Trends in deep learning methodologies : algorithms, applications, and systems / edited by Vincenzo Piuri, Sandeep Raj, Angelo Genovese, Rajshree Srivastava.
Contributor(s): Piuri, Vincenzo [editor.] | Raj, Sandeep [editor.] | Genovese, Angelo [editor.] | Srivastava, Rajshree [editor.].
Material type:
BookSeries: Hybrid computational intelligence for pattern analysis and understanding series.Publisher: London, United Kingdom ; Elsevier, c2021Description: xvii, 288 pages : illustrations (some color) ; 23 cm.Content type: text Media type: unmediated Carrier type: volumeISBN: 9780128222263; 0128222263.Subject(s): Machine learning | Artificial intelligence | Neural networks (Computer science) | Machine learning | Artificial intelligence | Neural networks (Computer science)Additional physical formats: ebook version :: No titleDDC classification: 006.31/PIT Online resources: Click here to access online Summary: Trends in Deep Learning Methodologies: Algorithms, Applications, and Systems covers deep learning approaches such as neural networks, deep belief networks, recurrent neural networks, convolutional neural networks, deep auto-encoder, and deep generative networks, which have emerged as powerful computational models. Chapters elaborate on these models which have shown significant success in dealing with massive data for a large number of applications, given their capacity to extract complex hidden features and learn efficient representation in unsupervised settings. Chapters investigate deep learning-based algorithms in a variety of application, including biomedical and health informatics, computer vision, image processing, and more. In recent years, many powerful algorithms have been developed for matching patterns in data and making predictions about future events. The major advantage of deep learning is to process big data analytics for better analysis and self-adaptive algorithms to handle more data. Deep learning methods can deal with multiple levels of representation in which the system learns to abstract higher level representations of raw data. Earlier, it was a common requirement to have a domain expert to develop a specific model for each specific application, however, recent advancements in representation learning algorithms allow researchers across various subject domains to automatically learn the patterns and representation of the given data for the development of specific models.
| Item type | Current location | Call number | Copy number | Status | Date due | Barcode |
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| E-book | CUET CENTRAL LIBRARY Online Resources (See in online) | 006.31/PIT (Browse shelf) | 1 | Not for loan | E-87 |
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| 005.801/LEC Cybersecurity and applied mathematics / | 006.22/LYE Embedded computing and mechatronics with the PIC32 microcontroller / | 006.3/ZHI Intelligence science : | 006.31/PIT Trends in deep learning methodologies : | 006.312/MAD Data mining : | 006.312/TUS Security in IoT social networks / | 006.32/RIN Neural networks modeling and control : |
Includes bibliographical references and index.
Trends in Deep Learning Methodologies: Algorithms, Applications, and Systems covers deep learning approaches such as neural networks, deep belief networks, recurrent neural networks, convolutional neural networks, deep auto-encoder, and deep generative networks, which have emerged as powerful computational models. Chapters elaborate on these models which have shown significant success in dealing with massive data for a large number of applications, given their capacity to extract complex hidden features and learn efficient representation in unsupervised settings. Chapters investigate deep learning-based algorithms in a variety of application, including biomedical and health informatics, computer vision, image processing, and more. In recent years, many powerful algorithms have been developed for matching patterns in data and making predictions about future events. The major advantage of deep learning is to process big data analytics for better analysis and self-adaptive algorithms to handle more data. Deep learning methods can deal with multiple levels of representation in which the system learns to abstract higher level representations of raw data. Earlier, it was a common requirement to have a domain expert to develop a specific model for each specific application, however, recent advancements in representation learning algorithms allow researchers across various subject domains to automatically learn the patterns and representation of the given data for the development of specific models.
CSE
English
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