A Software-Based Approach for Acoustical Modeling of Construction Job Sites with Multiple Operational Machines

B. Sherafat, Abbas Rashidi, Siyuan Song
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引用次数: 6

Abstract

Several studies have been conducted to automatically recognize activities of construction equipment using their generated sound patterns. Most of these studies are focused on single-machine scenarios under controlled environments. However, real construction job sites are more complex and often consist of several types of equipment with different orientations, directions, and locations working simultaneously. The current state-of-research for recognizing activities of multiple machines on a job site is hardware-oriented, on the basis of using microphone arrays (i.e., several single microphones installed on a board under specific geometric layout) and beamforming principles for classifying sound directions for each machine. While effective, the common hardware-approach has limitations and using microphone arrays is not always a feasible option at ordinary job sites. In this paper, the authors proposed a software-oriented approach using Deep Neural Networks (DNNs) and Time-Frequency Masks (TFMs) to address this issue. The proposed method requires using single microphones, as the sound sources could be differentiated by training a DNN. The presented approach has been tested and validated under simulated job site conditions where two machines operated simultaneously. Results show that the average accuracy for soft TFM is 38% higher than binary TFM.
基于软件的多操作机器施工现场声学建模方法
已经进行了几项研究,以利用其产生的声音模式自动识别建筑设备的活动。这些研究大多集中在受控环境下的单机场景。然而,真正的建筑工地是更复杂的,往往包括几种类型的设备,不同的方向,方向和位置同时工作。目前在工作现场多台机器活动识别的研究现状是面向硬件的,基于使用麦克风阵列(即在特定几何布局的板上安装几个单个麦克风)和波束形成原理对每台机器的声音方向进行分类。虽然有效,但常见的硬件方法有局限性,并且在普通作业现场使用麦克风阵列并不总是可行的选择。在本文中,作者提出了一种面向软件的方法,使用深度神经网络(dnn)和时频掩模(tfm)来解决这个问题。所提出的方法需要使用单个麦克风,因为声源可以通过训练DNN来区分。所提出的方法已在两台机器同时工作的模拟工作现场条件下进行了测试和验证。结果表明,软TFM的平均精度比二进制TFM高38%。
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