Bo-Jhang Ho scite author profile

Deep neural networks (DNNs) are vulnerable to adversarial examples, perturbations to correctly classified examples which can cause the model to misclassify. In the image domain, these perturbations are often virtually indistinguishable to human perception, causing humans and state-of-the-art models to disagree. However, in the natural language domain, small perturbations are clearly perceptible, and the replacement of a single word can drastically alter the semantics of the document. Given these challenges, we use a black-box population-based optimization algorithm to generate semantically and syntactically similar adversarial examples that fool well-trained sentiment analysis and textual entailment models with success rates of 97% and 70%, respectively. We additionally demonstrate that 92.3% of the successful sentiment analysis adversarial examples are classified to their original label by 20 human annotators, and that the examples are perceptibly quite similar. Finally, we discuss an attempt to use adversarial training as a defense, but fail to yield improvement, demonstrating the strength and diversity of our adversarial examples. We hope our findings encourage researchers to pursue improving the robustness of DNNs in the natural language domain.

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Generating Natural Language Adversarial Examples

Alzantot

Sharma

Elgohary³

et al. 2018

Preprint

108

174

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An iBeacon primer for indoor localization

Martin¹,

Ho²,

Grupen

et al. 2014

101

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Providing an accurate, low cost estimate of sub-room indoor positioning remains an active area of research with applications including reactive indoor spaces, dynamic temperature control, wireless health, and augmented reality, to name a few. Recently proposed indoor localization solutions have required anywhere from zero additional infrastructure to customized RF hardware and have provided room-level to centimeter-level accuracy, typically in that respective order. One emerging technology that is proving a pragmatic solution for scalable, accurate localization is that of Bluetooth Low Energy beaconing, spearheaded by Apple's recently introduced iBeacon protocol. In this demo, we present a suite of localization tools developed around the iBeacon protocol, providing an in-depth look at Bluetooth Low Energy's viability as an indoor positioning technology. Our system shows an average position estimation error of 0.53 meters.

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MiLift: Efficient Smartwatch-Based Workout Tracking Using Automatic Segmentation

Shen

Srivastava

2018

IEEE Trans. on Mobile Comput.

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Phone-based gait analysis to detect alcohol usage

Kao

Lin

et al. 2012

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Bo-Jhang Ho

Generating Natural Language Adversarial Examples

Generating Natural Language Adversarial Examples

An iBeacon primer for indoor localization

MiLift: Efficient Smartwatch-Based Workout Tracking Using Automatic Segmentation

Phone-based gait analysis to detect alcohol usage

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