Many biological monitoring projects rely on acoustic detection of birds. Despite increasingly large datasets, this detection is often manual or semi-automatic, requiring manual tuning/postprocessing. We review the state of the art in automatic bird sound detection, and identify a widespread need for tuning-free and species-agnostic approaches. We introduce new datasets and an IEEE research challenge to address this need, to make possible the development of fully automatic algorithms for bird sound detection
Biodiversity monitoring has become a critical task for governments and ecological research agencies ...
\ua9 2020 The AuthorsThe avian dawn chorus presents a challenging opportunity to test autonomous rec...
PhDThere are many potential applications of automatic species detection and classifi cation of birds...
Assessing the presence and abundance of birds is important for monitoring specific species as well a...
Trends in bird population sizes are an important indicator in nature conservation but measuring such...
Analysing behavioural patterns of bird species in a certain region enables researchers to recognize ...
Detecting bird sounds in audio recordings automatically, if accurate enough, is expected to be of gr...
© 2020 IEEE. Monitoring wildlife is an important aspect of conservation initiatives. Deep learning d...
International audiencePassive acoustic monitoring is a cornerstone of the assessment of ecosystem he...
Birds have been long monitored manually, which is very labor intensive. This work tries to explore a...
Automated recognition software is paramount for effective passive acoustic monitoring. BirdNET is a ...
The primary purpose for pursuing this research is to present a modular approach that enables reliabl...
Audio sound recognition and classification is used for many tasks and applications including human v...
Abstract. We report on a research effort aiming at the development of an acoustic bird activity dete...
Automated observation of avian vocal activity and species diversity can be a transformative tool for...
Biodiversity monitoring has become a critical task for governments and ecological research agencies ...
\ua9 2020 The AuthorsThe avian dawn chorus presents a challenging opportunity to test autonomous rec...
PhDThere are many potential applications of automatic species detection and classifi cation of birds...
Assessing the presence and abundance of birds is important for monitoring specific species as well a...
Trends in bird population sizes are an important indicator in nature conservation but measuring such...
Analysing behavioural patterns of bird species in a certain region enables researchers to recognize ...
Detecting bird sounds in audio recordings automatically, if accurate enough, is expected to be of gr...
© 2020 IEEE. Monitoring wildlife is an important aspect of conservation initiatives. Deep learning d...
International audiencePassive acoustic monitoring is a cornerstone of the assessment of ecosystem he...
Birds have been long monitored manually, which is very labor intensive. This work tries to explore a...
Automated recognition software is paramount for effective passive acoustic monitoring. BirdNET is a ...
The primary purpose for pursuing this research is to present a modular approach that enables reliabl...
Audio sound recognition and classification is used for many tasks and applications including human v...
Abstract. We report on a research effort aiming at the development of an acoustic bird activity dete...
Automated observation of avian vocal activity and species diversity can be a transformative tool for...
Biodiversity monitoring has become a critical task for governments and ecological research agencies ...
\ua9 2020 The AuthorsThe avian dawn chorus presents a challenging opportunity to test autonomous rec...
PhDThere are many potential applications of automatic species detection and classifi cation of birds...