10,027 research outputs found
Detect to Track and Track to Detect
Recent approaches for high accuracy detection and tracking of object
categories in video consist of complex multistage solutions that become more
cumbersome each year. In this paper we propose a ConvNet architecture that
jointly performs detection and tracking, solving the task in a simple and
effective way. Our contributions are threefold: (i) we set up a ConvNet
architecture for simultaneous detection and tracking, using a multi-task
objective for frame-based object detection and across-frame track regression;
(ii) we introduce correlation features that represent object co-occurrences
across time to aid the ConvNet during tracking; and (iii) we link the frame
level detections based on our across-frame tracklets to produce high accuracy
detections at the video level. Our ConvNet architecture for spatiotemporal
object detection is evaluated on the large-scale ImageNet VID dataset where it
achieves state-of-the-art results. Our approach provides better single model
performance than the winning method of the last ImageNet challenge while being
conceptually much simpler. Finally, we show that by increasing the temporal
stride we can dramatically increase the tracker speed.Comment: ICCV 2017. Code and models:
https://github.com/feichtenhofer/Detect-Track Results:
https://www.robots.ox.ac.uk/~vgg/research/detect-track
Video-based Sign Language Recognition without Temporal Segmentation
Millions of hearing impaired people around the world routinely use some
variants of sign languages to communicate, thus the automatic translation of a
sign language is meaningful and important. Currently, there are two
sub-problems in Sign Language Recognition (SLR), i.e., isolated SLR that
recognizes word by word and continuous SLR that translates entire sentences.
Existing continuous SLR methods typically utilize isolated SLRs as building
blocks, with an extra layer of preprocessing (temporal segmentation) and
another layer of post-processing (sentence synthesis). Unfortunately, temporal
segmentation itself is non-trivial and inevitably propagates errors into
subsequent steps. Worse still, isolated SLR methods typically require strenuous
labeling of each word separately in a sentence, severely limiting the amount of
attainable training data. To address these challenges, we propose a novel
continuous sign recognition framework, the Hierarchical Attention Network with
Latent Space (LS-HAN), which eliminates the preprocessing of temporal
segmentation. The proposed LS-HAN consists of three components: a two-stream
Convolutional Neural Network (CNN) for video feature representation generation,
a Latent Space (LS) for semantic gap bridging, and a Hierarchical Attention
Network (HAN) for latent space based recognition. Experiments are carried out
on two large scale datasets. Experimental results demonstrate the effectiveness
of the proposed framework.Comment: 32nd AAAI Conference on Artificial Intelligence (AAAI-18), Feb. 2-7,
2018, New Orleans, Louisiana, US
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