USENIX Security ’23 - Othered, Silenced and Scapegoated: Understanding the Situated Security of Marginalised Populations in Lebanon

Authors/Presenters:Jessica McClearn and Rikke Bjerg Jensen, Royal Holloway, Reem Talhouk

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 - Medusa Attack: Exploring Security Hazards of In-App QR Code Scanning

Authors/Presenters:Xing Han, Yuheng Zhang, Xue Zhang, Zeyuan Chen, Mingzhe Wang, Yiwei Zhang, Siqi Ma, Yu Yu, Elisa Bertino, Juanru Li

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 - Near-Ultrasound Inaudible Trojan (Nuit): Exploiting Your Speaker to Attack Your Microphone

Authors/Presenters:Qi Xia, Qian Chen, Shouhuai Xu

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 - Remote Attacks on Speech Recognition Systems Using Sound from Power Supply

Authors/Presenters:Lanqing Yang, Xinqi Chen, Xiangyong Jian, Leping Yang, Yijie Li, Qianfei Ren, Yi-Chao Chen, Guangtao Xue, Xiaoyu Ji

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 - HOMESPY: The Invisible Sniffer of Infrared Remote Control of Smart TVs

Authors/Presenters:Kong Huang, YuTong Zhou, Ke Zhang, Jiacen Xu, Jiongyi Chen, Di Tang, 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 - Systematic Assessment of Fuzzers using Mutation Analysis

Authors/Presenters: Philipp Görz, Björn Mathis, Keno Hassler, Emre Güler, Thorsten Holz, Andreas Zeller, Rahul Gopinath

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

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

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

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

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

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

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

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

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.