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Main Authors: Chen, Rongqian, Andreyev, Allison, Xiu, Yanming, Chilukuri, Joshua, Sen, Shunav, Imani, Mahdi, Li, Bin, Gorlatova, Maria, Tan, Gang, Lan, Tian
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2508.09185
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author Chen, Rongqian
Andreyev, Allison
Xiu, Yanming
Chilukuri, Joshua
Sen, Shunav
Imani, Mahdi
Li, Bin
Gorlatova, Maria
Tan, Gang
Lan, Tian
author_facet Chen, Rongqian
Andreyev, Allison
Xiu, Yanming
Chilukuri, Joshua
Sen, Shunav
Imani, Mahdi
Li, Bin
Gorlatova, Maria
Tan, Gang
Lan, Tian
contents Augmented Reality (AR) enriches human perception by overlaying virtual elements onto the physical world. However, this tight coupling between virtual and real content makes AR vulnerable to cognitive attacks: manipulations that distort users' semantic understanding of the environment. Existing detection methods largely focus on visual inconsistencies at the pixel or image level, offering limited semantic reasoning or interpretability. To address these limitations, we introduce CADAR, a neuro-symbolic framework for cognitive attack detection in AR that integrates neural and symbolic reasoning. CADAR fuses multimodal vision-language representations from pre-trained models into a perception graph that captures objects, relations, and temporal contextual salience. Building on this structure, a particle-filter-based statistical reasoning module infers anomalies in semantic dynamics to reveal cognitive attacks. This combination provides both the adaptability of modern vision-language models and the interpretability of probabilistic symbolic reasoning. Preliminary experiments on an AR cognitive-attack dataset demonstrate consistent advantages over existing approaches, highlighting the potential of neuro-symbolic methods for robust and interpretable AR security.
format Preprint
id arxiv_https___arxiv_org_abs_2508_09185
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle A Neurosymbolic Framework for Interpretable Cognitive Attack Detection in Augmented Reality
Chen, Rongqian
Andreyev, Allison
Xiu, Yanming
Chilukuri, Joshua
Sen, Shunav
Imani, Mahdi
Li, Bin
Gorlatova, Maria
Tan, Gang
Lan, Tian
Computer Vision and Pattern Recognition
Artificial Intelligence
Augmented Reality (AR) enriches human perception by overlaying virtual elements onto the physical world. However, this tight coupling between virtual and real content makes AR vulnerable to cognitive attacks: manipulations that distort users' semantic understanding of the environment. Existing detection methods largely focus on visual inconsistencies at the pixel or image level, offering limited semantic reasoning or interpretability. To address these limitations, we introduce CADAR, a neuro-symbolic framework for cognitive attack detection in AR that integrates neural and symbolic reasoning. CADAR fuses multimodal vision-language representations from pre-trained models into a perception graph that captures objects, relations, and temporal contextual salience. Building on this structure, a particle-filter-based statistical reasoning module infers anomalies in semantic dynamics to reveal cognitive attacks. This combination provides both the adaptability of modern vision-language models and the interpretability of probabilistic symbolic reasoning. Preliminary experiments on an AR cognitive-attack dataset demonstrate consistent advantages over existing approaches, highlighting the potential of neuro-symbolic methods for robust and interpretable AR security.
title A Neurosymbolic Framework for Interpretable Cognitive Attack Detection in Augmented Reality
topic Computer Vision and Pattern Recognition
Artificial Intelligence
url https://arxiv.org/abs/2508.09185