π Machine Learning with Graphs: Deep Generative Models for Graphs, Graph RNN: Generating Realistic Graphs, Scaling Up & Evaluating Graph Gen, Applications of Deep Graph Generation.
π₯Free recorded course by Jure Leskovec, Computer Science, PhD
π₯this lecture, focus on deep generative models for graphs. We outline 2 types of tasks within the problem of graph generation: (1) realistic graph generation, where the goal is to generate graphs that are similar to a given set of graphs; (2) goal-directed graph generation, where we want to generate graphs that optimize given objectives/constraints. First, we recap the basics for generative models and deep generative models; then, in next parts introduce and focus on GraphRNN, one of the first deep generative models for graph; and finally, discuss GCPN, a deep graph generative model designed specifically for application to molecule generation.
π½ Watch: part1 part2 part3 part4
π²Channel: @ComplexNetworkAnalysis
#video #course #Graph #Machine_Learning #GCPN #GraphRNN #DGNN #GNN
π₯Free recorded course by Jure Leskovec, Computer Science, PhD
π₯this lecture, focus on deep generative models for graphs. We outline 2 types of tasks within the problem of graph generation: (1) realistic graph generation, where the goal is to generate graphs that are similar to a given set of graphs; (2) goal-directed graph generation, where we want to generate graphs that optimize given objectives/constraints. First, we recap the basics for generative models and deep generative models; then, in next parts introduce and focus on GraphRNN, one of the first deep generative models for graph; and finally, discuss GCPN, a deep graph generative model designed specifically for application to molecule generation.
π½ Watch: part1 part2 part3 part4
π²Channel: @ComplexNetworkAnalysis
#video #course #Graph #Machine_Learning #GCPN #GraphRNN #DGNN #GNN
YouTube
Stanford CS224W: ML with Graphs | 2021 | Lecture 15.1 - Deep Generative Models for Graphs
For more information about Stanfordβs Artificial Intelligence professional and graduate programs, visit: https://stanford.io/3Ex8TsH
Jure Leskovec
Computer Science, PhD
In this lecture, we focus on deep generative models for graphs. We outline 2 types ofβ¦
Jure Leskovec
Computer Science, PhD
In this lecture, we focus on deep generative models for graphs. We outline 2 types ofβ¦
π3π1
2018-Structure-oriented prediction in complex networks.pdf
2.9 MB
πStructure-oriented prediction in complex networks
π Journal: Physics Reports (IF=25.6)
πPublish year: 2018
πStudy paper
π²Channel: @ComplexNetworkAnalysis
#paper #prediction
π Journal: Physics Reports (IF=25.6)
πPublish year: 2018
πStudy paper
π²Channel: @ComplexNetworkAnalysis
#paper #prediction
π4
π application of machine learning in traffic optimization
π₯Free recorded course by Powel gora
π½ Watch
π²Channel: @ComplexNetworkAnalysis
#video #course #Graph #Machine_Learning
π₯Free recorded course by Powel gora
π½ Watch
π²Channel: @ComplexNetworkAnalysis
#video #course #Graph #Machine_Learning
YouTube
PaweΕ Gora: Applications of machine learning in traffic optimization
I will be talking about possible applications of machine learning in traffic optimization (and in optimizing some other complex processes). I will describe the process of building traffic metamodels by approximating outcomes of traffic simulations using machineβ¦
π4
πDo we need deep graph neural networks?
π₯Technical paper
π₯ One of the hallmarks of deep learning was the use of neural networks with tens or even hundreds of layers. In stark contrast, most of the architectures used in graph deep learning are shallow with just a handful of layers. In this post, I raise a heretical question: does depth in graph neural network architectures bring any advantage?
π Study
π²Channel: @ComplexNetworkAnalysis
#paper #Graph #DGNN
π₯Technical paper
π₯ One of the hallmarks of deep learning was the use of neural networks with tens or even hundreds of layers. In stark contrast, most of the architectures used in graph deep learning are shallow with just a handful of layers. In this post, I raise a heretical question: does depth in graph neural network architectures bring any advantage?
π Study
π²Channel: @ComplexNetworkAnalysis
#paper #Graph #DGNN
Medium
Do we need deep graph neural networks?
Is βgraph deep learningβ a misnomer and is depth useful for graph neural networks?
