论文信息 - Individual Identity in Songbirds: Signal Representations and Metric Learning for Locating the Information in Complex Corvid Calls

Individual Identity in Songbirds: Signal Representations and Metric Learning for Locating the Information in Complex Corvid Calls

Bird calls range from simple tones to rich dynamic multi-harmonic structures. The more complex calls are very poorly understood at present, such as those of the scientifically important corvid family (jackdaws, crows, ravens, etc.). Individual birds can recognise familiar individuals from calls, but where in the signal is this identity encoded? We studied the question by applying a combination of feature representations to a dataset of jackdaw calls, including linear predictive coding (LPC) and adaptive discrete Fourier transform (aDFT). We demonstrate through a classification paradigm that we can strongly outperform a standard spectrogram representation for identifying individuals, and we apply metric learning to determine which time-frequency regions contribute most strongly to robust individual identification. Computational methods can help to direct our search for understanding of these complex biological signals.

[1] Shigeru Watanabe,et al. Perceptual mechanism for vocal individual recognition in jungle crows (Corvus macrorhynchos): contact call signature and discrimination , 2010 .

[2] Kilian Q. Weinberger,et al. Distance Metric Learning for Large Margin Nearest Neighbor Classification , 2005, NIPS.

[3] M. Wilson,et al. Handbook of the birds of Europe, the Middle East and North Africa. The birds of the Western Palearctic: 3. Waders to gulls , 1984 .

[4] Geoffrey E. Hinton,et al. Visualizing Data using t-SNE , 2008 .

[5] Mark D. Plumbley,et al. Birdsong and C4DM: A survey of UK birdsong and machine recognition for music researchers , 2011 .

[6] J. Makhoul,et al. Linear prediction: A tutorial review , 1975, Proceedings of the IEEE.

[7] Athanasios Mouchtaris,et al. Speech Analysis and Synthesis with a Computationally Efficient Adaptive Harmonic Model , 2015, IEEE/ACM Transactions on Audio, Speech, and Language Processing.

[8] F. Goller,et al. Peripheral mechanisms for vocal production in birds – differences and similarities to human speech and singing , 2010, Brain and Language.