BioDCASE: Using data challenges to make community advances in computational bioacoustics
Stowell, D.; Nolasco, I.; McEwen, B.; Vidana Vila, E.; Jean-Labadye, L.; Benhamadi, Y.; Lostanlen, V.; Dubus, G.; Hoffman, B.; Linhart, P.; Morandi, I.; Cazau, D.; White, E.; White, P.; Miller, B.; Nguyen Hong Duc, P.; Schall, E.; Parcerisas, C.; Gros-Martial, A.; Moummad, I.
Show abstract
Computational bioacoustics has seen significant advances in recent decades. However, the rate of insights from automated analysis of bioacoustic audio lags behind our rate of collecting the data - due to key capacity constraints in data annotation and bioacoustic algorithm development. Gaps in analysis methodology persist: not because they are intractable, but because of resource limitations in the bioacoustics community. To bridge these gaps, we advocate the open science method of data challenges, structured as public contests. We conducted a bioacoustics data challenge named BioDCASE, within the format of an existing event (DCASE). In this work we report on the procedures needed to select and then conduct useful bioacoustics data challenges. We consider aspects of task design such as dataset curation, annotation, and evaluation metrics. We report the three tasks included in BioDCASE 2025 and the resulting progress made. Based on this we make recommendations for open community initiatives in computational bioacoustics.
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