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Your search keyword '"Liang, Ruichao"' showing total 26 results
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26 results on '"Liang, Ruichao"'

1. Vulseye: Detect Smart Contract Vulnerabilities via Stateful Directed Graybox Fuzzing

Author

Liang, Ruichao, Chen, Jing, Wu, Cong, He, Kun, Wu, Yueming, Cao, Ruochen, Du, Ruiying, Liu, Yang, and Zhao, Ziming

Subjects
Computer Science - Software Engineering
Abstract

Smart contracts, the cornerstone of decentralized applications, have become increasingly prominent in revolutionizing the digital landscape. However, vulnerabilities in smart contracts pose great risks to user assets and undermine overall trust in decentralized systems. But current smart contract fuzzers fall short of expectations in testing efficiency for two primary reasons. Firstly, smart contracts are stateful programs, and existing approaches, primarily coverage-guided, lack effective feedback from the contract state. Consequently, they struggle to effectively explore the contract state space. Secondly, coverage-guided fuzzers, aiming for comprehensive program coverage, may lead to a wastage of testing resources on benign code areas. This wastage worsens in smart contract testing, as the mix of code and state spaces further complicates comprehensive testing. To address these challenges, we propose Vulseye, a stateful directed graybox fuzzer for smart contracts guided by vulnerabilities. Different from prior works, Vulseye achieves stateful directed fuzzing by prioritizing testing resources to code areas and contract states that are more prone to vulnerabilities. We introduce Code Targets and State Targets into fuzzing loops as the testing targets of Vulseye. We use static analysis and pattern matching to pinpoint Code Targets, and propose a scalable backward analysis algorithm to specify State Targets. We design a novel fitness metric that leverages feedback from both the contract code space and state space, directing fuzzing toward these targets. With the guidance of code and state targets, Vulseye alleviates the wastage of testing resources on benign code areas and achieves effective stateful fuzzing. In comparison with state-of-the-art fuzzers, Vulseye demonstrated superior effectiveness and efficiency., Comment: Submitted to TIFS

Published
2024

2. Towards Effective Detection of Ponzi schemes on Ethereum with Contract Runtime Behavior Graph

Author

Liang, Ruichao, Chen, Jing, Wu, Cong, He, Kun, Wu, Yueming, Sun, Weisong, Du, Ruiying, Zhao, Qingchuan, and Liu, Yang

Subjects
Computer Science - Software Engineering
Abstract

Ponzi schemes, a form of scam, have been discovered in Ethereum smart contracts in recent years, causing massive financial losses. Existing detection methods primarily focus on rule-based approaches and machine learning techniques that utilize static information as features. However, these methods have significant limitations. Rule-based approaches rely on pre-defined rules with limited capabilities and domain knowledge dependency. Using static information like opcodes for machine learning fails to effectively characterize Ponzi contracts, resulting in poor reliability and interpretability. Moreover, relying on static information like transactions for machine learning requires a certain number of transactions to achieve detection, which limits the scalability of detection and hinders the identification of 0-day Ponzi schemes. In this paper, we propose PonziGuard, an efficient Ponzi scheme detection approach based on contract runtime behavior. Inspired by the observation that a contract's runtime behavior is more effective in disguising Ponzi contracts from the innocent contracts, PonziGuard establishes a comprehensive graph representation called contract runtime behavior graph (CRBG), to accurately depict the behavior of Ponzi contracts. Furthermore, it formulates the detection process as a graph classification task on CRBG, enhancing its overall effectiveness. The experiment results show that PonziGuard surpasses the current state-of-the-art approaches in the ground-truth dataset. We applied PonziGuard to Ethereum Mainnet and demonstrated its effectiveness in real-world scenarios. Using PonziGuard, we identified 805 Ponzi contracts on Ethereum Mainnet, which have resulted in an estimated economic loss of 281,700 Ether or approximately $500 million USD. We also found 0-day Ponzi schemes in the recently deployed 10,000 smart contracts., Comment: Submitted to ACM Transactions on Software Engineering and Methodology

Published
2024

13. Single-cell RNA sequencing highlights intratumor heterogeneity and intercellular network featured in adamantinomatous craniopharyngioma

Author

Jiang, Yu, primary, Yang, Jinlong, additional, Liang, Ruichao, additional, Zan, Xin, additional, Fan, Rangrang, additional, Shan, Baoyin, additional, Liu, Hao, additional, Li, Li, additional, Wang, Yue, additional, Wu, Min, additional, Qi, Xin, additional, Chen, Hongxu, additional, Ren, Qingqing, additional, Liu, Zhiyong, additional, Wang, Yuelong, additional, Zhang, Jing, additional, Zhou, Peizhi, additional, Li, Qiang, additional, Tian, Meng, additional, Yang, Jinhao, additional, Wang, Chaoyang, additional, Li, Xueying, additional, Jiang, Shu, additional, Zhou, Liangxue, additional, Zhang, Gao, additional, Chen, Yaohui, additional, and Xu, Jianguo, additional

