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Topological Dynamics in Metamodel Discovery with Artificial Intelligence

Ariel Fernández
€59.99
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AI
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American Chemical Society
applied mathematics
applied physics
artificial intelligence for scientific discovery
Atomistic MD
Atomistic MD Simulation
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auto-encoders
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BHB
biomedical engineering applications
biomolecular
Category1=Non-Fiction
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computational
computational topology
Convolutional Kernel
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deep learning
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differential equations
Disorder Propensities
Dl Neural Network
drug design
Drug Target Associations
Drug Target Complex
dynamical modelling
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eq_computing
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ER Bridge
HAE
Hidden Variables
Induced Folding
Intramolecular Hydrogen Bond Formation
Intrinsic Disorder Propensity
JNK Inhibition
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machine learning
model discovery
neural networks
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PDB Structure
PDGFR Kinase
Persistent Homology
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QG
quantum metamodels
Quotient Space
Rest Energy
softlaunch
Stochastic Gradient Descent
stochastic processes
time series analysis
Trainable Variables
vivo protein
Vivo Protein Folding

Product details

  • ISBN 9781032366333
  • Weight: 440g
  • Dimensions: 156 x 234mm
  • Publication Date: 09 Oct 2024
  • Publisher: Taylor & Francis Ltd
  • Publication City/Country: GB
  • Product Form: Paperback
  • Language: English
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Description

The leveraging of artificial intelligence (AI) for model discovery in dynamical systems is cross-fertilizing and revolutionizing both disciplines, heralding a new era of data-driven science. This book is placed at the forefront of this endeavor, taking model discovery to the next level.

Dealing with artificial intelligence, this book delineates AI’s role in model discovery for dynamical systems. With the implementation of topological methods to construct metamodels, it engages with levels of complexity and multiscale hierarchies hitherto considered off limits for data science.

Key Features:

  • Introduces new and advanced methods of model discovery for time series data using artificial intelligence
  • Implements topological approaches to distill "machine-intuitive" models from complex dynamics data
  • Introduces a new paradigm for a parsimonious model of a dynamical system without resorting to differential equations
  • Heralds a new era in data-driven science and engineering based on the operational concept of "computational intuition"

Intended for graduate students, researchers, and practitioners interested in dynamical systems empowered by AI or machine learning and in their biological, engineering, and biomedical applications, this book will represent a significant educational resource for people engaged in AI-related cross-disciplinary projects.
About Ariel Fernandez

Ariel Fernández is an Argentine-American physical chemist and mathematician. He obtained a Ph. D. degree in Chemical Physics from Yale University and held the Hasselmann Endowed Chair Professorship in Bioengineering at Rice University until his retirement. To date, he has published over 400 scientific papers in professional journals including PNAS, Nature, Nature Biotechnology, Physical Review Letters, Genome Research and Genome Biology. Fernández has also authored five books on biophysics and molecular medicine and holds several patents on technological innovation. Since 2018 Fernández heads the Daruma Institute for Applied Intelligence, the research arm of AF Innovation, a Consultancy based in Argentina and the USA.

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