Enhancing smart home environments: a novel pattern recognition approach to ambient acoustic event detection and localization.

IF 2.4 Q3 COMPUTER SCIENCE, INFORMATION SYSTEMS

Frontiers in Big Data Pub Date : 2025-01-23 eCollection Date: 2024-01-01 DOI:10.3389/fdata.2024.1419562

Ahsan Shabbir, Abdul Haleem Butt, Taha Khan, Lorenzo Chiari, Ahmad Almadhor, Vincent Karovic

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引用次数: 0

Abstract

Introduction: Ambient acoustic detection and localization play a vital role in identifying events and their origins from acoustic data. This study aimed to establish a comprehensive framework for classifying activities in home environments to detect emergency events and transmit emergency signals. Localization enhances the detection of the acoustic event's location, thereby improving the effectiveness of emergency services, situational awareness, and response times.

Methods: Acoustic data were collected from a home environment using six strategically placed microphones in a bedroom, kitchen, restroom, and corridor. A total of 512 audio samples were recorded from 11 activities. Background noise was eliminated using a filtering technique. State-of-the-art features were extracted from the time domain, frequency domain, time frequency domain, and cepstral domain to develop efficient detection and localization frameworks. Random forest and linear discriminant analysis classifiers were employed for event detection, while the estimation signal parameters through rational-in-variance techniques (ESPRIT) algorithm was used for sound source localization.

Results: The study achieved high detection accuracy, with random forest and linear discriminant analysis classifiers attaining 95% and 87%, respectively, for event detection. For sound source localization, the proposed framework demonstrated significant performance, with an error rate of 3.61, a mean squared error (MSE) of 14.98, and a root mean squared error (RMSE) of 3.87.

Discussion: The integration of detection and localization models facilitated the identification of emergency activities and the transmission of notifications via electronic mail. The results highlight the potential of the proposed methodology to develop a real-time emergency alert system for domestic environments.

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增强智能家居环境：一种新的模式识别方法用于环境声事件检测和定位。

环境声检测和定位在从声学数据中识别事件及其起源方面起着至关重要的作用。本研究旨在建立家庭环境活动分类的综合框架，以侦测紧急事件及传送紧急讯号。定位增强了对声学事件位置的检测，从而提高了应急服务的有效性、态势感知和响应时间。方法：通过在卧室、厨房、洗手间和走廊中放置6个麦克风，从家庭环境中收集声学数据。从11项活动中共录制了512个音频样本。采用滤波技术消除了背景噪声。从时域、频域、时频域和倒谱域提取最先进的特征，以开发有效的检测和定位框架。事件检测采用随机森林分类器和线性判别分析分类器，声源定位采用方差理性技术（ESPRIT）算法估计信号参数。结果：本研究取得了较高的检测准确率，随机森林分类器和线性判别分析分类器对事件的检测准确率分别达到95%和87%。在声源定位方面，所提出的框架表现出显著的性能，错误率为3.61，均方误差（MSE）为14.98，均方根误差（RMSE）为3.87。讨论：检测和定位模式的结合有助于确定紧急活动和通过电子邮件发送通知。结果突出表明，拟议的方法有潜力为国内环境开发一个实时紧急警报系统。

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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