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3,391 results on '"Ma Jianfeng"'

1. Collaborative security assessment of cloud-edge-device distributed systems based on order parameters

Author

FAN Qigang, JIANG Zhongyuan, LI Xinghua, and MA Jianfeng

Subjects
cloud-edge-device, collaborative consistency, security assessment, order parameter, Electronic computers. Computer science, QA75.5-76.95
Abstract

Distributed computing systems based on cloud-edge-device have been successfully serving thousands of applications and have become mainstream, characterized by a wide audience, high user experience requirements, and high security expectations. However, in recent years, frequent attacks on cloud-edge-device systems have resulted in serious security risks and significant economic losses for users. The defense mechanisms of cloud-edge-device systems have been found to operate independently, leading to major differences in the ability to resist risks, which makes it difficult to eliminate global security risks. Security measures of the pre-configuration and post-event remedy type have been found to hardly meet the security needs of high-load and high real-time in cloud-edge-device collaborative networks. The root cause has been identified as the hierarchical architecture of cloud-edge-device systems being separate, and no effective collaborative defense system has been formed, leading to problems such as difficult cross-domain security governance, poor real-time performance, and difficult collaborative consistency evaluation. Firstly, a cloud-edge-device collaborative security architecture that integrates real-time perception, dynamic decision, and proactive defense was proposed. The cloud-edge-device security collaboration capability was established through rigorous theoretical consistency proofs. Secondly, a collaborative security assessment model based on the order parameter was put forward to achieve consistency of risk perception, decision, and defense. In this way, the efficient and low-cost collaborative protection of security risks could be realized to maximize systemic security benefits. Finally, the consistency theory and assessment method were verified through simulations. The results show that the proposed collaborative security system and consistency evaluation model are correct and effective.

Published
2024
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2. Streaming online log parsing method based on heuristic rule

Author

JIANG Zhongyuan, TAO Meiyue, ZHAO Xiaoqing, FANG Xiaotong, LI Xinghua, and MA Jianfeng

Subjects
massive log, log parsing, heuristic rule, HRTree method, accuracy, Telecommunication, TK5101-6720
Abstract

To address the issues of inaccurate parsing and unstable performance in existing log parsing methods, a streaming online log parsing method based on heuristic rules, known as heuristic regex tree (HRTree), was proposed. Based on the drain method of parsing the structure tree, heuristic rules were introduced to split and construct the log, and some construction methods of the parse structure tree were optimized, so as to solve the problems of over fitting of log parameters and unstable parsing results of different system logs. Not only the classification of parsing results was accurate, but also the parameter content recognition was accurate. A large number of experimental results demonstrate that the proposed HRTree parsing method shows more than 90% parsing accuracy on different system logs.

Published
2024
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4. tRNA-derived small RNA dataset in multiple organs of intrauterine growth-restricted pig

Author

Ma Jianfeng, Gan Mailin, Yang Yiting, Chen Lei, Zhao Ye, Niu Lili, Wang Yan, Zhang Shunhua, Wang Jingyong, Zhu Li, and Shen Linyuan

Subjects
Science
Abstract

Abstract Intrauterine growth restriction (IUGR) impairs neonatal weight and causes multiple organ dysplasia. IUGR not only threatens human health but is also a significant constraint to the development of animal husbandry. However, the molecular mechanism underlying IUGR remains to be further elucidated. tRNA-derived small RNA (tsRNAs) is a regulative non-coding RNA, which has recently been reported to correlate with the onset and progression of several diseases. In this study, we investigated the tsRNAs expression profiles of IUGR pigs. A tsRNAs dataset for multiple organs in normal and IUGR pigs was generated, including muscle, liver, spleen and intestine. We further analyzed the characteristics of tsRNAs in different organs of pigs, and KEGG pathway analysis was performed to investigate possible pathways involved. This dataset will provide valuable information for further exploring the molecular mechanism of IUGR formation.

