Papers about explainability of GNNs

Overview

awesome-graph-explainability-papers

Papers about explainability of GNNs

Most Influential Cogdl

  1. Explainability in graph neural networks: A taxonomic survey. Yuan Hao, Yu Haiyang, Gui Shurui, Ji Shuiwang. ARXIV 2020. paper
  2. Gnnexplainer: Generating explanations for graph neural networks. Ying Rex, Bourgeois Dylan, You Jiaxuan, Zitnik Marinka, Leskovec Jure. NeurIPS 2019. paper code
  3. Explainability methods for graph convolutional neural networks. Pope Phillip E, Kolouri Soheil, Rostami Mohammad, Martin Charles E, Hoffmann Heiko. CVPR 2019.paper
  4. Parameterized Explainer for Graph Neural Network. Luo Dongsheng, Cheng Wei, Xu Dongkuan, Yu Wenchao, Zong Bo, Chen Haifeng, Zhang Xiang. NeurIPS 2020. paper code
  5. Xgnn: Towards model-level explanations of graph neural networks. Yuan Hao, Tang Jiliang, Hu Xia, Ji Shuiwang. KDD 2020. paper.
  6. Evaluating Attribution for Graph Neural Networks. Sanchez-Lengeling Benjamin, Wei Jennifer, Lee Brian, Reif Emily, Wang Peter, Qian Wesley, McCloskey Kevin, Colwell Lucy, Wiltschko Alexander. NeurIPS 2020.paper
  7. PGM-Explainer: Probabilistic Graphical Model Explanations for Graph Neural Networks. Vu Minh, Thai My T.. NeurIPS 2020.paper
  8. Explanation-based Weakly-supervised Learning of Visual Relations with Graph Networks. Federico Baldassarre and Kevin Smith and Josephine Sullivan and Hossein Azizpour. ECCV 2020.paper
  9. GCAN: Graph-aware Co-Attention Networks for Explainable Fake News Detection on Social Media. Lu, Yi-Ju and Li, Cheng-Te. ACL 2020.paper
  10. On Explainability of Graph Neural Networks via Subgraph Explorations. Yuan Hao, Yu Haiyang, Wang Jie, Li Kang, Ji Shuiwang. ICML 2021.paper

Recent SOTA

  1. Quantifying Explainers of Graph Neural Networks in Computational Pathology. Jaume Guillaume, Pati Pushpak, Bozorgtabar Behzad, Foncubierta Antonio, Anniciello Anna Maria, Feroce Florinda, Rau Tilman, Thiran Jean-Philippe, Gabrani Maria, Goksel Orcun. Proceedings of the IEEECVF Conference on Computer Vision and Pattern Recognition CVPR 2021.paper
  2. Counterfactual Supporting Facts Extraction for Explainable Medical Record Based Diagnosis with Graph Network. Wu Haoran, Chen Wei, Xu Shuang, Xu Bo. NAACL 2021. paper
  3. When Comparing to Ground Truth is Wrong: On Evaluating GNN Explanation Methods. Faber Lukas, K. Moghaddam Amin, Wattenhofer Roger. KDD 2021. paper
  4. Counterfactual Graphs for Explainable Classification of Brain Networks. Abrate Carlo, Bonchi Francesco. Proceedings of the th ACM SIGKDD Conference on Knowledge Discovery Data Mining KDD 2021. paper
  5. Explainable Subgraph Reasoning for Forecasting on Temporal Knowledge Graphs. Zhen Han, Peng Chen, Yunpu Ma, Volker Tresp. International Conference on Learning Representations ICLR 2021.paper
  6. Generative Causal Explanations for Graph Neural Networks. Lin Wanyu, Lan Hao, Li Baochun. Proceedings of the th International Conference on Machine Learning ICML 2021.paper
  7. Improving Molecular Graph Neural Network Explainability with Orthonormalization and Induced Sparsity. Henderson Ryan, Clevert Djork-Arné, Montanari Floriane. Proceedings of the th International Conference on Machine Learning ICML 2021.paper
  8. Explainable Automated Graph Representation Learning with Hyperparameter Importance. Wang Xin, Fan Shuyi, Kuang Kun, Zhu Wenwu. Proceedings of the th International Conference on Machine Learning ICML 2021.paper
  9. Higher-order explanations of graph neural networks via relevant walks. Schnake Thomas, Eberle Oliver, Lederer Jonas, Nakajima Shinichi, Schütt Kristof T, Müller Klaus-Robert, Montavon Grégoire. arXiv preprint arXiv:2006.03589 2020. paper
  10. HENIN: Learning Heterogeneous Neural Interaction Networks for Explainable Cyberbullying Detection on Social Media. Chen, Hsin-Yu and Li, Cheng-Te. EMNLP 2020. paper

