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A Closer Look at Weak Label Learning for Audio Events

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arxiv 1804.09288 v1 pith:5SCLHJWQ submitted 2018-04-24 cs.SD cs.LGcs.MMeess.AS

A Closer Look at Weak Label Learning for Audio Events

classification cs.SD cs.LGcs.MMeess.AS
keywords eventsaudioweakweaklylabeledlearningsoundlabel
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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Audio content analysis in terms of sound events is an important research problem for a variety of applications. Recently, the development of weak labeling approaches for audio or sound event detection (AED) and availability of large scale weakly labeled dataset have finally opened up the possibility of large scale AED. However, a deeper understanding of how weak labels affect the learning for sound events is still missing from literature. In this work, we first describe a CNN based approach for weakly supervised training of audio events. The approach follows some basic design principle desirable in a learning method relying on weakly labeled audio. We then describe important characteristics, which naturally arise in weakly supervised learning of sound events. We show how these aspects of weak labels affect the generalization of models. More specifically, we study how characteristics such as label density and corruption of labels affects weakly supervised training for audio events. We also study the feasibility of directly obtaining weak labeled data from the web without any manual label and compare it with a dataset which has been manually labeled. The analysis and understanding of these factors should be taken into picture in the development of future weak label learning methods. Audioset, a large scale weakly labeled dataset for sound events is used in our experiments.

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Forward citations

Cited by 2 Pith papers

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    CNNs generalize better than dense networks on noisy user labels for VoIP audio impairment classification, with larger datasets needed in proportion to noise level.

  2. Compression of Acoustic Event Detection Models With Quantized Distillation

    eess.AS 2019-07 unverdicted novelty 4.0

    Joint knowledge distillation and quantization reduces AED model size to 2% of the teacher while lowering error rate by 15%.