Published
2023
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5. Slot: Provenance-Driven APT Detection through Graph Reinforcement Learning

Author

Qiao, Wei, Feng, Yebo, Li, Teng, Zhang, Zijian, Xu, Zhengzi, Ma, Zhuo, Shen, Yulong, Ma, JianFeng, and Liu, Yang

Subjects
Computer Science - Cryptography and Security
Abstract

Advanced Persistent Threats (APTs) represent sophisticated cyberattacks characterized by their ability to remain undetected within the victim system for extended periods, aiming to exfiltrate sensitive data or disrupt operations. Existing detection approaches often struggle to effectively identify these complex threats, construct the attack chain for defense facilitation, or resist adversarial attacks. To overcome these challenges, we propose Slot, an advanced APT detection approach based on provenance graphs and graph reinforcement learning. Slot excels in uncovering multi-level hidden relationships, such as causal, contextual, and indirect connections, among system behaviors through provenance graph mining. By pioneering the integration of graph reinforcement learning, Slot dynamically adapts to new user activities and evolving attack strategies, enhancing its resilience against adversarial attacks. Additionally, Slot automatically constructs the attack chain according to detected attacks with clustering algorithms, providing precise identification of attack paths and facilitating the development of defense strategies. Evaluations with real-world datasets demonstrate Slot's outstanding accuracy, efficiency, adaptability, and robustness in APT detection, with most metrics surpassing state-of-the-art methods. Additionally, case studies conducted to assess Slot's effectiveness in supporting APT defense further establish it as a practical and reliable tool for cybersecurity protection.

Published
2024

6. An Anti-disguise Authentication System Using the First Impression of Avatar in Metaverse

Author

Zhang, Zhenyong, Yang, Kedi, Tian, Youliang, and Ma, Jianfeng

Subjects
Computer Science - Cryptography and Security
Abstract

Metaverse is a vast virtual world parallel to the physical world, where the user acts as an avatar to enjoy various services that break through the temporal and spatial limitations of the physical world. Metaverse allows users to create arbitrary digital appearances as their own avatars by which an adversary may disguise his/her avatar to fraud others. In this paper, we propose an anti-disguise authentication method that draws on the idea of the first impression from the physical world to recognize an old friend. Specifically, the first meeting scenario in the metaverse is stored and recalled to help the authentication between avatars. To prevent the adversary from replacing and forging the first impression, we construct a chameleon-based signcryption mechanism and design a ciphertext authentication protocol to ensure the public verifiability of encrypted identities. The security analysis shows that the proposed signcryption mechanism meets not only the security requirement but also the public verifiability. Besides, the ciphertext authentication protocol has the capability of defending against the replacing and forging attacks on the first impression. Extensive experiments show that the proposed avatar authentication system is able to achieve anti-disguise authentication at a low storage consumption on the blockchain., Comment: 19 pages, 16 figures

Published
2024

7. EFFECT OF MUNICIPAL SLUDGE ON THE PERFORMANCE OF COAL GASIFICATION SLAG-BASED CERAMSITE

Author

Kunjie Li, Jun Wang, Ma Jianfeng, Gao Da, Bi Yao, Luo Yaoling, and Chen Xiaorun

Subjects
municipal sludge, coal gasification slag-based ceramsite, pore structure, oxide content, Clay industries. Ceramics. Glass, TP785-869
Abstract

Ceramsite was sintered using coal gasification slag, fly ash, construction spoils, and municipal sludge. The influence of the municipal sludge content on the ceramsite performance was studied by TG-DSC, XRD, MIP, and SEM. The optimal sintering conditions for the fabrication of ceramsite exhibiting the best performance were obtained through an orthogonal experiment. The highest cylindrical compressive strength was obtained under the following conditions: a preheating temperature of 500 °C with a preheating time of 30 min, and a sintering temperature of 1100 °C with a sintering time of 20 min. The compressive strength of the ceramsite was higher than 6.5 MPa when the municipal sludge content was 20% and prepared in optimal conditions. The porosity and the average pore diameter of the ceramsite increased with an increasing municipal sludge content, while the strength and apparent density decreased. The average pore diameter of the ceramsite with the 20% municipal sludge content increased by 490 nm compared with the ceramsite containing a 5% municipal sludge. In addition, the Al₂O₃ content was the factor affecting the strength of the ceramsite. When the Al₂O₃ content exceeded 20.5%, the main crystal phase of the ceramsite changed from a quartz phase to kyanite, significantly improving its strength.