Published
2023
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15. Biodegradable polyurethane-incorporating decellularized spinal cord matrix scaffolds enhance Schwann cell reprogramming to promote peripheral nerve repair

Author

Wang, Yanchao, primary, Lin, Jingjing, additional, Chen, Jinlin, additional, Liang, Ruichao, additional, Zhang, Qiao, additional, Li, Jiehua, additional, Shi, Min, additional, Li, Lei, additional, He, Xueling, additional, Lan, Ting, additional, Hui, Xuhui, additional, and Tan, Hong, additional

Published
2023
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23. Cross-linking manipulation of waterborne biodegradable polyurethane for constructing mechanically adaptable tissue engineering scaffolds

Author

Sheng, Nan, Lin, Weiwei, Lin, Jingjing, Feng, Yuan, Wang, Yanchao, He, Xueling, He, Yuanyuan, Liang, Ruichao, Li, Zhen, Li, Jiehua, Luo, Feng, and Tan, Hong

Abstract

Mechanical adaptation of tissue engineering scaffolds is critically important since natural tissue regeneration is highly regulated by mechanical signals. Herein, we report a facile and convenient strategy to tune the modulus of waterborne biodegradable polyurethanes (WBPU) via cross-linking manipulation of phase separation and water infiltration for constructing mechanically adaptable tissue engineering scaffolds. Amorphous aliphatic polycarbonate and trifunctional trimethylolpropane were introduced to polycaprolactone-based WBPUs to interrupt interchain hydrogen bonds in the polymer segments and suppress microphase separation, inhibiting the crystallization process and enhancing covalent cross-linking. Intriguingly, as the crosslinking density of WBPU increases and the extent of microphase separation decreases, the material exhibits a surprisingly soft modulus and enhanced water infiltration. Based on this strategy, we constructed WBPU scaffolds with a tunable modulus to adapt various cells for tissue regeneration and regulate the immune response. As a representative application of brain tissue regeneration model in vivo, it was demonstrated that the mechanically adaptable WBPU scaffolds can guide the migration and differentiation of endogenous neural progenitor cells into mature neurons and neuronal neurites and regulate immunostimulation with low inflammation. Therefore, the proposed strategy of tuning the modulus of WBPU can inspire the development of novel mechanically adaptable biomaterials, which has very broad application value.

Published
2024
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26. Polyurethane scaffold-based 3D lung cancer model recapitulates in vivotumor biological behavior for nanoparticulate drug screening

Author

Sun, Lu, Wang, Xiaofei, He, Yushui, Chen, Boran, Shan, Baoyin, Yang, Jinlong, Wang, Ruoran, Zeng, Xihang, Li, Jiehua, Tan, Hong, and Liang, Ruichao

Abstract

Lung cancer is the leading cause of cancer mortality worldwide. Preclinical studies in lung cancer hold the promise of screening for effective antitumor agents, but mechanistic studies and drug discovery based on 2D cell models have a high failure rate in getting to the clinic. Thus, there is an urgent need to explore more reliable and effective in vitrolung cancer models. Here, we prepared a series of three-dimensional (3D) waterborne biodegradable polyurethane (WBPU) scaffolds as substrates to establish biomimetic tumor models in vitro. These 3D WBPU scaffolds were porous and could absorb large amounts of free water, facilitating the exchange of substances (nutrients and metabolic waste) and cell growth. The scaffolds at wet state could simulate the mechanics (elastic modulus ∼1.9 kPa) and morphology (porous structures) of lung tissue and exhibit good biocompatibility. A549 lung cancer cells showed adherent growth pattern and rapidly formed 3D spheroids on WBPU scaffolds. Our results showed that the scaffold-based 3D lung cancer model promoted the expression of anti-apoptotic and epithelial–mesenchymal transition-related genes, giving it a more moderate growth and adhesion pattern compared to 2D cells. In addition, WBPU scaffold-established 3D lung cancer model revealed a closer expression of proteins to in vivotumor, including tumor stem cell markers, cell proliferation, apoptosis, invasion and tumor resistance proteins. Based on these features, we further demonstrated that the 3D lung cancer model established by the WBPU scaffold was very similar to the in vivotumor in terms of both resistance and tolerance to nanoparticulate drugs. Taken together, WBPU scaffold-based lung cancer model could better mimic the growth, microenvironment and drug response of tumor in vivo. This emerging 3D culture system holds promise to shorten the formulation cycle of individualized treatments and reduce the use of animals while providing valid research data for clinical trials.

Published
2023
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