Juan J. Noda scite author profile

Fish as well as birds, mammals, insects and other animals are capable of emitting sounds for diverse purposes, which can be recorded through microphone sensors. Although fish vocalizations have been known for a long time, they have been poorly studied and applied in their taxonomic classification. This work presents a novel approach for automatic remote acoustic identification of fish through their acoustic signals by applying pattern recognition techniques. The sound signals are preprocessed and automatically segmented to extract each call from the background noise. Then, the calls are parameterized using Linear and Mel Frequency Cepstral Coefficients (LFCC and MFCC), Shannon Entropy (SE) and Syllable Length (SL), yielding useful information for the classification phase. In our experiments, 102 different fish species have been successfully identified with three widely used machine learning algorithms: K-Nearest Neighbors (KNN), Random Forest (RF) and Support Vector Machine (SVM). Experimental results show an average classification accuracy of 95.24%, 93.56% and 95.58%, respectively.

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Acoustic Classification of Singing Insects Based on MFCC/LFCC Fusion

Noda

González

Sánchez-Rodríguez

et al. 2019

Applied Sciences

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This work introduces a new approach for automatic identification of crickets, katydids and cicadas analyzing their acoustic signals. We propose the building of a tool to identify this biodiversity. The study proposes a sound parameterization technique designed specifically for identification and classification of acoustic signals of insects using Mel Frequency Cepstral Coefficients (MFCC) and Linear Frequency Cepstral Coefficients (LFCC). These two sets of coefficients are evaluated individually as has been done in previous studies and have been compared with the fusion proposed in this work, showing an outstanding increase in identification and classification at species level reaching a success rate of 98.07% on 343 insect species.

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Methodology for automatic bioacoustic classification of anurans based on feature fusion

Noda¹,

Travieso²,

Sánchez-Rodríguez

2016

Expert Systems with Applications

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Using bioacoustic signals and Support Vector Machine for automatic classification of insects

Noda

Travieso

Sánchez-Rodríguez

et al. 2016

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Fusion of Linear and Mel Frequency Cepstral Coefﬁcients for Automatic Classiﬁcation of Reptiles

2017

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Bioacoustic research of reptile calls and vocalizations has been limited due to the general consideration that they are voiceless. However, several species of geckos, turtles, and crocodiles are able to produce simple and even complex vocalizations which are species-specific. This work presents a novel approach for the automatic taxonomic identification of reptiles through their bioacoustics by applying pattern recognition techniques. The sound signals are automatically segmented, extracting each call from the background noise. Then, their calls are parametrized using Linear and Mel Frequency Cepstral Coefficients (LFCC and MFCC) to serve as features in the classification stage. In this study, 27 reptile species have been successfully identified using two machine learning algorithms: K-Nearest Neighbors (kNN) and Support Vector Machine (SVM). Experimental results show an average classification accuracy of 97.78% and 98.51%, respectively.

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Juan J. Noda

Automatic Taxonomic Classification of Fish Based on Their Acoustic Signals

Acoustic Classification of Singing Insects Based on MFCC/LFCC Fusion

Methodology for automatic bioacoustic classification of anurans based on feature fusion

Using bioacoustic signals and Support Vector Machine for automatic classification of insects

Fusion of Linear and Mel Frequency Cepstral Coefﬁcients for Automatic Classiﬁcation of Reptiles

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