01190nam0-22004091i-450-99000555688020331620110131012503.108000555688USA01000555688(ALEPH)000555688USA0100055568820110131d1978-------|0itac50------baitaIT|||| |||||<<La >> riforma monetariaJohn Maynard Keynestraduzione di Piero SraffaMilanoFeltrinelli1978160 p.22 cm<<I>> fatti e le idee2972001<<I>> fatti e le idee297Politica monetariaFIMilano332.4Moneta21KEYNES,John Maynard34099SRAFFA,PieroFeltrinelliITSOL20120104990005556880203316DIP.TO SCIENZE ECONOMICHE - (SA)DS 300 332.4KEY KEYFPP14335 DISES300 332.4KEY KEY14335 DISESBKDISES20121027USA01153320121027USA011613Riforma monetaria681977UNISAUSA1973606126nam 22005175 450 991046647360332120200826040535.01-61451-631-610.1515/9781614516316(CKB)3850000000000772(MiAaPQ)EBC4895013(DE-B1597)253058(OCoLC)992454078(DE-B1597)9781614516316(EXLCZ)99385000000000077220200826h20172017 fg engurcnu||||||||rdacontentrdamediardacarrierComputational Bioacoustics Biodiversity Monitoring and Assessment /Todor GanchevBerlin ;Boston : De Gruyter, [2017]©20171 online resource (222 pages) color illustrationsSpeech Technology and Text Mining in Medicine and Health Care ;41-61451-729-0 Includes bibliographical references and index.Frontmatter -- Abstract -- Preface -- Contents -- Acronyms -- 1. Introduction -- 2. Why computational bioacoustics? -- 3. Definition of tasks -- 4. Acoustic libraries -- 5. One-dimensional audio parameterization -- 6. Two-dimensional audio parameterization -- 7. Audio recognizers -- 8. Application examples -- 9. Useful resources -- Epilogue -- References -- Index This book offers an overview of some recent advances in the Computational Bioacoustics methods and technology. In the focus of discussion is the pursuit of scalability, which would facilitate real-world applications of different scope and purpose, such as wildlife monitoring, biodiversity assessment, pest population control, and monitoring the spread of disease transmitting mosquitoes. The various tasks of Computational Bioacoustics are described and a wide range of audio parameterization and recognition tasks related to the automated recognition of species and sound events is discussed. Many of the Computational Bioacoustics methods were originally developed for the needs of speech, audio, or image processing, and afterwards were adapted to the requirements of automated acoustic recognition of species, or were elaborated further to address the challenges of real-world operation in 24/7 mode. The interested reader is encouraged to follow the numerous references and links to web resources for further information and insights. This book is addressed to Software Engineers, IT experts, Computer Science researchers, Bioacousticians, and other practitioners concerned with the creation of new tools and services, aimed at enhancing the technological support to Computational Bioacoustics applications. This book offers an overview of some recent advances in the Computational Bioacoustics methods and technology. In the focus of discussion is the pursuit of scalability, which would facilitate real-world applications of different scope and purpose, such as wildlife monitoring, biodiversity assessment, pest population control, and monitoring the spread of disease transmitting mosquitoes. The various tasks of Computational Bioacoustics are described and a wide range of audio parameterization and recognition tasks related to the automated recognition of species and sound events is discussed. Many of the Computational Bioacoustics methods were originally developed for the needs of speech, audio, or image processing, and afterwards were adapted to the requirements of automated acoustic recognition of species, or were elaborated further to address the challenges of real-world operation in 24/7 mode. The interested reader is encouraged to follow the numerous references and links to web resources for further information and insights. This book is addressed to Software Engineers, IT experts, Computer Science researchers, Bioacousticians, and other practitioners concerned with the creation of new tools and services, aimed at enhancing the technological support to Computational Bioacoustics applications. STTM, Speech Technology and Text Mining in Medicine and Health Care This series demonstrates how the latest advances in speech technology and text mining positively affect patient healthcare and, in a much broader sense, public health at large. New developments in text mining methods have allowed health care providers to monitor a large population of patients at any time and from any location. Employing advanced summarization techniques, patient data can be readily extracted from extensive clinical documents in electronic health records and immediately made available to the physician. These same summarization techniques can also aid the healthcare provider in extracting from the large corpora of medical literature the relevant information for treating the patient. The series topics include the design and acceptance of speech-enabled robots that assist in the operating room, studies of signal processing and acoustic modeling for speech and communication disorders, advanced statistical speech enhancement methods for creating synthetic voice, and technologies for addressing speech and language impairments. Titles in the Series consist of both authored books and edited contributions. All authored books and contributed works are peer-reviewed. The Series is for speech scientists and speech engineers, machine learning experts, biomedical engineers, medical speech pathologists, linguists, and healthcare professionals Speech technology and text mining in medicine and healthcare ;Volume 4.BiodiversityMonitoringEnvironmental monitoringElectronic books.akustikkbioakustikkbiodiversitetBiodiversityMonitoring.Environmental monitoring.333.95Ganchev Todor, authttp://id.loc.gov/vocabulary/relators/aut923185DE-B1597DE-B1597BOOK9910466473603321Computational Bioacoustics2071581UNINA