Is there a bottom line for poisoning? Detecting high-concealed injection attacks for recommendation
Author Identifier (ORCID)
Jianxin Li: https://orcid.org/0000-0002-9059-330X
Abstract
Recommender systems (RSs) are widely adopted due to their effectiveness in modeling user preferences and generating personalized recommendations. However, data poisoning attacks (PAs) manipulate recommendation results by injecting fake user profiles, thereby affecting the quality and accuracy of RSs. Moreover, emerging high-concealed PAs (HCPAs) achieve greater evasion of detection by controlling the cost of the attack, simulating the behavior patterns of benign users, and carrying out the attack with less prior knowledge. The HCPAs bring challenges: (1) the very low cost of attacks not only leads to an imbalance in data distribution but also introduces a large amount of accidental co-occurrence noise; (2) the behavioral patterns similar to benign users make it difficult to describe the characteristics of HCPAs; and (3) the prior knowledge for detecting HCPAs in real scenarios is very limited. To address these challenges, we propose STOP, an orthogonal projection bi-hypersphere detection method built on multi-view relational disentanglement and information-consistent fusion. First, we model the distributional preferences of user ratings to eliminate rating and popularity bias, and construct a co-occurrence association graph to suppress accidental overlaps. To address data imbalance caused by HCPAs, second, we introduce a distributional-consensus importance screening method that filters out benign users weakly associated with potential attackers. To address the issues of noise and the difficulty in feature characterization, third, we propose a multi-view relational disentanglement and information-consistent fusion method, which can eliminate redundant relationships, separate key relations into sequence-varying and sequence-stable components over rating sequences, and retain task-related relationships. Finally, inspired by the “convergence theorem”, we design an orthogonal projection bi-hypersphere boundary learning detection method to reduce the high false alarm rate (FAR). We extensively evaluate STOP under various HCPA scenarios, demonstrating its superiority over existing methods with an average 12.34% improvement in detection rate and an average 2.75% reduction in FAR. Furthermore, forensic analysis on real-world unlabeled data reveals distinct attacker “fingerprints”, such as extreme ratings, contradictory review styles, and analysis of target items, validating STOP's reliability in practical applications.
Keywords
Abnormality forensics, attack detection, behavior representation, injection attack
Document Type
Journal Article
Date of Publication
1-1-2026
Publication Title
IEEE Transactions on Dependable and Secure Computing
Publisher
IEEE
School
School of Business and Law
Copyright
subscription content
Comments
Feng, Y., Yang, Z., Li, K., He, J., Li, J., Wang, P., & Liu, Z. (2026). Is there a bottom line for poisoning? Detecting high-concealed injection attacks for recommendation. IEEE Transactions on Dependable and Secure Computing. Advance online publication. https://doi.org/10.1109/TDSC.2026.3687210