Automated acoustic detection of Vanellus chilensis lampronotus

• Published in: Expert systems with applications Vol. 42; no. 15-16; pp. 6098 - 6111
• Main Authors: Ganchev, Todor D., Jahn, Olaf, Marques, Marinez Isaac, de Figueiredo, Josiel Maimone, Schuchmann, Karl-L.
• Format: Journal Article
• Language: English
• Published: Elsevier Ltd 01.09.2015
• Subjects: Automated acoustic detector; Automation; Biodiversity; Computational bioacoustics; Conservation; GMM–UBM; Monitoring; Recognition; Recording; Searching; Sound detecting and ranging; Southern Lapwing; Vanellus chilensis lampronotus; Automated acoustic detector; Vanellus chilensis lampronotus; Southern Lapwing; GMM–UBM; Computational bioacoustics
• ISSN: 0957-4174; 1873-6793
• DOI: 10.1016/j.eswa.2015.03.036

•Automated acoustic recognition of Southern Lapwing in real-world soundscapes.•Recognizer of Vanellus chilensis vocalizations and their start and end timestamps.•Log-likelihood ratio estimator with temporal post-processing of the output scores.•Computer-assisted analysis of daily and hourly acoustic activity patterns.•Non-intrusive monitoring of presence/absence and activity patterns. Traditional human-observer-based biological surveys are expensive. Therefore most biodiversity studies are implemented only periodically, for short periods, and predominantly during daytime and under favorable weather conditions. Automated data acquisition and analysis can overcome these shortcomings and facilitate continuous monitoring. Here we report on the development of an automated acoustic recognizer for Southern Lapwing Vanellus chilensis lampronotus vocalizations, a first for this species. The recognizer is a species-specific information retrieval agent, which searches throughout long audio recordings in order to detect and timestamp call events of the target species. The recognizer relies on a log-likelihood ratio estimator, based on a Gaussian Mixture Model–Universal Background Model (GMM–UBM), complemented with purposely-developed temporal post-processing that incorporates domain knowledge about the structure of V. chilensis vocalizations. Validation experiments with real-field recordings of complex soundscapes indicate that the recognizer is sensitive enough to register V. chilensis call events with sound levels down to −30dB and recognition accuracy of up to 85.6%, at zero false positive rates. The recognizer is considered a valuable tool for computer-assisted analysis of hourly and daily acoustic activity of V. chilensis over extended periods of time, as it offers an indispensable support to long-term monitoring studies and conservation efforts in the Pantanal region.1INAU Project 3.14 “Monitoring Bioindicators and Migratory Birds in the Pantanal. Applied Acoustomics – a Tool for Bio-sustainability Assessment”, INAU Lab. 3 – Biodiversity and Ecological Processes (INAU: www.inau.org.br; 2011–2014) – Program CsF (www.cienciasemfronteiras.gov.br/web/csf).1