Year 2022

  1. [AAAI22] ProtGNN: Towards Self-Explaining Graph Neural Networks [paper]

Year 2021

  1. [Arxiv 21] Combining Sub-Symbolic and Symbolic Methods for Explainability [paper]
  2. [PAKDD 21] SCARLET: Explainable Attention based Graph Neural Network for Fake News spreader prediction [paper]
  3. [J. Chem. Inf. Model] Coloring Molecules with Explainable Artificial Intelligence for Preclinical Relevance Assessment [paper]
  4. [BioRxiv 21] APRILE: Exploring the Molecular Mechanisms of Drug Side Effects with Explainable Graph Neural Networks [paper]
  5. [ISM 21] Edge-Level Explanations for Graph Neural Networks by Extending Explainability Methods for Convolutional Neural Networks [paper]
  6. [TPAMI 21] Higher-Order Explanations of Graph Neural Networks via Relevant Walks [paper]
  7. [OpenReview 21] FlowX: Towards Explainable Graph Neural Networks via Message Flows [paper]
  8. [OpenReview 21] Task-Agnostic Graph Neural Explanations [paper]
  9. [OpenReview 21] Deconfounding to Explanation Evaluation in Graph Neural Networks [paper]
  10. [OpenReview 21] DEGREE: Decomposition Based Explanation for Graph Neural Networks [paper]
  11. [OpenReview 21] Discovering Invariant Rationales for Graph Neural Networks [paper]
  12. [OpenReview 21] Interpreting Graph Neural Networks via Unrevealed Causal Learning [paper]
  13. [OpenReview 21] Explainable GNN-Based Models over Knowledge Graphs [paper]
  14. [NeurIPS 2021] Reinforcement Learning Enhanced Explainer for Graph Neural Networks [paper]
  15. [NeurIPS 2021] Towards Multi-Grained Explainability for Graph Neural Networks [paper]
  16. [NeurIPS 2021] Robust Counterfactual Explanations on Graph Neural Networks [paper]
  17. [CVPR 2021] Quantifying Explainers of Graph Neural Networks in Computational Pathology.[paper]
  18. [NAACL 2021] Counterfactual Supporting Facts Extraction for Explainable Medical Record Based Diagnosis with Graph Network. [paper]
  19. [Arxiv 21] A Meta-Learning Approach for Training Explainable Graph Neural Network [paper]
  20. [Arxiv 21] Jointly Attacking Graph Neural Network and its Explanations [paper]
  21. [Arxiv 21] Towards a Rigorous Theoretical Analysis and Evaluation of GNN Explanations [paper]
  22. [Arxiv 21] SEEN: Sharpening Explanations for Graph Neural Networks using Explanations from Neighborhoods [paper]
  23. [Arxiv 21] Zorro: Valid, Sparse, and Stable Explanations in Graph Neural Networks [paper]
  24. [Arxiv 21] Preserve, Promote, or Attack? GNN Explanation via Topology Perturbation [paper]
  25. [Arxiv 21] Learnt Sparsification for Interpretable Graph Neural Networks [paper]
  26. [Arxiv 21] Efficient and Interpretable Robot Manipulation with Graph Neural Networks [paper]
  27. [Arxiv 21] IA-GCN: Interpretable Attention based Graph Convolutional Network for Disease prediction [paper]
  28. [ICML 2021] On Explainability of Graph Neural Networks via Subgraph Explorations[paper]
  29. [ICML 2021] Generative Causal Explanations for Graph Neural Networks[paper]
  30. [ICML 2021] Improving Molecular Graph Neural Network Explainability with Orthonormalization and Induced Sparsity[paper]
  31. [ICML 2021] Automated Graph Representation Learning with Hyperparameter Importance Explanation[paper]
  32. [ICML workshop 21] GCExplainer: Human-in-the-Loop Concept-based Explanations for Graph Neural Networks [paper]
  33. [ICML workshop 21] BrainNNExplainer: An Interpretable Graph Neural Network Framework for Brain Network based Disease Analysis [paper]
  34. [ICML workshop 21] Reliable Graph Neural Network Explanations Through Adversarial Training [paper]
  35. [ICML workshop 21] Reimagining GNN Explanations with ideas from Tabular Data [paper]
  36. [ICML workshop 21] Towards Automated Evaluation of Explanations in Graph Neural Networks [paper]
  37. [ICML workshop 21] Quantitative Evaluation of Explainable Graph Neural Networks for Molecular Property Prediction [paper]
  38. [ICML workshop 21] SALKG: Learning From Knowledge Graph Explanations for Commonsense Reasoning [paper]
  39. [ICLR 2021] Interpreting Graph Neural Networks for NLP With Differentiable Edge Masking[paper]
  40. [ICLR 2021] Graph Information Bottleneck for Subgraph Recognition [paper]
  41. [KDD 2021] When Comparing to Ground Truth is Wrong: On Evaluating GNN Explanation Methods[paper]
  42. [KDD 2021] Counterfactual Graphs for Explainable Classification of Brain Networks [paper]
  43. [AAAI 2021] Motif-Driven Contrastive Learning of Graph Representations [paper]
  44. [WWW 2021] Interpreting and Unifying Graph Neural Networks with An Optimization Framework [paper]
  45. [ICDM 2021] GNES: Learning to Explain Graph Neural Networks [paper]
  46. [ICDM 2021] GCN-SE: Attention as Explainability for Node Classification in Dynamic Graphs [paper]
  47. [ICDM 2021] Multi-objective Explanations of GNN Predictions
  48. [CIKM 2021] Towards Self-Explainable Graph Neural Network [paper]
  49. [ECML PKDD 2021] GraphSVX: Shapley Value Explanations for Graph Neural Networks [paper]
  50. [WiseML 2021] Explainability-based Backdoor Attacks Against Graph Neural Networks [paper]
  51. [IJCNN 21] MEG: Generating Molecular Counterfactual Explanations for Deep Graph Networks [paper]
  52. [KDD workshop 21] CF-GNNExplainer: Counterfactual Explanations for Graph Neural Networks [paper]
  53. [ICCSA 2021] Understanding Drug Abuse Social Network Using Weighted Graph Neural Networks Explainer [paper]
  54. [NeSy 21] A New Concept for Explaining Graph Neural Networks [paper]
  55. [Information Fusion 21] Towards multi-modal causability with Graph Neural Networks enabling information fusion for explainable AI [paper]
  56. [Patterns 21] hcga: Highly Comparative Graph Analysis for network phenotyping [paper]

