Neural Ordinary Differential Equations: 33 Comprehensively Commented Python Implementations of Neural Ordinary Differential Equations(Neural ODEs) (Stochastic Sorcerers) - Softcover
Book 7 of 10: Stochastic Sorcerers
Synopsis
Experience the Cutting Edge of Continuous-Depth Machine Learning
Neural Ordinary Differential Equations (ODEs) have emerged as a transformative technology, seamlessly blending the power of differential equations with the flexibility of deep learning. By treating neural network layers as continuous transformations, Neural ODEs open new frontiers for handling complex time-series data, modeling physical phenomena, and building generative systems with unprecedented smoothness and depth. This essential resource unravels the theory and practice behind these innovations, guiding you through 33 meticulously crafted algorithmic implementations in Python.
Key Highlights- Comprehensive Neural ODE Understanding
Gain clear, in-depth knowledge of how Neural ODEs unify continuous mathematical formulations with state-of-the-art neural architectures. Master the differential equation viewpoint that treats layer depth as a continuous parameter rather than a discrete stack of layers.
- Time-Series Forecasting & Data Imputation
Dive into chapters demonstrating how continuous-time models excel at dealing with irregularly sampled data, missing values, and challenging future prediction tasks.
- Advanced Flow-Based Methods
Explore novel approaches such as Continuous Normalizing Flows to tackle density estimation with a smooth parametric trajectory from simple distributions to complex ones.
- Hamiltonian & Stochastic Neural ODEs
Learn methods for long-term simulation stability, incorporating physics-based mechanics and handling intrinsic uncertainty in real-world dynamical systems.
- Surrogate Modeling for Complex Simulations
See how Neural ODEs serve as powerful stand-ins for expensive physical or environmental simulations, drastically cutting compute time while retaining accuracy.
- Graph & Multiscale Methods
Extend Neural ODEs to graph-structured data and multi-timescale processes, capturing both local interactions and broader temporal behavior.
From fundamental time-series forecasting to meta-learning and active learning strategies, every algorithmic chapter is framed by its practical use cases. Each section is accompanied by step-by-step instructions to build, train, and deploy Neural ODE solutions, illustrating their far-reaching potential in science, finance, engineering, and beyond.
"synopsis" may belong to another edition of this title.
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Neural Ordinary Differential Equations (Paperback)
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Paperback. Condition: new. Paperback. Experience the Cutting Edge of Continuous-Depth Machine LearningNeural Ordinary Differential Equations (ODEs) have emerged as a transformative technology, seamlessly blending the power of differential equations with the flexibility of deep learning. By treating neural network layers as continuous transformations, Neural ODEs open new frontiers for handling complex time-series data, modeling physical phenomena, and building generative systems with unprecedented smoothness and depth. This essential resource unravels the theory and practice behind these innovations, guiding you through 33 meticulously crafted algorithmic implementations in Python.Key HighlightsComprehensive Neural ODE UnderstandingGain clear, in-depth knowledge of how Neural ODEs unify continuous mathematical formulations with state-of-the-art neural architectures. Master the differential equation viewpoint that treats layer depth as a continuous parameter rather than a discrete stack of layers. Time-Series Forecasting & Data ImputationDive into chapters demonstrating how continuous-time models excel at dealing with irregularly sampled data, missing values, and challenging future prediction tasks. Advanced Flow-Based MethodsExplore novel approaches such as Continuous Normalizing Flows to tackle density estimation with a smooth parametric trajectory from simple distributions to complex ones. Hamiltonian & Stochastic Neural ODEsLearn methods for long-term simulation stability, incorporating physics-based mechanics and handling intrinsic uncertainty in real-world dynamical systems. Surrogate Modeling for Complex SimulationsSee how Neural ODEs serve as powerful stand-ins for expensive physical or environmental simulations, drastically cutting compute time while retaining accuracy. Graph & Multiscale MethodsExtend Neural ODEs to graph-structured data and multi-timescale processes, capturing both local interactions and broader temporal behavior. From fundamental time-series forecasting to meta-learning and active learning strategies, every algorithmic chapter is framed by its practical use cases. Each section is accompanied by step-by-step instructions to build, train, and deploy Neural ODE solutions, illustrating their far-reaching potential in science, finance, engineering, and beyond. This item is printed on demand. Shipping may be from multiple locations in the US or from the UK, depending on stock availability. Seller Inventory # 9798307616451
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Neural Ordinary Differential Equations (Paperback)
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Paperback. Condition: new. Paperback. Experience the Cutting Edge of Continuous-Depth Machine LearningNeural Ordinary Differential Equations (ODEs) have emerged as a transformative technology, seamlessly blending the power of differential equations with the flexibility of deep learning. By treating neural network layers as continuous transformations, Neural ODEs open new frontiers for handling complex time-series data, modeling physical phenomena, and building generative systems with unprecedented smoothness and depth. This essential resource unravels the theory and practice behind these innovations, guiding you through 33 meticulously crafted algorithmic implementations in Python.Key HighlightsComprehensive Neural ODE UnderstandingGain clear, in-depth knowledge of how Neural ODEs unify continuous mathematical formulations with state-of-the-art neural architectures. Master the differential equation viewpoint that treats layer depth as a continuous parameter rather than a discrete stack of layers. Time-Series Forecasting & Data ImputationDive into chapters demonstrating how continuous-time models excel at dealing with irregularly sampled data, missing values, and challenging future prediction tasks. Advanced Flow-Based MethodsExplore novel approaches such as Continuous Normalizing Flows to tackle density estimation with a smooth parametric trajectory from simple distributions to complex ones. Hamiltonian & Stochastic Neural ODEsLearn methods for long-term simulation stability, incorporating physics-based mechanics and handling intrinsic uncertainty in real-world dynamical systems. Surrogate Modeling for Complex SimulationsSee how Neural ODEs serve as powerful stand-ins for expensive physical or environmental simulations, drastically cutting compute time while retaining accuracy. Graph & Multiscale MethodsExtend Neural ODEs to graph-structured data and multi-timescale processes, capturing both local interactions and broader temporal behavior. From fundamental time-series forecasting to meta-learning and active learning strategies, every algorithmic chapter is framed by its practical use cases. Each section is accompanied by step-by-step instructions to build, train, and deploy Neural ODE solutions, illustrating their far-reaching potential in science, finance, engineering, and beyond. This item is printed on demand. Shipping may be from our UK warehouse or from our Australian or US warehouses, depending on stock availability. Seller Inventory # 9798307616451
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Flux, J: Neural Ordinary Differential Equations
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