Abstract
To understand the social interactions among songbirds, extracting the timing, position, and acoustic properties of their vocalizations is essential. We propose a framework for automatic and fine-scale extraction of spatial-spectral-temporal patterns of bird vocalizations in a densely populated environment. For this purpose, we used robot audition techniques to integrate information (i.e., the timing, direction of arrival, and separated sound of localized sources) from multiple microphone arrays (array of arrays) deployed in an environment, which is non-invasive. As a proof of concept of this framework, we examined the ability of the method to extract active vocalizations of multiple Zebra Finches in an outdoor mesh tent as a realistic situation in which they could fly and vocalize freely. We found that localization results of vocalizations reflected the arrangements of landmark spots in the environment such as nests or perches and some vocalizations were localized at non-landmark positions. We also classified their vocalizations as either songs or calls by using a simple method based on the tempo and length of the separated sounds, as an example of the use of the information obtained from the framework. Our proposed approach has great potential to understand their social interactions and the semantics or functions of their vocalizations considering the spatial relationships, although detailed understanding of the interaction would require analysis of more long-term recordings.
Highlights
Songbirds communicate using various vocalizations that have been classified into two main types: songs and calls
A population of songbirds can be regarded as a complex system in that they communicate with each other via vocalization, through which various emergent phenomena have been observed [3]
The objective of this study is to propose a framework for automatic and fine-scale extraction of spatial-spectral-temporal patterns of bird vocalizations in a densely populated environment
Summary
Songbirds communicate using various vocalizations that have been classified into two main types: songs and calls. Songs are relatively long and complex vocalizations, Birds 2021, 2, 158–172. Calls are short and simple sounds used to exchange more specific information such as warning of predators and signals for forming social bonds [2]. A population of songbirds can be regarded as a complex system in that they communicate with each other via vocalization, through which various emergent phenomena have been observed [3]. Intra-specific interactions in a population of songbirds could produce complex results and various studies have been conducted to understand their interactions. One approach for obtaining such complex vocalization and associated spatial data has been to attach a device to each bird and observe their behaviors [4,5,6].
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