FAST: Boosting Uncertainty-based Test Prioritization Methods for Neural Networks via Feature Selection

Jialuo Chen; Jingyi Wang; Xiyue   Zhang; Youcheng Sun; Marta Kwiatkowska; Jiming Chen; Peng Cheng

doi:10.1145/3691620.3695472

FAST: Boosting Uncertainty-based Test Prioritization Methods for Neural Networks via Feature Selection

Jialuo Chen, Jingyi Wang, Xiyue Zhang, Youcheng Sun, Marta Kwiatkowska, Jiming Chen, Peng Cheng

Systems and Software Security

Research output: Chapter in Book/Conference proceeding › Conference contribution › peer-review

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Abstract

Due to the vast testing space, the increasing demand for effective and efficient testing of deep neural networks (DNNs) has led to the development of various DNN test case prioritization techniques. However, the fact that DNNs can deliver high-confidence predictions for incorrectly predicted examples, known as the overconfidence problem, causes these methods to fail to reveal high-confidence errors. To address this limitation, in this work, we propose FAST, a method that boosts existing prioritization methods through guided FeAture SelecTion. FAST is based on the insight that certain features may introduce noise that affects the model’s output confidence, thereby contributing to high-confidence errors.
It quantifies the importance of each feature for the model’s correct predictions, and then dynamically prunes the information from the noisy features during inference to derive a new probability vector for the uncertainty estimation. With the help of FAST, the high confidence errors and correctly classified examples become more distinguishable, resulting in higher APFD (Average Percentage of
Fault Detection) values for test prioritization, and higher generalization ability for model enhancement. We conduct extensive experiments to evaluate FAST across a diverse set of model structures on multiple benchmark datasets to validate the effectiveness, efficiency, and scalability of FAST compared to the state-of-the-art
prioritization techniques.

Original language	English
Title of host publication	39th IEEE/ACM International Conference on Automated Software Engineering
DOIs	https://doi.org/10.1145/3691620.3695472
Publication status	Published - 27 Oct 2024

Keywords

Deep Neural Networks
Test Input Prioritization

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FAST__Test_Case_Prioritization_for_DNNs_via_F_Youcheng SunAccepted author manuscript, 4.29 MBLicence: CC BY

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title = "FAST: Boosting Uncertainty-based Test Prioritization Methods for Neural Networks via Feature Selection",

abstract = "Due to the vast testing space, the increasing demand for effective and efficient testing of deep neural networks (DNNs) has led to the development of various DNN test case prioritization techniques. However, the fact that DNNs can deliver high-confidence predictions for incorrectly predicted examples, known as the overconfidence problem, causes these methods to fail to reveal high-confidence errors. To address this limitation, in this work, we propose FAST, a method that boosts existing prioritization methods through guided FeAture SelecTion. FAST is based on the insight that certain features may introduce noise that affects the model{\textquoteright}s output confidence, thereby contributing to high-confidence errors.It quantifies the importance of each feature for the model{\textquoteright}s correct predictions, and then dynamically prunes the information from the noisy features during inference to derive a new probability vector for the uncertainty estimation. With the help of FAST, the high confidence errors and correctly classified examples become more distinguishable, resulting in higher APFD (Average Percentage ofFault Detection) values for test prioritization, and higher generalization ability for model enhancement. We conduct extensive experiments to evaluate FAST across a diverse set of model structures on multiple benchmark datasets to validate the effectiveness, efficiency, and scalability of FAST compared to the state-of-the-artprioritization techniques.",

keywords = "Deep Neural Networks, Test Input Prioritization",

author = "Jialuo Chen and Jingyi Wang and Xiyue Zhang and Youcheng Sun and Marta Kwiatkowska and Jiming Chen and Peng Cheng",

year = "2024",

month = oct,

day = "27",

doi = "10.1145/3691620.3695472",

language = "English",

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AU - Chen, Jialuo

AU - Wang, Jingyi

AU - Zhang, Xiyue

AU - Sun, Youcheng

AU - Kwiatkowska, Marta

AU - Chen, Jiming

AU - Cheng, Peng

PY - 2024/10/27

Y1 - 2024/10/27

N2 - Due to the vast testing space, the increasing demand for effective and efficient testing of deep neural networks (DNNs) has led to the development of various DNN test case prioritization techniques. However, the fact that DNNs can deliver high-confidence predictions for incorrectly predicted examples, known as the overconfidence problem, causes these methods to fail to reveal high-confidence errors. To address this limitation, in this work, we propose FAST, a method that boosts existing prioritization methods through guided FeAture SelecTion. FAST is based on the insight that certain features may introduce noise that affects the model’s output confidence, thereby contributing to high-confidence errors.It quantifies the importance of each feature for the model’s correct predictions, and then dynamically prunes the information from the noisy features during inference to derive a new probability vector for the uncertainty estimation. With the help of FAST, the high confidence errors and correctly classified examples become more distinguishable, resulting in higher APFD (Average Percentage ofFault Detection) values for test prioritization, and higher generalization ability for model enhancement. We conduct extensive experiments to evaluate FAST across a diverse set of model structures on multiple benchmark datasets to validate the effectiveness, efficiency, and scalability of FAST compared to the state-of-the-artprioritization techniques.

AB - Due to the vast testing space, the increasing demand for effective and efficient testing of deep neural networks (DNNs) has led to the development of various DNN test case prioritization techniques. However, the fact that DNNs can deliver high-confidence predictions for incorrectly predicted examples, known as the overconfidence problem, causes these methods to fail to reveal high-confidence errors. To address this limitation, in this work, we propose FAST, a method that boosts existing prioritization methods through guided FeAture SelecTion. FAST is based on the insight that certain features may introduce noise that affects the model’s output confidence, thereby contributing to high-confidence errors.It quantifies the importance of each feature for the model’s correct predictions, and then dynamically prunes the information from the noisy features during inference to derive a new probability vector for the uncertainty estimation. With the help of FAST, the high confidence errors and correctly classified examples become more distinguishable, resulting in higher APFD (Average Percentage ofFault Detection) values for test prioritization, and higher generalization ability for model enhancement. We conduct extensive experiments to evaluate FAST across a diverse set of model structures on multiple benchmark datasets to validate the effectiveness, efficiency, and scalability of FAST compared to the state-of-the-artprioritization techniques.

KW - Deep Neural Networks

KW - Test Input Prioritization

U2 - 10.1145/3691620.3695472

DO - 10.1145/3691620.3695472

M3 - Conference contribution

BT - 39th IEEE/ACM International Conference on Automated Software Engineering

ER -

FAST: Boosting Uncertainty-based Test Prioritization Methods for Neural Networks via Feature Selection

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Keywords

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