44,420 research outputs found
Viraliency: Pooling Local Virality
In our overly-connected world, the automatic recognition of virality - the
quality of an image or video to be rapidly and widely spread in social networks
- is of crucial importance, and has recently awaken the interest of the
computer vision community. Concurrently, recent progress in deep learning
architectures showed that global pooling strategies allow the extraction of
activation maps, which highlight the parts of the image most likely to contain
instances of a certain class. We extend this concept by introducing a pooling
layer that learns the size of the support area to be averaged: the learned
top-N average (LENA) pooling. We hypothesize that the latent concepts (feature
maps) describing virality may require such a rich pooling strategy. We assess
the effectiveness of the LENA layer by appending it on top of a convolutional
siamese architecture and evaluate its performance on the task of predicting and
localizing virality. We report experiments on two publicly available datasets
annotated for virality and show that our method outperforms state-of-the-art
approaches.Comment: Accepted at IEEE CVPR 201
Towards Accountable AI: Hybrid Human-Machine Analyses for Characterizing System Failure
As machine learning systems move from computer-science laboratories into the
open world, their accountability becomes a high priority problem.
Accountability requires deep understanding of system behavior and its failures.
Current evaluation methods such as single-score error metrics and confusion
matrices provide aggregate views of system performance that hide important
shortcomings. Understanding details about failures is important for identifying
pathways for refinement, communicating the reliability of systems in different
settings, and for specifying appropriate human oversight and engagement.
Characterization of failures and shortcomings is particularly complex for
systems composed of multiple machine learned components. For such systems,
existing evaluation methods have limited expressiveness in describing and
explaining the relationship among input content, the internal states of system
components, and final output quality. We present Pandora, a set of hybrid
human-machine methods and tools for describing and explaining system failures.
Pandora leverages both human and system-generated observations to summarize
conditions of system malfunction with respect to the input content and system
architecture. We share results of a case study with a machine learning pipeline
for image captioning that show how detailed performance views can be beneficial
for analysis and debugging
Aerospace medicine and biology: A continuing bibliography with indexes (supplement 341)
This bibliography lists 133 reports, articles and other documents introduced into the NASA Scientific and Technical Information System during September 1990. Subject coverage includes: aerospace medicine and psychology, life support systems and controlled environments, safety equipment, exobiology and extraterrestrial life, and flight crew behavior and performance
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