USENIX Security ’23 - Powering Privacy: On the Energy Demand and Feasibility of Anonymity Networks on Smartphones

Authors/Presenters:Daniel Hugenroth, Alastair R. Beresford

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 - Long Live The Honey Badger: Robust Asynchronous DPSS and its Applications

Authors/Presenters:Thomas Yurek, Zhuolun Xiang, Yu Xia, Andrew Miller

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 - TVA: A Multi-Party Computation System For Secure And Expressive Time Series Analytics

Authors/Presenters:Muhammad Faisal, Jerry Zhang, John Liagouris, Vasiliki Kalavri, Mayank Varia

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 - Efficient 3PC for Binary Circuits with Application to Maliciously-Secure DNN Inference

Authors/Presenters:Yun Li, Tsinghua University, Ant Group; Yufei Duan, Tsinghua University; Zhicong Huang, Alibaba Group; Cheng Hong, Ant Group; Chao Zhang and Yifan Song, Tsinghua University

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 - Practical Asynchronous High-threshold Distributed Key Generation and Distributed Polynomial Sampling

Authors/Presenters:Sourav Das, Zhuolun Xiang, Lefteris Kokoris-Kogias, Ling Ren

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 - WaterBear: Practical Asynchronous BFT Matching Security Guarantees of Partially Synchronous BFT

Authors/Presenters:Haibin Zhang, Sisi Duan, Boxin Zhao, Liehuang Zhu

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 - LightThief: Your Optical Communication Information is Stolen behind the Wall

Authors/Presenters:Xin Liu, Wei Wang, Guanqun Song, Ting Zhu

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 - Beyond The Gates: An Empirical Analysis of HTTP-Managed Password Stealers and Operators

Authors/Presenters:Athanasios Avgetidis, Omar Alrawi, Kevin Valakuzhy, Charles Lever, Paul Burbage, Angelos D. Keromytis, Fabian Monrose, Manos Antonakakis

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 - A Plot is Worth a Thousand Words: Model Information Stealing Attacks via Scientific Plots

Authors/Presenters:Boyang Zhang and Xinlei He, Yun Shen, Tianhao Wang, Yang 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 - PCAT: Functionality and Data Stealing from Split Learning by Pseudo-Client Attack

Authors/Presenters:Xinben Gao, Lan 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 - Extracting Training Data from Diffusion Models

Authors/Presenters:Nicholas Carlini, Jamie Hayes, DeepMind; Milad Nasr Matthew Jagielski, Vikash Sehwag, Florian Tramèr, Borja Balle, Daphne Ippolito, Eric Wallace

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 - In the Quest to Protect Users from Side-Channel Attacks -- A User-Centred Design Space to Mitigate Thermal Attacks on Public Payment Terminals

Authors/Presenters:Karola Marky, Shaun Macdonald, Yasmeen Abdrabou, Mohamed Khamis

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 - Person Re-identification in 3D Space: A WiFi Vision-Based Approach

Authors/Presenters:Yili Ren, Yichao Wang, Sheng Tan, Yingying Chen, Jie Yang

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.