Year 2020

  1. [NeurIPS 2020] Parameterized Explainer for Graph Neural Network.[paper]
  2. [NeurIPS 2020] PGM-Explainer: Probabilistic Graphical Model Explanations for Graph Neural Networks [paper]
  3. [KDD 2020] XGNN: Towards Model-Level Explanations of Graph Neural Networks [paper]
  4. [ACL 2020]GCAN: Graph-aware Co-Attention Networks for Explainable Fake News Detection on Social Media. paper
  5. [ICML workstop 2020] Contrastive Graph Neural Network Explanation [paper]
  6. [ICML workstop 2020] Towards Explainable Graph Representations in Digital Pathology [paper]
  7. [NeurIPS workshop 2020] Explaining Deep Graph Networks with Molecular Counterfactuals [paper]
  8. [[email protected] 2020] Exploring Graph-Based Neural Networks for Automatic Brain Tumor Segmentation" [paper]
  9. [Arxiv 2020] Graph Neural Networks Including Sparse Interpretability [paper]
  10. [OpenReview 20] A Framework For Differentiable Discovery Of Graph Algorithms [paper]
  11. [OpenReview 20] Causal Screening to Interpret Graph Neural Networks [paper]
  12. [Arxiv 20] xFraud: Explainable Fraud Transaction Detection on Heterogeneous Graphs [paper]
  13. [Arxiv 20] Explaining decisions of Graph Convolutional Neural Networks: patient-specific molecular subnetworks responsible for metastasis prediction in breast cancer [paper]
  14. [Arxiv 20] Understanding Graph Neural Networks from Graph Signal Denoising Perspectives [paper]
  15. [Arxiv 20] Understanding the Message Passing in Graph Neural Networks via Power Iteration [paper]
  16. [Arxiv 20] xERTE: Explainable Reasoning on Temporal Knowledge Graphs for Forecasting Future Links [paper]
  17. [IJCNN 20] GCN-LRP explanation: exploring latent attention of graph convolutional networks] [paper]
Owner
Dongsheng Luo
Ph.D. Student @ PSU
Dongsheng Luo
[ICML 2021] A fast algorithm for fitting robust decision trees.

GROOT: Growing Robust Trees Growing Robust Trees (GROOT) is an algorithm that fits binary classification decision trees such that they are robust agai

Cyber Analytics Lab 17 Nov 21, 2022
A geometric deep learning pipeline for predicting protein interface contacts.

A geometric deep learning pipeline for predicting protein interface contacts.

