Machine listening in a neonatal intensive care unit

Modan TailleurLS2N, Nantes Univ - ECN, LS2N - équipe SIMS, Vincent LostanlenLS2N, LS2N - équipe SIMS, Nantes Univ - ECN, Jean-Philippe RivièreNantes Univ, Nantes Univ - UFR FLCE, LS2N, LS2N - équipe PACCE, Pierre Aumond
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Abstract

Oxygenators, alarm devices, and footsteps are some of the most common sound sources in a hospital. Detecting them has scientific value for environmental psychology but comes with challenges of its own: namely, privacy preservation and limited labeled data. In this paper, we address these two challenges via a combination of edge computing and cloud computing. For privacy preservation, we have designed an acoustic sensor which computes third-octave spectrograms on the fly instead of recording audio waveforms. For sample-efficient machine learning, we have repurposed a pretrained audio neural network (PANN) via spectral transcoding and label space adaptation. A small-scale study in a neonatological intensive care unit (NICU) confirms that the time series of detected events align with another modality of measurement: i.e., electronic badges for parents and healthcare professionals. Hence, this paper demonstrates the feasibility of polyphonic machine listening in a hospital ward while guaranteeing privacy by design.
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新生儿重症监护室的机器监听
氧气机、报警装置和脚步声是医院中最常见的声音来源。检测它们对环境心理学具有科学价值,但同时也面临着自身的挑战:即隐私保护和有限的标记数据。在本文中,我们通过边缘计算和云计算的结合来应对这两个挑战。为了保护隐私,我们设计了一种声学传感器,它可以即时计算第三倍频程频谱图,而不是记录音频波形。为了提高机器学习的采样效率,我们重新利用了预训练音频神经网络(PANN)进行频谱转码和标签空间适应。在新生儿重症监护室(NICU)进行的一项小规模研究证实,检测到的事件时间序列与另一种测量方式(即家长和医护人员的电子胸牌)一致。因此,本文证明了在医院病房中使用多声部机器监听的可行性,同时通过设计保证了隐私。
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