Juha T. Tanttu scite author profile

This paper presents a novel method to recognize inharmonic and transient bird sounds efficiently. The recognition algorithm consists of feature extraction using wavelet decomposition and recognition using either supervised or unsupervised classifier. The proposed method was tested on sounds of eight bird species of which five species have inharmonic sounds and three reference species have harmonic sounds. Inharmonic sounds are not well matched to the conventional spectral analysis methods, because the spectral domain does not include any visible trajectories that computer can track and identify. Thus, the wavelet analysis was selected due to its ability to preserve both frequency and temporal information, and its ability to analyze signals which contain discontinuities and sharp spikes. The shift invariant feature vectors calculated from the wavelet coefficients were used as inputs of two neural networks: the unsupervised self-organizing map (SOM) and the supervised multilayer perceptron (MLP). The results were encouraging: the SOM network recognized 78% and the MLP network 96% of the test sounds correctly.

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Tuning of PID Conrollers: Survey of Siso and Mimo Techniques

Koivo

Tanttu

1991

IFAC Proceedings Volumes

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Deep Learning Case Study for Automatic Bird Identification

Niemi

Tanttu

2018

Applied Sciences

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An automatic bird identification system is required for offshore wind farms in Finland. Indubitably, a radar is the obvious choice to detect flying birds, but external information is required for actual identification. We applied visual camera images as external data. The proposed system for automatic bird identification consists of a radar, a motorized video head and a single-lens reflex camera with a telephoto lens. A convolutional neural network trained with a deep learning algorithm is applied to the image classification. We also propose a data augmentation method in which images are rotated and converted in accordance with the desired color temperatures. The final identification is based on a fusion of parameters provided by the radar and the predictions of the image classifier. The sensitivity of this proposed system, on a dataset containing 9312 manually taken original images resulting in 2.44 × 106 augmented data set, is 0.9463 as an image classifier. The area under receiver operating characteristic curve for two key bird species is 0.9993 (the White-tailed Eagle) and 0.9496 (The Lesser Black-backed Gull), respectively. We proposed a novel system for automatic bird identification as a real world application. We demonstrated that our data augmentation method is suitable for image classification problem and it significantly increases the performance of the classifier.

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Tuning of Pid Conrollers: Survey of Siso and Mimo Techniques

Koivo¹,

Tanttu²

1991

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A Comparative Study of Some Multivariable PI Controller Tuning Methods

Tanttu¹,

Lieslehto²

1991

IFAC Proceedings Volumes

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Juha T. Tanttu

Wavelets in Recognition of Bird Sounds

Tuning of PID Conrollers: Survey of Siso and Mimo Techniques

Deep Learning Case Study for Automatic Bird Identification

Tuning of Pid Conrollers: Survey of Siso and Mimo Techniques

A Comparative Study of Some Multivariable PI Controller Tuning Methods

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