00819cam0 2200265 450 E60020006522620200507105010.020100629d1981 |||||ita|0103 baitaIT<<La >>logica del NovecentoEttore CasariTorinoLoescher1981310 p.19 cmFilosofia001SOBE000362212001 *FilosofiaCasari, EttoreA60020005214307028650ITUNISOB20200507RICAUNISOBUNISOB10051237E600200065226M 102 Monografia moderna SBNM100004120Si51237acquistomassimoUNISOBUNISOB20100629085018.020200507104950.0SpinosaLogica del Novecento346148UNISOB05639nam 22006015 450 991106185790332120260130134949.0978303206088410.1007/978-3-032-06088-4(CKB)45101363900041(MiAaPQ)EBC32530271(Au-PeEL)EBL32530271(DE-He213)978-3-032-06088-4(EXLCZ)994510136390004120260130d2026 u| 0engur|||||||||||txtrdacontentcrdamediacrrdacarrierComputational Bioacoustic Artificial Intelligence /edited by Karthika Subbaraj, Balamurugan Balusamy, M. Chithirai Pon Selvan, Feslin Anish Mon, Chander Prabha1st ed. 2026.Cham :Springer Nature Switzerland :Imprint: Springer,2026.1 online resource (439 pages)Sustainable Artificial Intelligence-Powered Applications, IEREK Interdisciplinary Series for Sustainable Development,3005-17709783032060877 1. Advanced Signal Processing Techniques in Bioacoustics by Elevating Wildlife Monitoring -- 2.Leveraging Advanced Deep Learning Techniques for Enhanced Bioacoustic Classification -- 3. Deep Neural Networks and Wavelet Transforms for Bioacoustic Classification -- 4. Ethical Considerations and Societal Impact -- 5. OPTIMIZING BIOACOUSTIC SIGNAL CLASSIFICATION USING AI-ENHANCED TRADITIONAL ALGORITHMS -- 6. AI-POWERED BIOACOUSTIC METHODS FOR EARLY WARNING OF NATURAL DISASTERS THROUGH ANIMAL BEHAVIORAL CUES -- 7. Artificial Intelligence in Agriculture: Technology-Powered Strategies for a Sustainable Farming Future -- 8. Optimizing Bioacoustic Classification: Deep Metric Learning and Contrastive Embedding Techniques for Unlabeled Acoustic Data -- 9. Integrating Bioacoustic Sensors for Improved Human-Computer Interaction -- 10. Recent Advances in Bioacoustic Data Fusion and Multimodal Analysis -- 11. Acoustic Analysis: Traditional Classification Methods in Bioacoustics -- 12. Enhancing Human-Computer Interaction with Bioacoustics: Techniques and Applications -- 13. Bioacoustics Feature Engineering: Techniques and Applications for Ecological Insight -- 14. Detection of Ecosystem Changes Using Bioacoustics Techniques -- 15. Advanced Techniques for Ecological Research using Bioacoustic Signal Processing -- 16. Ethical and Privacy Considerations in AI-Driven Wildlife Monitoring.This book deep dives into the theoretical background of bioacoustics, signal processing techniques, feature extraction and pattern recognition algorithms, and technically advanced case studies in bioacoustics AI. By exploring the intricate characteristics of bioacoustic signals, this book offers a comprehensive understanding of the underlying principles and practical implementations. The fundamental chapters provide readers the basics by discussing the statistical and deterministic models of bioacoustic signals, including parametric and non-parametric approaches, time-frequency representations, and stochastic processes. Furthermore, this book delves into the complexities of bioacoustic signal generation and propagation, considering physiological factors, acoustic media, and signal degradation. The feature engineering methodology upon the complex and noisy sound data is understood and explored using advanced signal processing techniques, such as wavelet transforms, matching pursuit, higher-order statistics, and fractal analysis. The subsequent chapters focus on feature engineering and pattern recognition. The feature extraction methods under subject of discussion include time-domain, frequency-domain, and time-frequency features, as well as statistical and structural features. The advanced techniques related to deep learning such as convolutional neural networks and recurrent neural networks are also explored. Traditional classification techniques, including statistical pattern recognition and syntactic pattern recognition, are covered, followed by a deep dive into the application of deep learning for bioacoustic classification. The later chapters detail on the futuristic topics such as bioacoustic localization, source separation, change detection, and monitoring. The bioacoustic data collected with other sensor modalities are significant in the development of bioacoustic indices. This book leads the assessment techniques to determine the quality of ecosystem and its performance. Furthermore, the application of bioacoustic AI in man-machine interaction is examined.Sustainable Artificial Intelligence-Powered Applications, IEREK Interdisciplinary Series for Sustainable Development,3005-1770Artificial intelligenceComputational intelligenceLearningPhysiological aspectsMemoryPhysiological aspectsArtificial IntelligenceComputational IntelligenceLearning and MemoryArtificial intelligence.Computational intelligence.LearningPhysiological aspects.MemoryPhysiological aspects.Artificial Intelligence.Computational Intelligence.Learning and Memory.006.3Subbaraj Karthika1893269Subbaraj1893270MiAaPQMiAaPQMiAaPQBOOK9911061857903321Computational Bioacoustic Artificial Intelligence4541271UNINA