USENIX Security ’23 - MINER: A Hybrid Data-Driven Approach for REST API Fuzzing

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Authors/Presenters:Chenyang Lyu, Jiacheng Xu, Shouling Ji, Xuhong Zhang, Qinying Wang, Binbin Zhao, Gaoning Pan, Wei Cao, Peng Chen, Raheem Beyah

Many thanks to USENIX for publishing their outstanding USENIX Security ’23 Presenter’s content, and the organizations strong commitment to Open Access. Originating from the conference’s events situated at the Anaheim Marriott; and via the organizations YouTube channel.

USENIX Security ’23 - MINER: A Hybrid Data-Driven Approach for REST API Fuzzing

in , ,
Authors/Presenters:Chenyang Lyu, Jiacheng Xu, Shouling Ji, Xuhong Zhang, Qinying Wang, Binbin Zhao, Gaoning Pan, Wei Cao, Peng Chen, Raheem Beyah

Many thanks to USENIX for publishing their outstanding USENIX Security ’23 Presenter’s content, and the organizations strong commitment to Open Access. Originating from the conference’s events situated at the Anaheim Marriott; and via the organizations YouTube channel.

USENIX Security ’23 - Automated Exploitable Heap Layout Generation for Heap Overflows Through Manipulation Distance-Guided Fuzzing

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Authors/Presenters: Bin Zhang, Jiongyi Chen, Runhao Li, Chao Feng, Ruilin Li, Chaojing Tang

Many thanks to USENIX for publishing their outstanding USENIX Security ’23 Presenter’s content, and the organizations strong commitment to Open Access. Originating from the conference’s events situated at the Anaheim Marriott; and via the organizations YouTube channel.

USENIX Security ’23 - Bleem: Packet Sequence Oriented Fuzzing for Protocol Implementations

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Authors/Presenters:Zhengxiong Luo, Junze Yu, Feilong Zuo, Jianzhong Liu, Yu Jiang, Ting Chen, Abhik Roychoudhury, Jiaguang Suny

Many thanks to USENIX for publishing their outstanding USENIX Security ’23 Presenter’s content, and the organizations strong commitment to Open Access. Originating from the conference’s events situated at the Anaheim Marriott; and via the organizations YouTube channel.

USENIX Security ’23 - Intender: Fuzzing Intent-Based Networking with Intent-State Transition Guidance

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Authors/Presenters: Jiwon Kim, Benjamin E. Ujcich, Dave (Jing) Tian

Many thanks to USENIX for publishing their outstanding USENIX Security ’23 Presenter’s content, and the organizations strong commitment to Open Access. Originating from the conference’s events situated at the Anaheim Marriott; and via the organizations YouTube channel.

USENIX Security ’23 - VeriZexe: Decentralized Private Computation with Universal Setup

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Authors/Presenters:Alex Luoyuan Xiong, Binyi Chen, Zhenfei Zhang, Benedikt Bünz, Ben Fisch, Fernando Krell, Philippe Camacho

Many thanks to USENIX for publishing their outstanding USENIX Security ’23 Presenter’s content, and the organizations strong commitment to Open Access. Originating from the conference’s events situated at the Anaheim Marriott; and via the organizations YouTube channel.

USENIX Security ’23 - zkSaaS: Zero-Knowledge SNARKs as a Service

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Authors/Presenters: Sanjam Garg, Aarushi Goel, Abhishek Jain, Johns Hopkins University; Guru-Vamsi Policharla, Sruthi Sekar

Many thanks to USENIX for publishing their outstanding USENIX Security ’23 Presenter’s content, and the organizations strong commitment to Open Access. Originating from the conference’s events situated at the Anaheim Marriott; and via the organizations YouTube channel.

USENIX Security ’23 - BalanceProofs: Maintainable Vector Commitments with Fast Aggregation

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Authors/Presenters: Weijie Wang, Annie Ulichney, Charalampos Papamanthou

Many thanks to USENIX for publishing their outstanding USENIX Security ’23 Presenter’s content, and the organizations strong commitment to Open Access. Originating from the conference’s events situated at the Anaheim Marriott; and via the organizations YouTube channel.

USENIX Security ’23 - Curve Trees: Practical and Transparent Zero-Knowledge Accumulators

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Authors/Presenters: Matteo Campanelli, Mathias Hall-Andersen, Simon Holmgaard Kamp

Many thanks to USENIX for publishing their outstanding USENIX Security ’23 Presenter’s content, and the organizations strong commitment to Open Access. Originating from the conference’s events situated at the Anaheim Marriott; and via the organizations YouTube channel.

USENIX Security ’23 - Dubhe: Succinct Zero-Knowledge Proofs for Standard AES and related Applications

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Authors/Presenters:Changchang Ding and Yan Huang

Many thanks to USENIX for publishing their outstanding USENIX Security ’23 Presenter’s content, and the organizations strong commitment to Open Access. Originating from the conference’s events situated at the Anaheim Marriott; and via the organizations YouTube channel.

USENIX Security ’23 - PROGRAPHER: An Anomaly Detection System based on Provenance Graph Embedding

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Authors/Presenters:Fan Yang, Jiacen Xu, Chunlin Xiong, Zhou Li, Kehuan Zhang

Many thanks to USENIX for publishing their outstanding USENIX Security ’23 Presenter’s content, and the organizations strong commitment to Open Access. Originating from the conference’s events situated at the Anaheim Marriott; and via the organizations YouTube channel.

USENIX Security ’23 - xNIDS: Explaining Deep Learning-based Network Intrusion Detection Systems for Active Intrusion Responses

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Authors/Presenters:Feng Wei, Hongda Li, Ziming Zhao, Hongxin Hu

Many thanks to USENIX for publishing their outstanding USENIX Security ’23 Presenter’s content, and the organizations strong commitment to Open Access. Originating from the conference’s events situated at the Anaheim Marriott; and via the organizations YouTube channel.

USENIX Security ’23 - Generative Intrusion Detection and Prevention on Data Stream

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Authors/Presenters: HyungBin Seo, MyungKeun Yoon

Many thanks to USENIX for publishing their outstanding USENIX Security ’23 Presenter’s content, and the organizations strong commitment to Open Access. Originating from the conference’s events situated at the Anaheim Marriott; and via the organizations YouTube channel.

USENIX Security ’23 - ARGUS: Context-Based Detection of Stealthy IoT Infiltration Attacks

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Authors/Presenters:Phillip Rieger, Marco Chilese, Reham Mohamed, Markus Miettinen, Hossein Fereidooni, Ahmad-Reza Sadeghi

Many thanks to USENIX for publishing their outstanding USENIX Security ’23 Presenter’s content, and the organizations strong commitment to Open Access. Originating from the conference’s events situated at the Anaheim Marriott; and via the organizations YouTube channel.