Related papers: Dynamic Feature Fusion: Combining Global Graph Structures and Local Semantics for Blockchain Fraud Detection

Dynamic Feature Fusion: Combining Global Graph Structures and Local Semantics for Blockchain Fraud Detection

URL: http://arxiv.org/abs/2501.02032v1
Date: Fri, 03 Jan 2025 09:04:43 GMT
Title: Dynamic Feature Fusion: Combining Global Graph Structures and Local Semantics for Blockchain Fraud Detection
Authors: Zhang Sheng, Liangliang Song, Yanbin Wang,
Abstract summary: We propose a dynamic feature fusion model that combines graph-based representation learning and semantic feature extraction for fraud detection. We develop a comprehensive data processing pipeline, including graph construction, temporal feature enhancement, and text preprocessing. Experimental results on large-scale real-world blockchain datasets demonstrate that our method outperforms existing benchmarks across accuracy, F1 score, and recall metrics.
Score: 0.7510165488300369
License:
Abstract: The advent of blockchain technology has facilitated the widespread adoption of smart contracts in the financial sector. However, current fraud detection methodologies exhibit limitations in capturing both global structural patterns within transaction networks and local semantic relationships embedded in transaction data. Most existing models focus on either structural information or semantic features individually, leading to suboptimal performance in detecting complex fraud patterns.In this paper, we propose a dynamic feature fusion model that combines graph-based representation learning and semantic feature extraction for blockchain fraud detection. Specifically, we construct global graph representations to model account relationships and extract local contextual features from transaction data. A dynamic multimodal fusion mechanism is introduced to adaptively integrate these features, enabling the model to capture both structural and semantic fraud patterns effectively. We further develop a comprehensive data processing pipeline, including graph construction, temporal feature enhancement, and text preprocessing. Experimental results on large-scale real-world blockchain datasets demonstrate that our method outperforms existing benchmarks across accuracy, F1 score, and recall metrics. This work highlights the importance of integrating structural relationships and semantic similarities for robust fraud detection and offers a scalable solution for securing blockchain systems.

Related papers

Ethereum Fraud Detection via Joint Transaction Language Model and Graph Representation Learning [6.378807038086552]
Current fraud detection methods fail to consider the semantic information and similarity patterns within transactions. We propose TLMG4Eth that combines a transaction language model with graph-based methods to capture semantic, similarity, and structural features of transaction data.
arXiv Detail & Related papers (2024-09-09T07:13:44Z)
Modularity aided consistent attributed graph clustering via coarsening [6.522020196906943]
Graph clustering is an important unsupervised learning technique for partitioning graphs with attributes and detecting communities. We propose a loss function incorporating log-determinant, smoothness, and modularity components using a block majorization-minimization technique. Our algorithm seamlessly integrates graph neural networks (GNNs) and variational graph autoencoders (VGAEs) to learn enhanced node features and deliver exceptional clustering performance.
arXiv Detail & Related papers (2024-07-09T10:42:19Z)
Tokenization, Fusion, and Augmentation: Towards Fine-grained Multi-modal Entity Representation [51.80447197290866]
Multi-modal knowledge graph completion (MMKGC) aims to discover unobserved knowledge from given knowledge graphs. Existing MMKGC methods usually extract multi-modal features with pre-trained models. We introduce a novel framework MyGO to tokenize, fuse, and augment the fine-grained multi-modal representations of entities.
arXiv Detail & Related papers (2024-04-15T05:40:41Z)
RAGFormer: Learning Semantic Attributes and Topological Structure for Fraud Detection [8.050935113945428]
We present a novel framework called Relation-Aware GNN with transFormer(RAGFormer) RAGFormer embeds both semantic and topological features into a target node. The simple yet effective network consists of a semantic encoder, a topology encoder, and an attention fusion module.
arXiv Detail & Related papers (2024-02-27T12:53:15Z)
Generative Pretraining at Scale: Transformer-Based Encoding of Transactional Behavior for Fraud Detection [0.0]
Our model confronts token explosion and reconstructs behavioral sequences, providing a nuanced understanding of transactional behavior. We integrate a differential convolutional approach to enhance anomaly detection, bolstering the security and efficacy of one of the largest online payment merchants in China.
arXiv Detail & Related papers (2023-12-22T03:15:17Z)
Detection and Evaluation of Clusters within Sequential Data [58.720142291102135]
Clustering algorithms for Block Markov Chains possess theoretical optimality guarantees. In particular, our sequential data is derived from human DNA, written text, animal movement data and financial markets. It is found that the Block Markov Chain model assumption can indeed produce meaningful insights in exploratory data analyses.
arXiv Detail & Related papers (2022-10-04T15:22:39Z)
Entity-Graph Enhanced Cross-Modal Pretraining for Instance-level Product Retrieval [152.3504607706575]
This research aims to conduct weakly-supervised multi-modal instance-level product retrieval for fine-grained product categories. We first contribute the Product1M datasets, and define two real practical instance-level retrieval tasks. We exploit to train a more effective cross-modal model which is adaptively capable of incorporating key concept information from the multi-modal data.
arXiv Detail & Related papers (2022-06-17T15:40:45Z)
Relational Graph Neural Networks for Fraud Detection in a Super-App environment [53.561797148529664]
We propose a framework of relational graph convolutional networks methods for fraudulent behaviour prevention in the financial services of a Super-App. We use an interpretability algorithm for graph neural networks to determine the most important relations to the classification task of the users. Our results show that there is an added value when considering models that take advantage of the alternative data of the Super-App and the interactions found in their high connectivity.
arXiv Detail & Related papers (2021-07-29T00:02:06Z)
Anomaly Detection on Attributed Networks via Contrastive Self-Supervised Learning [50.24174211654775]
We present a novel contrastive self-supervised learning framework for anomaly detection on attributed networks. Our framework fully exploits the local information from network data by sampling a novel type of contrastive instance pair. A graph neural network-based contrastive learning model is proposed to learn informative embedding from high-dimensional attributes and local structure.
arXiv Detail & Related papers (2021-02-27T03:17:20Z)
Cross-Supervised Joint-Event-Extraction with Heterogeneous Information Networks [61.950353376870154]
Joint-event-extraction is a sequence-to-sequence labeling task with a tag set composed of tags of triggers and entities. We propose a Cross-Supervised Mechanism (CSM) to alternately supervise the extraction of triggers or entities. Our approach outperforms the state-of-the-art methods in both entity and trigger extraction.
arXiv Detail & Related papers (2020-10-13T11:51:17Z)

This list is automatically generated from the titles and abstracts of the papers in this site.