π5
πGCN-tutorial
π₯Technical paper
π₯ Graph Convolutional Network. Perform convolution operations on a graph using the information embedded into each node. The main idea is to "look" at neighboor nodes and update the currently embedded information into a higher or lower dimensional space by performing a ReLU or softmax operation.
π Study
π²Channel: @ComplexNetworkAnalysis
#paper #Graph #code #python #GCN #Coda
π₯Technical paper
π₯ Graph Convolutional Network. Perform convolution operations on a graph using the information embedded into each node. The main idea is to "look" at neighboor nodes and update the currently embedded information into a higher or lower dimensional space by performing a ReLU or softmax operation.
π Study
π²Channel: @ComplexNetworkAnalysis
#paper #Graph #code #python #GCN #Coda
π3
π pytorch geometric tutorial: graph attention networks implementation
π₯Free recorded course
π½ Watch
π²Channel: @ComplexNetworkAnalysis
#video #course #Graph #GAT #code #python
π₯Free recorded course
π½ Watch
π²Channel: @ComplexNetworkAnalysis
#video #course #Graph #GAT #code #python
YouTube
Pytorch Geometric tutorial: Graph attention networks (GAT) implementation
In this video we will see the math behind GAT and a simple implementation in Pytorch geometric.
Outcome:
- Recap
- Introduction
- GAT
- Message Passing pytroch layer
- Simple GCNlayer implementation
- GAT implementation
- GAT Usage
Download the materialβ¦
Outcome:
- Recap
- Introduction
- GAT
- Message Passing pytroch layer
- Simple GCNlayer implementation
- GAT implementation
- GAT Usage
Download the materialβ¦
π2
πA Review on Graph Neural Network Methods in Financial Applications
πPublish year: 2022
πStudy paper
π±Channel: @ComplexNetworkAnalysis
#paper #GNN #Financial #Applications #review
πPublish year: 2022
πStudy paper
π±Channel: @ComplexNetworkAnalysis
#paper #GNN #Financial #Applications #review
πApplications of social network analysis in promoting circular economy: a literature review
π Published by Vilnius Gediminas Technical University.
πPublish year: 2023
πStudy paper
π²Channel: @ComplexNetworkAnalysis
#paper #social_network #review #economy
π Published by Vilnius Gediminas Technical University.
πPublish year: 2023
πStudy paper
π²Channel: @ComplexNetworkAnalysis
#paper #social_network #review #economy
π3
π Graph Neural Networks - Lecture 15
π₯Free recorded tutorial by Manolis Klis
π½ Watch
π±Channel: @ComplexNetworkAnalysis
#video #GNN
π₯Free recorded tutorial by Manolis Klis
π½ Watch
π±Channel: @ComplexNetworkAnalysis
#video #GNN
YouTube
Social Network Analysis | Chapter 4 | Link Analysis | Part 2
This is supplementary material for the book Social Network Analysis by Dr. Tanmoy Chakraborty.
Book Website: https://social-network-analysis.in/
Available for purchase at: https://www.amazon.in/Social-Network-Analysis-Tanmoy-Chakraborty/dp/9354247830
Book Website: https://social-network-analysis.in/
Available for purchase at: https://www.amazon.in/Social-Network-Analysis-Tanmoy-Chakraborty/dp/9354247830
π1
πTowards a deeper understanding of the Visibility Graph algorithm
πMasterβs Thesis, in the Delft University of Technolog, T.J. Alers
πPublish year: 2023
πStudy Thesis
π²Channel: @ComplexNetworkAnalysis
#Thesis #Visibility_Graph
πMasterβs Thesis, in the Delft University of Technolog, T.J. Alers
πPublish year: 2023
πStudy Thesis
π²Channel: @ComplexNetworkAnalysis
#Thesis #Visibility_Graph
π3π2
2023_A_survey_of_graph_neural_network_based_recommendation_in_social.pdf
1.6 MB
πA survey of graph neural network based recommendation in social networks
π Journal: Neurocomputing (IF=6)
πPublish year: 2023
πStudy paper
π±Channel: @ComplexNetworkAnalysis
#paper #GNN #Recommendation #survey
π Journal: Neurocomputing (IF=6)
πPublish year: 2023
πStudy paper
π±Channel: @ComplexNetworkAnalysis
#paper #GNN #Recommendation #survey
π3π2
πA Survey of Recommendation Systems: Recommendation Models, Techniques, and Application Fields
π Journal: Electronics (IF=2.9)
πPublish year: 2022
πStudy paper
π±Channel: @ComplexNetworkAnalysis
