usenix security '23 - learning normality is enough: a software-based mitigation against inaudible...
Published 10 months ago • 77 plays • Length 11:38Download video MP4
Download video MP3
Similar videos
-
12:26
usenix security '23 - the ok is not enough: a large scale study of consent dialogs in smartphone...
-
9:04
usenix security '23 - villain: backdoor attacks against vertical split learning
-
13:16
usenix security '23 - two-in-one: a model hijacking attack against text generation models
-
12:43
usenix security '23 - reassembly is hard: a reflection on challenges and strategies
-
10:59
usenix security '23 - extended hell(o): a comprehensive large-scale study on email...
-
9:34
usenix security '23 - icspatch: automated vulnerability localization and non-intrusive...
-
12:41
usenix security '23 - capstone: a capability-based foundation for trustless secure memory access
-
15:00
nsdi '23 - remote procedure call as a managed system service
-
48:47
usenix atc '22/osdi '22 joint keynote address - trustworthy open source: the consequences of success
-
21:01
usenix enigma 2022 - can the fight against disinformation really scale?
-
11:39
usenix security '23 - elasm: error-latency-aware scale management for fully homomorphic encryption
-
12:47
usenix security '23 - aliasing backdoor attacks on pre-trained models
-
11:34
usenix security '23 - smack: semantically meaningful adversarial audio attack
-
10:54
usenix security '23 - systematic assessment of fuzzers using mutation analysis
-
11:12
usenix security '20 - retrofitting fine grain isolation in the firefox renderer
-
11:27
usenix security '23 - to cloud or not to cloud: a qualitative study on self-hosters' motivation...
-
11:31
usenix security '23 - isolated and exhausted: attacking operating systems via site isolation in...
-
11:36
usenix security '23 - a study of multi-factor and risk-based authentication availability
-
12:09
usenix security '21 - domain shadowing: leveraging content delivery networks for robust blocking
-
12:51
usenix security '23 - automata-guided control-flow-sensitive fuzz driver generation