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Graph Data Science with Neo4j

You're reading from   Graph Data Science with Neo4j Learn how to use Neo4j 5 with Graph Data Science library 2.0 and its Python driver for your project

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Product type Paperback
Published in Jan 2023
Publisher Packt
ISBN-13 9781804612743
Length 288 pages
Edition 1st Edition
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Author (1):
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Estelle Scifo Estelle Scifo
Author Profile Icon Estelle Scifo
Estelle Scifo
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Table of Contents (16) Chapters Close

Preface 1. Part 1 – Creating Graph Data in Neo4j
2. Chapter 1: Introducing and Installing Neo4j FREE CHAPTER 3. Chapter 2: Importing Data into Neo4j to Build a Knowledge Graph 4. Part 2 – Exploring and Characterizing Graph Data with Neo4j
5. Chapter 3: Characterizing a Graph Dataset 6. Chapter 4: Using Graph Algorithms to Characterize a Graph Dataset 7. Chapter 5: Visualizing Graph Data 8. Part 3 – Making Predictions on a Graph
9. Chapter 6: Building a Machine Learning Model with Graph Features 10. Chapter 7: Automatically Extracting Features with Graph Embeddings for Machine Learning 11. Chapter 8: Building a GDS Pipeline for Node Classification Model Training 12. Chapter 9: Predicting Future Edges 13. Chapter 10: Writing Your Custom Graph Algorithms with the Pregel API in Java 14. Index 15. Other Books You May Enjoy

LP features

Here, we’ll describe the characteristics that can be attached to a pair of nodes and used as predictors for an LP model. We’ll start with topological features, which are built by analyzing both nodes’ neighborhoods. Then, we explore how to use each node’s features and combine them into a feature vector for the pair.

Topological features

Topological features rely on nodes’ neighborhoods and graph topology to infer new links. We can, for instance, use the following:

  • Common neighbors: Given two nodes, A and B, count the number of common neighbors between A and B. This metric assumes that the more common neighbors A and B have, the more likely they are to be connected.
  • Adamic-Adar: A variation of the common neighbors approach, the Adamic-Adar metric incorporates the fact that nodes with fewer connections give more information than nodes with many links. In a web page linking hundreds of other pages, the relevance of each...
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