Thermally activated clothing with thermochromic dyes and heaters creates dynamic adversarial patterns that evade AI surveillance in visible and infrared modalities while appearing ordinary when inactive.
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Adversarial Patch
15 Pith papers cite this work. Polarity classification is still indexing.
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abstract
We present a method to create universal, robust, targeted adversarial image patches in the real world. The patches are universal because they can be used to attack any scene, robust because they work under a wide variety of transformations, and targeted because they can cause a classifier to output any target class. These adversarial patches can be printed, added to any scene, photographed, and presented to image classifiers; even when the patches are small, they cause the classifiers to ignore the other items in the scene and report a chosen target class. To reproduce the results from the paper, our code is available at https://github.com/tensorflow/cleverhans/tree/master/examples/adversarial_patch
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Adversarial hubs can be generated to be retrieved as top-1 for over 84% of test queries in text-to-image retrieval, far exceeding natural hubs.
A reinforcement learning attacker manipulates client sensor observations in federated learning to induce repetitive server memory updates, achieving around 70% repeated update rate and enabling remote Rowhammer bit flips on an automatic speech recognition model.
A DIP-based optimization produces adversarial perturbations and patches that are more robust to affine transformations than standard high-frequency noise while staying imperceptible.
Introduces CADEX to generate domain-constrained counterfactual explanations for ML models using adversarial perturbations.
A physical patch suppresses all object detections by YOLOv3 even for distant objects without overlapping them.
TRAP is a tail-aware ranking attack that plants a backdoor in world models so that a trigger causes the model to reorder a few critical imagined trajectories and redirect planning while preserving normal behavior on clean inputs.
AdvAD produces physical-world adversarial patches with improved transferability to unseen object detectors by multi-model optimization, adaptive balancing, and physical variation robustness.
TriPatch generates transferable physical adversarial patches via multi-stage triplet loss, appearance consistency, and data augmentation to achieve higher attack success rates on pedestrian detectors than prior methods.
SPAR is a street-legal physical rim that cuts modern ALPR accuracy by 60% and reaches 18% targeted impersonation while costing under $100 and requiring no plate modification.
A decision-support framework applies AFT models to show Nvidia L4 GPUs yield 20% longer adversarial survival time at 75% lower cost than V100, with inference latency as the strongest robustness predictor.
Adversarial patches transfer across three VLM architectures in autonomous driving scenarios with 73-91% success rates and affect 65-79% of critical decision frames even without target-specific optimization.
RACF corrects inconsistent depth camera distance estimates in autonomous vehicles using LiDAR and kinematic redundancy, achieving up to 35% RMSE reduction and better braking in tests on a Quanser QCar 2 platform.
The paper organizes existing physical adversarial attack literature into a surveillance-oriented taxonomy emphasizing temporal persistence, multi-modal sensing, carrier realism, and system-level objectives, concluding that robustness requires system-level evaluation over time and across sensors.
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Thermally Activated Dual-Modal Adversarial Clothing against AI Surveillance Systems
Thermally activated clothing with thermochromic dyes and heaters creates dynamic adversarial patterns that evade AI surveillance in visible and infrared modalities while appearing ordinary when inactive.