Deep Learning Models for Single-Channel Speech Enhancement on Drones

Deep Learning Models for Single-Channel Speech Enhancement on Drones

Blog Article

Speech enhancement for drone audition is made challenging by the strong ego-noise from the rotating motors and propellers, which leads to extremely low signal-to-noise ratios (e.g.SNR $< -15$ dB) at onboard microphones.In this paper, we extensively assess the ability of single-channel deep learning approaches to ego-noise reduction on drones.

We train twelve representative deep ps5 price new jersey neural network (DNN) models, covering three operation domains (time-frequency magnitude domain, time-frequency complex domain and end-to-end time domain) and three distinct architectures (sequential, encoder-decoder and generative).We critically discuss and compare the performance of these models in extremely low-SNR scenarios, ranging from −30 to 0 dB.We show that time-frequency complex domain and UNet encoder-decoder architectures outperform other approaches on speech enhancement measures while providing a good trade-off with other criteria, such as model iphone 13 price ohio size, computation complexity and context length.The best-performing model is a UNet model operating in the time-frequency complex domain, which, at input SNR −15 dB, improves ESTOI from 0.

1 to 0.4, PESQ from 1.0 to 1.9 and SI-SDR from −15 dB to 3.

7 dB.Based on the insights drawn from these findings, we discuss future research in drone ego-noise reduction.