Published
2021
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8. Information flow integrity measurement method using integrity threat tree

Author

WU Qixuan and MA Jianfeng, SUN Cong

Subjects
integrity, information flow, satisfiability modulo theories, attack tree, Electronic computers. Computer science, QA75.5-76.95
Abstract

In order to avert the drawback of traditional information flow integrity analysis on ignoring the specific system architecture and associated attack events, an integrity threat tree to quantify the integrity of the system information flow, and the conditional trigger gate to model the associated attack events were proposed. The attack cost was used to quantify the degree of difficulty on attacking each channel. According to the architecture-related integrity threat tree, the minimum attack cost and corresponding target channel set required to achieve the attack target were solved by using the satisfiability modulo theories. The practicality of our approach was demonstrated by the modeling and analysis of the actual flight control system models, and the influence of the conditional trigger gate parameters on the system integrity was discussed.

Published
2019
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11. CToMP: A Cycle-task-oriented Memory Protection Scheme for Unmanned Systems

Author

Ma, Chengyan, Xi, Ning, Lu, Di, Feng, Yebo, and Ma, Jianfeng

Subjects
Computer Science - Cryptography and Security
Abstract

Memory corruption attacks (MCAs) refer to malicious behaviors of system intruders that modify the contents of a memory location to disrupt the normal operation of computing systems, causing leakage of sensitive data or perturbations to ongoing processes. Unlike general-purpose systems, unmanned systems cannot deploy complete security protection schemes, due to their limitations in size, cost and performance. MCAs in unmanned systems are particularly difficult to defend against. Furthermore, MCAs have diverse and unpredictable attack interfaces in unmanned systems, severely impacting digital and physical sectors. In this paper, we first generalize, model and taxonomize MCAs found in unmanned systems currently, laying the foundation for designing a portable and general defense approach. According to different attack mechanisms, we found that MCAs are mainly categorized into two types--return2libc and return2shellcode. To tackle return2libc attacks, we model the erratic operation of unmanned systems with cycles and then propose a cycle-task-oriented memory protection (CToMP) approach to protect control flows from tampering. To defend against return2shellcode attacks, we introduce a secure process stack with a randomized memory address by leveraging the memory pool to prevent Shellcode from being executed. Moreover, we discuss the mechanism by which CToMP resists the ROP attack, a novel variant of return2libc attacks. Finally, we implement CToMP on CUAV V5+ with Ardupilot and Crazyflie. The evaluation and security analysis results demonstrate that the proposed approach CToMP is resilient to various MCAs in unmanned systems with low footprints and system overhead., Comment: This paper has been accepted by SCIENCE CHINA Information Sciences

Published
2023
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13. SoK: Comparing Different Membership Inference Attacks with a Comprehensive Benchmark

Author

Niu, Jun, Zhu, Xiaoyan, Zeng, Moxuan, Zhang, Ge, Zhao, Qingyang, Huang, Chunhui, Zhang, Yangming, An, Suyu, Wang, Yangzhong, Yue, Xinghui, He, Zhipeng, Guo, Weihao, Shen, Kuo, Liu, Peng, Shen, Yulong, Jiang, Xiaohong, Ma, Jianfeng, and Zhang, Yuqing

Subjects
Computer Science - Cryptography and Security, Computer Science - Machine Learning
Abstract

Membership inference (MI) attacks threaten user privacy through determining if a given data example has been used to train a target model. However, it has been increasingly recognized that the "comparing different MI attacks" methodology used in the existing works has serious limitations. Due to these limitations, we found (through the experiments in this work) that some comparison results reported in the literature are quite misleading. In this paper, we seek to develop a comprehensive benchmark for comparing different MI attacks, called MIBench, which consists not only the evaluation metrics, but also the evaluation scenarios. And we design the evaluation scenarios from four perspectives: the distance distribution of data samples in the target dataset, the distance between data samples of the target dataset, the differential distance between two datasets (i.e., the target dataset and a generated dataset with only nonmembers), and the ratio of the samples that are made no inferences by an MI attack. The evaluation metrics consist of ten typical evaluation metrics. We have identified three principles for the proposed "comparing different MI attacks" methodology, and we have designed and implemented the MIBench benchmark with 84 evaluation scenarios for each dataset. In total, we have used our benchmark to fairly and systematically compare 15 state-of-the-art MI attack algorithms across 588 evaluation scenarios, and these evaluation scenarios cover 7 widely used datasets and 7 representative types of models. All codes and evaluations of MIBench are publicly available at https://github.com/MIBench/MIBench.github.io/blob/main/README.md., Comment: 21 pages,15 figures

