CorrGAN: Input Transformation Technique Against Natural Corruptions

04/19/2022

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Because of the increasing accuracy of Deep Neural Networks (DNNs) on different tasks, a lot of real times systems are utilizing DNNs. These DNNs are vulnerable to adversarial perturbations and corruptions. Specifically, natural corruptions like fog, blur, contrast etc can affect the prediction of DNN in an autonomous vehicle. In real time, these corruptions are needed to be detected and also the corrupted inputs are needed to be de-noised to be predicted correctly. In this work, we propose CorrGAN approach, which can generate benign input when a corrupted input is provided. In this framework, we train Generative Adversarial Network (GAN) with novel intermediate output-based loss function. The GAN can denoise the corrupted input and generate benign input. Through experimentation, we show that up to 75.2 misclassified inputs can be classified correctly by DNN using CorrGAN.

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CorrGAN: Input Transformation Technique Against Natural Corruptions

Blind Adversarial Network Perturbations

The Limitations of Deep Learning in Adversarial Settings

Generating Realistic Unrestricted Adversarial Inputs using Dual-Objective GAN Training

Stealthy Attack on Algorithmic-Protected DNNs via Smart Bit Flipping

RecNet: Early Attention Guided Feature Recovery

Verification-Aided Deep Ensemble Selection

QUDOS: Quorum-Based Cloud-Edge Distributed DNNs for Security Enhanced Industry 4.0

CorrGAN: Input Transformation Technique Against Natural Corruptions

Related Research

Blind Adversarial Network Perturbations

The Limitations of Deep Learning in Adversarial Settings

Generating Realistic Unrestricted Adversarial Inputs using Dual-Objective GAN Training

Stealthy Attack on Algorithmic-Protected DNNs via Smart Bit Flipping

RecNet: Early Attention Guided Feature Recovery

Verification-Aided Deep Ensemble Selection

QUDOS: Quorum-Based Cloud-Edge Distributed DNNs for Security Enhanced Industry 4.0