#paper #Recommendation_Systems #Techniques #Application #survey
π Journal: Electronics (IF=2.9)
πPublish year: 2022
πStudy paper
π±Channel: @ComplexNetworkAnalysis
#paper #Recommendation_Systems #Techniques #Application #survey
π4
π Analysis on Collaboration and Co-Authorship Network using Centrality Measures
π₯Free recorded course
π½ Watch
π²Channel: @ComplexNetworkAnalysis
#video #course #Co_Authorship #Centrality
π₯Free recorded course
π½ Watch
π²Channel: @ComplexNetworkAnalysis
#video #course #Co_Authorship #Centrality
YouTube
Analysis on Collaboration and Co-Authorship Network using Centrality Measures
This is a presentation of a mini-paper I wrote on analysis on collaboration and co-authorship network of international Network Science researches by using the classical centrality measures and structural holes. The data set I used here is from M.E.J. Newmanβ¦
π3
πA Review on Graph Neural Network Methods in Financial Applications
π Journal: Mental Health and Social Inclusion (IF=1.2)
πPublish year: 2023
πStudy paper
π±Channel: @ComplexNetworkAnalysis
#paper #GNN #Financial #Application #review
π Journal: Mental Health and Social Inclusion (IF=1.2)
πPublish year: 2023
πStudy paper
π±Channel: @ComplexNetworkAnalysis
#paper #GNN #Financial #Application #review
π1
π Co-Authorship Network Analysis using GEPHI
π₯This video is a part of one of the research articles that analyzes the collaboration patterns of the scientific co-authored article.
π½ Watch
π±Channel: @ComplexNetworkAnalysis
#video #Co_Authorship #GEPHI
π₯This video is a part of one of the research articles that analyzes the collaboration patterns of the scientific co-authored article.
π½ Watch
π±Channel: @ComplexNetworkAnalysis
#video #Co_Authorship #GEPHI
YouTube
Analysis on Collaboration and Co-Authorship Network using Centrality Measures
This is a presentation of a mini-paper I wrote on analysis on collaboration and co-authorship network of international Network Science researches by using the classical centrality measures and structural holes. The data set I used here is from M.E.J. Newmanβ¦
π2
π Understanding Graph Attention Networks
π½ Watch
π²Channel: @ComplexNetworkAnalysis
#video #GNN #GAT #Graph
π½ Watch
π²Channel: @ComplexNetworkAnalysis
#video #GNN #GAT #Graph
YouTube
Understanding Graph Attention Networks
β¬β¬ Resources β¬β¬β¬β¬β¬β¬β¬β¬β¬β¬
Paper: https://arxiv.org/pdf/1710.10903.pdf
Attention in NLP YouTube Series: https://www.youtube.com/watch?v=yGTUuEx3GkA (Rasa)
β¬β¬ Used Music β¬β¬β¬β¬β¬β¬β¬β¬β¬β¬β¬
Field Of Fireflies by Purrple Cat | https://purrplecat.com
Music promotedβ¦
Paper: https://arxiv.org/pdf/1710.10903.pdf
Attention in NLP YouTube Series: https://www.youtube.com/watch?v=yGTUuEx3GkA (Rasa)
β¬β¬ Used Music β¬β¬β¬β¬β¬β¬β¬β¬β¬β¬β¬
Field Of Fireflies by Purrple Cat | https://purrplecat.com
Music promotedβ¦
π3
πThe Four Dimensions of Social Network Analysis: An Overview of Research Methods, Applications, and Software Tools
πPublish year: 2020
πStudy paper
π±Channel: @ComplexNetworkAnalysis
#paper #Dimensions #Methods #Application #Software #Tools #Overview
πPublish year: 2020
πStudy paper
π±Channel: @ComplexNetworkAnalysis
#paper #Dimensions #Methods #Application #Software #Tools #Overview
β€2
πGraph Representation Learning
π₯Graph-structured data is ubiquitous throughout the natural and social sciences, from telecommunication networks to quantum chemistry. Building relational inductive biases into deep learning architectures is crucial if we want systems that can learn, reason, and generalize from this kind of data. Recent years have seen a surge in research on graph representation learning, including techniques for deep graph embeddings, generalizations of convolutional neural networks to graph-structured data, and neural message-passing approaches inspired by belief propagation. These advances in graph representation learning have led to new state-of-the-art results in numerous domains, including chemical synthesis, 3D-vision, recommender systems, question answering, and social network analysis.