Published
2023

18. Gradient Leakage Defense with Key-Lock Module for Federated Learning

Author

Ren, Hanchi, Deng, Jingjing, Xie, Xianghua, Ma, Xiaoke, and Ma, Jianfeng

Subjects
Computer Science - Machine Learning, Computer Science - Artificial Intelligence, Computer Science - Computer Vision and Pattern Recognition
Abstract

Federated Learning (FL) is a widely adopted privacy-preserving machine learning approach where private data remains local, enabling secure computations and the exchange of local model gradients between local clients and third-party parameter servers. However, recent findings reveal that privacy may be compromised and sensitive information potentially recovered from shared gradients. In this study, we offer detailed analysis and a novel perspective on understanding the gradient leakage problem. These theoretical works lead to a new gradient leakage defense technique that secures arbitrary model architectures using a private key-lock module. Only the locked gradient is transmitted to the parameter server for global model aggregation. Our proposed learning method is resistant to gradient leakage attacks, and the key-lock module is designed and trained to ensure that, without the private information of the key-lock module: a) reconstructing private training data from the shared gradient is infeasible; and b) the global model's inference performance is significantly compromised. We discuss the theoretical underpinnings of why gradients can leak private information and provide theoretical proof of our method's effectiveness. We conducted extensive empirical evaluations with a total of forty-four models on several popular benchmarks, demonstrating the robustness of our proposed approach in both maintaining model performance and defending against gradient leakage attacks., Comment: The source code can be found at https://github.com/Rand2AI/FedKL

Published
2023

20. ZMAM: A ZKP-Based Mutual Authentication Scheme for the IoMT

Author

Lv, Chaoyue, Lu, Di, Zhang, Yuanyuan, Ma, Xindi, Shen, Yulong, Wang, Liping, Ma, Jianfeng, Goos, Gerhard, Series Editor, Hartmanis, Juris, Founding Editor, Bertino, Elisa, Editorial Board Member, Gao, Wen, Editorial Board Member, Steffen, Bernhard, Editorial Board Member, Yung, Moti, Editorial Board Member, Xie, Xianghua, editor, Styles, Iain, editor, Powathil, Gibin, editor, and Ceccarelli, Marco, editor

Published
2024
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21. Action-Driven UAV Fingerprint Verification with Perception Data

Author

Liu, Yuxin, Xi, Ning, Han, Ruidong, Li, Yuanzhao, Ma, Jianfeng, Shen, Yulong, Goos, Gerhard, Series Editor, Hartmanis, Juris, Founding Editor, Bertino, Elisa, Editorial Board Member, Gao, Wen, Editorial Board Member, Steffen, Bernhard, Editorial Board Member, Yung, Moti, Editorial Board Member, Zhu, Tianqing, editor, and Li, Yannan, editor

Published
2024
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22. Beyond Volume Pattern: Storage-Efficient Boolean Searchable Symmetric Encryption with Suppressed Leakage

Author

Li, Feng, Ma, Jianfeng, Miao, Yinbin, Wu, Pengfei, Song, Xiangfu, Goos, Gerhard, Founding Editor, Hartmanis, Juris, Founding Editor, Bertino, Elisa, Editorial Board Member, Gao, Wen, Editorial Board Member, Steffen, Bernhard, Editorial Board Member, Yung, Moti, Editorial Board Member, Tsudik, Gene, editor, Conti, Mauro, editor, Liang, Kaitai, editor, and Smaragdakis, Georgios, editor

Published
2024
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24. A Secure Authentication Framework to Guarantee the Traceability of Avatars in Metaverse

Author

Yang, Kedi, Zhang, Zhenyong, Tian, Youliang, and Ma, Jianfeng

Subjects
Computer Science - Cryptography and Security
Abstract

Metaverse is a vast virtual environment parallel to the physical world in which users enjoy a variety of services acting as an avatar. To build a secure living habitat, it's vital to ensure the virtual-physical traceability that tracking a malicious player in the physical world via his avatars in virtual space. In this paper, we propose a two-factor authentication framework based on chameleon signature and biometric-based authentication. First, aiming at disguise in virtual space, we propose a chameleon collision signature algorithm to achieve the verifiability of the avatar's virtual identity. Second, facing at impersonation in physical world, we construct an avatar's identity model based on the player's biometric template and the chameleon key to realize the verifiability of the avatar's physical identity. Finally, we design two decentralized authentication protocols based on the avatar's identity model to ensure the consistency of the avatar's virtual and physical identities. Security analysis indicates that the proposed authentication framework guarantees the consistency and traceability of avatar's identity. Simulation experiments show that the framework not only completes the decentralized authentication between avatars but also achieves the virtual-physical tracking., Comment: 13 pages, 12 figures

