CERTIFIED VS. EMPIRICAL ADVERSARIAL ROBUSTNESS VIA HYBRID CONVOLUTIONS WITH ATTENTION STOCHASTICITY

We introduce Hybrid Convolutions with Attention Stochasticity (HyCAS), an adversarial defense that narrows the long-standing gap between provable robustness under ℓ2 certificates and empirical robustness against strong ℓ∞ attacks, while preserving strong generalization across diverse imaging benchmarks. HyCAS unifies deterministic and randomized principles by coupling 1-Lipschitz, spectrally normalized convolutions with two stochastic components—spectral normalized random-projection filters and a randomized attention-noise mechanism—to realize a randomized defense. Injecting smoothing randomness inside the architecture yields an overall ≤ 2-Lipschitz network with formal certificates. Extensive experiments on diverse imaging benchmarks—including CIFAR-10/100, ImageNet-1k, NIH Chest X-ray, HAM10000—show that HyCAS surpasses prior leading certified and empirical defenses, boosting certified accuracy by up to ≈ 7.3% (on NIH Chest X-ray) and empirical robustness by up to ≈ 3.1% (on HAM10000), without sacrificing clean accuracy. These results show that a randomized Lipschitz constrained architecture can simultaneously improve both certified ℓ2 and empirical ℓ∞ adversarial robustness, thereby supporting safer deployment of deep models in high-stakes applications.