Preprint
Bat Detective - Deep Learning Tools for Bat Acoustic Signal Detection
bioRxiv, Vol.29 June 2017
Cold Spring Harbor Laboratory Press
2017
Abstract
Passive acoustic sensing has emerged as a powerful tool for quantifying anthropogenic impacts on biodiversity, especially for echolocating bat species. To better assess bat population trends there is a critical need for accurate, reliable, and open source tools that allow the detection and classification of bat calls in large collections of audio recordings. The majority of existing tools are commercial or have focused on the species classification task, neglecting the important problem of first localizing echolocation calls in audio which is particularly problematic in noisy recordings. We developed a convolutional neural network (CNN) based open-source pipeline for detecting ultrasonic, full-spectrum, search-phase calls produced by echolocating bats (BatDetect). Our deep learning algorithms (CNN FULL and CNN FAST ) were trained on full-spectrum ultrasonic audio collected along road-transects across Romania and Bulgaria by citizen scientists as part of the iBats programme and labelled by users of www.batdetective.org . We compared the performance of our system to other algorithms and commercial systems on expert verified test datasets recorded from different sensors and countries. As an example application, we ran our detection pipeline on iBats monitoring data collected over five years from Jersey (UK), and compared results to a widely-used commercial system. Here, we show that both CNN FULL and CNN FAST deep learning algorithms have a higher detection performance (average precision, and recall) of search-phase echolocation calls with our test sets, when compared to other existing algorithms and commercial systems tested. Precision scores for commercial systems were reasonably good across all test datasets (>0.7), but this was at the expense of recall rates. In particular, our deep learning approaches were better at detecting calls in road-transect data, which contained more noisy recordings. Our comparison of CNN FULL and CNN FAST algorithms was favourable, although CNN FAST had a slightly poorer performance, displaying a trade-off between speed and accuracy. Our example monitoring application demonstrated that our open-source, fully automatic, BatDetect CNN FAST pipeline does as well or better compared to a commercial system with manual verification previously used to analyse monitoring data. We show that it is possible to both accurately and automatically detect bat search-phase echolocation calls, particularly from noisy audio recordings. Our detection pipeline enables the automatic detection and monitoring of bat populations, and further facilitates their use as indicator species on a large scale, particularly when combined with automatic species identification. We release our system and datasets to encourage future progress and transparency.
Details
- Title
- Bat Detective - Deep Learning Tools for Bat Acoustic Signal Detection
- Authors
- Oisin Mac Aodha (Author) - University College LondonRory Gibb (Author) - University College LondonKate E Barlow (Author) - Bat Conservation TrustElla Browning (Author) - Zoological Society of LondonMichael Firman (Author) - University College LondonRobin Freeman (Author) - Zoological Society of LondonBriana Harder (Author)Libby Kinsey (Author) - University College LondonGary R Mead (Author)Stuart E Newson (Author) - British Trust for OrnithologyIvan Pandourski (Author) - Institute of Biodiversity and Ecosystem ResearchStuart Parsons (Author) - Queensland University of TechnologyJon Russ (Author) - Ridgeway Ecology LtdAbigel Szodoray-Paradi (Author)Farkas Szodoray-Paradi (Author)Elena Tilova (Author)Mark Girolami (Author) - Imperial College LondonGabriel Brostow (Author) - University College LondonKate E Jones (Author) - University College London
- Publication details
- bioRxiv, Vol.29 June 2017
- Publisher
- Cold Spring Harbor Laboratory Press
- DOI
- 10.1101/156869
- ISSN
- 2692-8205
- Organisation Unit
- University of the Sunshine Coast, Queensland; School of Science, Technology and Engineering
- Language
- English
- Record Identifier
- 99584906102621
- Output Type
- Preprint
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