π Read online
π²Channel: @ComplexNetworkAnalysis
#book #GRL #GNN
π₯Graph-structured data is ubiquitous throughout the natural and social sciences, from telecommunication networks to quantum chemistry. Building relational inductive biases into deep learning architectures is crucial if we want systems that can learn, reason, and generalize from this kind of data. Recent years have seen a surge in research on graph representation learning, including techniques for deep graph embeddings, generalizations of convolutional neural networks to graph-structured data, and neural message-passing approaches inspired by belief propagation. These advances in graph representation learning have led to new state-of-the-art results in numerous domains, including chemical synthesis, 3D-vision, recommender systems, question answering, and social network analysis.
π Read online
π²Channel: @ComplexNetworkAnalysis
#book #GRL #GNN
π3β€1
πA Review of Link Prediction Applications in Network Biology
πPublish year: 2023
πStudy paper
π±Channel: @ComplexNetworkAnalysis
#paper #Link_Prediction #Application #Biology #review
πPublish year: 2023
πStudy paper
π±Channel: @ComplexNetworkAnalysis
#paper #Link_Prediction #Application #Biology #review
π4
πA study of visibility graphs for time series representations
πBachelorβs Thesis, in the University Polytechnica de catalunya barcelonatech, Bergillos Varela, Carlos
πPublish year: 2020
πStudy Thesis
π²Channel: @ComplexNetworkAnalysis
#Thesis #Visibility_Graph
πBachelorβs Thesis, in the University Polytechnica de catalunya barcelonatech, Bergillos Varela, Carlos
πPublish year: 2020
πStudy Thesis
π²Channel: @ComplexNetworkAnalysis
#Thesis #Visibility_Graph
π4
π Promise and perils of population-scale social network analysis
π₯Free recorded presentation by Frank Takes.
π₯A relatively recently emerging line of research is devoted to the use of large-scale population register data to answer enduring questions in the realm of social science. In this presentation, it specifically delves into the network dimension of such data, focusing on information from the POPNET project, which covers more than 17 million people (i.e., the entire population of the Netherlands) and approximately 800 million family, household, school, work, and neighbor-to-neighbor connections. The presentation highlights the potential inherent in this comprehensive and curated social network data through illustrative examples of results related to issues such as social capital, segregation, and migration. Additionally, it will examine several methodological considerations and challenges related to under- and over-sampling of individual connections within opportunity structures, including findings on the validity of real-world skewed degree distributions.
π½ Watch
π±Channel: @ComplexNetworkAnalysis
#video #Promise #perils #population_scale
π₯Free recorded presentation by Frank Takes.
π₯A relatively recently emerging line of research is devoted to the use of large-scale population register data to answer enduring questions in the realm of social science. In this presentation, it specifically delves into the network dimension of such data, focusing on information from the POPNET project, which covers more than 17 million people (i.e., the entire population of the Netherlands) and approximately 800 million family, household, school, work, and neighbor-to-neighbor connections. The presentation highlights the potential inherent in this comprehensive and curated social network data through illustrative examples of results related to issues such as social capital, segregation, and migration. Additionally, it will examine several methodological considerations and challenges related to under- and over-sampling of individual connections within opportunity structures, including findings on the validity of real-world skewed degree distributions.
π½ Watch
π±Channel: @ComplexNetworkAnalysis
#video #Promise #perils #population_scale
YouTube
Frank Takes - Promise and perils of population-scale social network analysis
Frank Takes, Leiden University
A relatively recently emerged line of research is dedicated to harnessing large-scale population register data to address enduring questions within the realm of social science. In this presentation, we will specifically delveβ¦
A relatively recently emerged line of research is dedicated to harnessing large-scale population register data to address enduring questions within the realm of social science. In this presentation, we will specifically delveβ¦