44 Dec 30, 2022
Faune proche - Retrieval of Faune-France data near a google maps location

faune_proche Récupération des données de Faune-France près d'un lieu google maps

4 Feb 15, 2022
Small utility to demangle Nim symbols in callgrind files

nim_callgrind A small utility to demangle Nim symbols from callgrind files. Usage Run your (Nim) program with something like this: valgrind --tool=cal

kraptor 3 Feb 15, 2022
Learning to Disambiguate Strongly Interacting Hands via Probabilistic Per-Pixel Part Segmentation [3DV 2021 Oral]

Learning to Disambiguate Strongly Interacting Hands via Probabilistic Per-Pixel Part Segmentation [3DV 2021 Oral] Learning to Disambiguate Strongly In

Zicong Fan 40 Dec 22, 2022
A quantum game modeling of pandemic (QHack 2022)

Contributors: @JongheumJung, @YoonjaeChung, @GyunghunKim Abstract In the regime of a global pandemic, leaders around the world need to consider variou

Yoonjae Chung 8 Apr 03, 2022
Code for NeurIPS 2020 article "Contrastive learning of global and local features for medical image segmentation with limited annotations"

Contrastive learning of global and local features for medical image segmentation with limited annotations The code is for the article "Contrastive lea

Krishna Chaitanya 152 Dec 22, 2022
Video-based open-world segmentation

UVO_Challenge Team Alpes_runner Solutions This is an official repo for our UVO Challenge solutions for Image/Video-based open-world segmentation. Our

Yuming Du 84 Dec 22, 2022
Using some basic methods to show linkages and transformations of robotic arms

roboticArmVisualizer Python GUI application to create custom linkages and adjust joint angles. In the future, I plan to add 2d inverse kinematics solv

Sandesh Banskota 1 Nov 19, 2021
Code to reproduce the results for Compositional Attention

Compositional-Attention This repository contains the official implementation for the paper Compositional Attention: Disentangling Search and Retrieval

Sarthak Mittal 58 Nov 30, 2022
A Flow-based Generative Network for Speech Synthesis

WaveGlow: a Flow-based Generative Network for Speech Synthesis Ryan Prenger, Rafael Valle, and Bryan Catanzaro In our recent paper, we propose WaveGlo

NVIDIA Corporation 2k Dec 26, 2022
Automatically replace ONNX's RandomNormal node with Constant node.

onnx-remove-random-normal This is a script to replace RandomNormal node with Constant node. Example Imagine that we have something ONNX model like the

Masashi Shibata 1 Dec 11, 2021
Code accompanying the paper on "An Empirical Investigation of Domain Generalization with Empirical Risk Minimizers" published at NeurIPS, 2021

Code for "An Empirical Investigation of Domian Generalization with Empirical Risk Minimizers" (NeurIPS 2021) Motivation and Introduction Domain Genera

Meta Research 15 Dec 27, 2022
Code for KDD'20 "An Efficient Neighborhood-based Interaction Model for Recommendation on Heterogeneous Graph"

Heterogeneous INteract and aggreGatE (GraphHINGE) This is a pytorch implementation of GraphHINGE model. This is the experiment code in the following w

Jinjiarui 69 Nov 24, 2022
Unsupervised Video Interpolation using Cycle Consistency

Unsupervised Video Interpolation using Cycle Consistency Project | Paper | YouTube Unsupervised Video Interpolation using Cycle Consistency Fitsum A.

NVIDIA Corporation 100 Nov 30, 2022
Pytorch implementation of the paper DocEnTr: An End-to-End Document Image Enhancement Transformer.

DocEnTR Description Pytorch implementation of the paper DocEnTr: An End-to-End Document Image Enhancement Transformer. This model is implemented on to

Mohamed Ali Souibgui 74 Jan 07, 2023
Code for NeurIPS2021 submission "A Surrogate Objective Framework for Prediction+Programming with Soft Constraints"

This repository is the code for NeurIPS 2021 submission "A Surrogate Objective Framework for Prediction+Programming with Soft Constraints". Edit 2021/

10 Dec 20, 2022
PoolFormer: MetaFormer is Actually What You Need for Vision

PoolFormer: MetaFormer is Actually What You Need for Vision (arXiv) This is a PyTorch implementation of PoolFormer proposed by our paper "MetaFormer i

Sea AI Lab 1k Dec 30, 2022
(CVPR2021) ClassSR: A General Framework to Accelerate Super-Resolution Networks by Data Characteristic

ClassSR (CVPR2021) ClassSR: A General Framework to Accelerate Super-Resolution Networks by Data Characteristic Paper Authors: Xiangtao Kong, Hengyuan

Xiangtao Kong 308 Jan 05, 2023
This is the official repository of XVFI (eXtreme Video Frame Interpolation)

XVFI This is the official repository of XVFI (eXtreme Video Frame Interpolation), https://arxiv.org/abs/2103.16206 Last Update: 20210607 We provide th

Jihyong Oh 195 Dec 29, 2022