A cloud endpoint coordinating CAPTCHA based on multi-view stacking ensemble

Journal article

Ouyang, Zhiyou, Zhai, Xu, Wu, Jinran, Yang, Jian, Yue, Dong, Dou, Chunxia and Zhang, Tengfei. (2021). A cloud endpoint coordinating CAPTCHA based on multi-view stacking ensemble. Computers & Security. 103, p. Article 102178. https://doi.org/10.1016/j.cose.2021.102178
AuthorsOuyang, Zhiyou, Zhai, Xu, Wu, Jinran, Yang, Jian, Yue, Dong, Dou, Chunxia and Zhang, Tengfei
Abstract

Fully Autonomous Public Turing test to tell Computers and Humans Apart (CAPTCHA) is an essential component for network security resisting attacks, such as collision attack and password blasting.As a recently emerged CAPTCHA technology, drag-and-drop interactive CAPTCHA has been successfully employed in great number of practical applications. However, there are still some problems involved in the architecture and back-end anomaly detection model of the interactive CAPTCHA that need to be addressed: excessive concentration of computing pressure on cloud system, poor accuracy of anomaly detection model, and huge cost of the labelling for the attack sample. To this end, a novel cloud endpoint coordinating CAPTCHA based on multi-view stacking ensemble (MVSE) is proposed in this paper. In particular, a novel cloud endpoint coordinating CAPTCHA architecture is designed to make most use of the computing power of endpoint devices and reduce the calculation pressure of cloud system. Meanwhile, a multi-view stacking ensemble learning-based user action anomaly detection model is proposed for the cloud endpoint coordinating CAPTCHA architecture. Finally, an iterative top-k training (ITK-training) semi-supervised learning algorithm is employed for data enhancement and make the most use of un-labeled samples in order to reduce the deploy cost of drag-and-drop CAPTCHA system. A real-world data from one of the biggest Internet companies of China is used to validate the effectiveness of our proposed model. We can obtain that the computing pressure of the cloud can reduce nearly 95% and the accuracy of the proposed CAPTCHA system can reach 96.77% using MVSE learning and 98.67% using MVSE learning with the ITK-training based data enhancement.

Keywordsanomaly detection; semi-supervised learning; ensemble learning; CAPTCHA; network security
Year2021
JournalComputers & Security
Journal citation103, p. Article 102178
PublisherElsevier Ltd
ISSN0167-4048
Digital Object Identifier (DOI)https://doi.org/10.1016/j.cose.2021.102178
Scopus EID2-s2.0-85100102252
Page range1-17
FunderNanjing University of Posts and Telecommunications (NUPTSF), China
Publisher's version
License
All rights reserved
File Access Level
Controlled
Output statusPublished
Publication dates
Online06 Jan 2021
Publication process dates
Accepted02 Jan 2021
Deposited07 Jul 2023
Grant ID61533010
6183308
61933005
20190256
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