138 research outputs found
Adversarial Training for Free!
Adversarial training, in which a network is trained on adversarial examples,
is one of the few defenses against adversarial attacks that withstands strong
attacks. Unfortunately, the high cost of generating strong adversarial examples
makes standard adversarial training impractical on large-scale problems like
ImageNet. We present an algorithm that eliminates the overhead cost of
generating adversarial examples by recycling the gradient information computed
when updating model parameters. Our "free" adversarial training algorithm
achieves comparable robustness to PGD adversarial training on the CIFAR-10 and
CIFAR-100 datasets at negligible additional cost compared to natural training,
and can be 7 to 30 times faster than other strong adversarial training methods.
Using a single workstation with 4 P100 GPUs and 2 days of runtime, we can train
a robust model for the large-scale ImageNet classification task that maintains
40% accuracy against PGD attacks. The code is available at
https://github.com/ashafahi/free_adv_train.Comment: Accepted to NeurIPS 201
Medial collateral ligament injuries of the knee: current treatment concepts
The medial collateral ligament is one of the most commonly injured ligaments of the knee. Most injuries result from a valgus force on the knee. The increased participation in football, ice hockey, and skiing has all contributed to the increased frequency of MCL injuries. Prophylactic knee bracing in contact sports may prevent injury; however, performance may suffer. The majority of patients who sustain an MCL injury will achieve their pre-injury activity level with non-operative treatment alone; however, those with combined ligamentous injuries may require acute operative care. Accurate characterization of each aspect of the injury will help to determine the optimum treatment plan
TFEB regulates murine liver cell fate during development and regeneration
It is well established that pluripotent stem cells in fetal and postnatal liver (LPCs) can differentiate into both hepatocytes and cholangiocytes. However, the signaling pathways implicated in the differentiation of LPCs are still incompletely understood. Transcription Factor EB (TFEB), a master regulator of lysosomal biogenesis and autophagy, is known to be involved in osteoblast and myeloid differentiation, but its role in lineage commitment in the liver has not been investigated. Here we show that during development and upon regeneration TFEB drives the differentiation status of murine LPCs into the progenitor/cholangiocyte lineage while inhibiting hepatocyte differentiation. Genetic interaction studies show that Sox9, a marker of precursor and biliary cells, is a direct transcriptional target of TFEB and a primary mediator of its effects on liver cell fate. In summary, our findings identify an unexplored pathway that controls liver cell lineage commitment and whose dysregulation may play a role in biliary cancer
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