在商用耳塞中实现自适应降噪的实际考虑

IF 1.1 Q2 SOCIAL SCIENCES, INTERDISCIPLINARY
Agustinus Oey
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引用次数: 0

摘要

主动降噪已成为当代入耳式个人音频设备的突出特点。然而,由于元件布置、功耗和制造成本的限制,大多数商业产品使用固定型控制器系统作为其主动噪声控制算法的基础。这些系统提供了强大的性能和一个简单的结构,这是可以实现具有成本效益的数字信号处理器。尽管如此,固定型控制器的一个主要缺点是它们无法适应声音传递路径的变化,例如耳机安装条件的变化。因此,采用自适应数字滤波器的自适应型有源噪声控制系统被认为是替代方案。为了解决日益增加的系统复杂性,设计概念和实现策略讨论了相对于实际的硬件限制。为了说明这些考虑,本文提出了一个案例研究,展示了基于滤波x最小均方的主动噪声控制算法的实现。一个商业评估板容纳一个低成本,定点数字信号处理器,以简化操作和提供编程访问。这款耳塞来自一款用于消除噪音的商业产品。本研究强调了在实现自适应有源噪声消除时解决硬件限制的重要性,为实际应用提供了有价值的见解。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Practical Considerations for Implementing Adaptive Acoustic Noise Cancellation in Commercial Earbuds
Active noise cancellation has become a prominent feature in contemporary in-ear personal audio devices. However, due to constraints related to component arrangement, power consumption, and manufacturing costs, most commercial products utilize fixed-type controller systems as the basis for their active noise control algorithms. These systems offer robust performance and a straightforward structure, which is achievable with cost-effective digital signal processors. Nonetheless, a major drawback of fixed-type controllers is their inability to adapt to changes in acoustic transfer paths, such as variations in earpiece fitting conditions. Therefore, adaptive-type active noise control systems that employ adaptive digital filters are considered as the alternative. To address the increasing system complexity, design concepts and implementation strategies are discussed with respect to actual hardware limitations. To illustrate these considerations, a case study showcasing the implementation of a filtered-x least mean square-based active noise control algorithm is presented. A commercial evaluation board accommodating a low-cost, fixed-point digital signal processor is used to simplify operation and provide programming access. The earbuds are obtained from a commercial product designed for noise cancellation. This study underscores the importance of addressing hardware constraints when implementing adaptive active noise cancellation, providing valuable insights for real-world applications.
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来源期刊
CiteScore
3.60
自引率
15.40%
发文量
51
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