Published
2022

42. Privacy-preserving Generative Framework Against Membership Inference Attacks

Author

Yang, Ruikang, Ma, Jianfeng, Miao, Yinbin, and Ma, Xindi

Subjects
Computer Science - Cryptography and Security, Computer Science - Artificial Intelligence
Abstract

Artificial intelligence and machine learning have been integrated into all aspects of our lives and the privacy of personal data has attracted more and more attention. Since the generation of the model needs to extract the effective information of the training data, the model has the risk of leaking the privacy of the training data. Membership inference attacks can measure the model leakage of source data to a certain degree. In this paper, we design a privacy-preserving generative framework against membership inference attacks, through the information extraction and data generation capabilities of the generative model variational autoencoder (VAE) to generate synthetic data that meets the needs of differential privacy. Instead of adding noise to the model output or tampering with the training process of the target model, we directly process the original data. We first map the source data to the latent space through the VAE model to get the latent code, then perform noise process satisfying metric privacy on the latent code, and finally use the VAE model to reconstruct the synthetic data. Our experimental evaluation demonstrates that the machine learning model trained with newly generated synthetic data can effectively resist membership inference attacks and still maintain high utility., Comment: Under Review

Published
2022

43. Backdoor Defense with Machine Unlearning

Author

Liu, Yang, Fan, Mingyuan, Chen, Cen, Liu, Ximeng, Ma, Zhuo, Wang, Li, and Ma, Jianfeng

Subjects
Computer Science - Cryptography and Security, Computer Science - Machine Learning
Abstract

Backdoor injection attack is an emerging threat to the security of neural networks, however, there still exist limited effective defense methods against the attack. In this paper, we propose BAERASE, a novel method that can erase the backdoor injected into the victim model through machine unlearning. Specifically, BAERASE mainly implements backdoor defense in two key steps. First, trigger pattern recovery is conducted to extract the trigger patterns infected by the victim model. Here, the trigger pattern recovery problem is equivalent to the one of extracting an unknown noise distribution from the victim model, which can be easily resolved by the entropy maximization based generative model. Subsequently, BAERASE leverages these recovered trigger patterns to reverse the backdoor injection procedure and induce the victim model to erase the polluted memories through a newly designed gradient ascent based machine unlearning method. Compared with the previous machine unlearning solutions, the proposed approach gets rid of the reliance on the full access to training data for retraining and shows higher effectiveness on backdoor erasing than existing fine-tuning or pruning methods. Moreover, experiments show that BAERASE can averagely lower the attack success rates of three kinds of state-of-the-art backdoor attacks by 99\% on four benchmark datasets.

Published
2022

44. CoAvoid: Secure, Privacy-Preserved Tracing of Contacts for Infectious Diseases

Author

Li, Teng, Yin, Siwei, Yu, Runze, Feng, Yebo, Jiao, Lei, Shen, Yulong, and Ma, Jianfeng

Subjects
Computer Science - Cryptography and Security, Computer Science - Computers and Society
Abstract

To fight against infectious diseases (e.g., SARS, COVID-19, Ebola, etc.), government agencies, technology companies and health institutes have launched various contact tracing approaches to identify and notify the people exposed to infection sources. However, existing tracing approaches can lead to severe privacy and security concerns, thereby preventing their secure and widespread use among communities. To tackle these problems, this paper proposes CoAvoid, a decentralized, privacy-preserved contact tracing system that features good dependability and usability. CoAvoid leverages the Google/Apple Exposure Notification (GAEN) API to achieve decent device compatibility and operating efficiency. It utilizes GPS along with Bluetooth Low Energy (BLE) to dependably verify user information. In addition, to enhance privacy protection, CoAvoid applies fuzzification and obfuscation measures to shelter sensitive data, making both servers and users agnostic to information of both low and high-risk populations. The evaluation demonstrates good efficacy and security of CoAvoid. Compared with four state-of-art contact tracing applications, CoAvoid can reduce upload data by at least 90% and simultaneously resist wormhole and replay attacks in various scenarios.

Published
2022
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