动下的测量，范围从传统的恒定发动机转速到非常快的发动机运转。从所提供的结果来看，该系统可以在操纵设置期间获得高水平的控制，控制器在分析单个订单时，在某些频率下将总声压级降低10 dB以上，并且在所有分析情况下将总响度降低约5%。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Acta Acustica ACOUSTICS-

CiteScore

2.80

自引率

21.40%

发文量

审稿时长

12 weeks

期刊介绍： Acta Acustica, the Journal of the European Acoustics Association (EAA). After the publication of its Journal Acta Acustica from 1993 to 1995, the EAA published Acta Acustica united with Acustica from 1996 to 2019. From 2020, the EAA decided to publish a journal in full Open Access. See Article Processing charges. Acta Acustica reports on original scientific research in acoustics and on engineering applications. The journal considers review papers, scientific papers, technical and applied papers, short communications, letters to the editor. From time to time, special issues and review articles are also published. For book reviews or doctoral thesis abstracts, please contact the Editor in Chief.