| Description |
1 online resource (1 volume) : illustrations. |
| Series |
Community experience distilled |
|
Community experience distilled.
|
| Note |
Includes index. |
| Contents |
Cover; Copyright; Credits; About the Authors; About the Reviewers; www.PacktPub.com; Table of Contents; Preface; Chapter 1: Bayesian Network Fundamentals; Probability theory; Random variable; Independence and conditional independence; Installing tools; IPython; pgmpy; Representing independencies using pgmpy; Representing joint probability distributions using pgmpy; Conditional probability distribution; Representing CPDs using pgmpy; Graph theory; Nodes and edges; Walk, paths, and trails; Bayesian models; Representation; Factorization of a distribution over a network |
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Implementing Bayesian networks using pgmpyBayesian model representation; Reasoning pattern in Bayesian networks; D-separation; Direct connection; Indirect connection; Relating graphs and distributions; IMAP; IMAP to factorization; CPD representations; Deterministic CPDs; Context-specific CPDs; Tree CPD; Rule CPD; Summary; Chapter 2: Markov Network Fundamentals; Introducing the Markov network; Parameterizing a Markov network -- factor; Factor operations; Gibbs distributions and Markov networks; The factor graph; Independencies in Markov networks; Constructing graphs from distributions |
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Bayesian networks and Markov networksConverting Bayesian models into Markov models; Converting Markov models into Bayesian models; Chordal graphs; Summary; Chapter 3: Inference -- Asking Questions to Models; Inference; Complexity of inference; Variable elimination; Analysis of variable elimination; Finding elimination ordering; Using the chordal graph property of induced graphs; Minimum fill/size/weight/search; Belief propagation; Clique tree; Constructing a clique tree; Message passing; Clique tree calibration; Message passing with division; Factor division |
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Querying variables that are not in the same clusterMAP using variable elimination; Factor maximization; MAP using belief propagation; Finding the most probable assignment; Predictions from the model using pgmpy; A comparison of variable elimination and belief propagation; Summary; Chapter 4: Approximate Inference; The optimization problem; The energy function; Exact inference as an optimization; The propagation based approximation algorithm; Cluster graph belief propagation; Constructing cluster graphs; Pairwise Markov networks; Bethe cluster graph; Propagation with approximate messages |
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Message creationInference with approximate messages; Sum-product expectation propagation; Belief update propagation; Sampling-based approximate methods; Forward sampling; Conditional probability distribution; Likelihood weighting and importance sampling; Importance sampling; Importance sampling in Bayesian networks; Computing marginal probabilities; Ratio likelihood weighting; Normalized likelihood weighting; Markov chain Monte Carlo methods; Gibbs sampling; Markov chains; The multiple transitioning model; Using a Markov chain; Collapsed particles; Collapsed importance sampling; Summary |
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Chapter 5: Model Learning -- Parameter Estimation in Bayesian Networks |
| Summary |
If you are a researcher or a machine learning enthusiast, or are working in the data science field and have a basic idea of Bayesian learning or probabilistic graphical models, this book will help you to understand the details of graphical models and use them in your data science problems. |
| Subject |
Graphical modeling (Statistics)
|
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Python (Computer program language)
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Modèles graphiques (Statistique) |
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Python (Langage de programmation) |
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Graphical modeling (Statistics) |
|
Python (Computer program language) |
| Added Author |
Panda, Abinash, author.
|
| Added Title |
Master probablistic graphical models by learning through real-world problems and illustrative code examples in Python |
| ISBN |
9781784395216 |
|
1784395218 |
|
1784394688 |
|
9781784394684 |
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