1,094 research outputs found
Recurrent Segmentation for Variable Computational Budgets
State-of-the-art systems for semantic image segmentation use feed-forward
pipelines with fixed computational costs. Building an image segmentation system
that works across a range of computational budgets is challenging and
time-intensive as new architectures must be designed and trained for every
computational setting. To address this problem we develop a recurrent neural
network that successively improves prediction quality with each iteration.
Importantly, the RNN may be deployed across a range of computational budgets by
merely running the model for a variable number of iterations. We find that this
architecture is uniquely suited for efficiently segmenting videos. By
exploiting the segmentation of past frames, the RNN can perform video
segmentation at similar quality but reduced computational cost compared to
state-of-the-art image segmentation methods. When applied to static images in
the PASCAL VOC 2012 and Cityscapes segmentation datasets, the RNN traces out a
speed-accuracy curve that saturates near the performance of state-of-the-art
segmentation methods
Interactive volumetric segmentation for textile micro-tomography data using wavelets and nonlocal means
This work addresses segmentation of volumetric images of woven carbon fiber textiles from micro-tomography data. We propose a semi-supervised algorithm to classify carbon fibers that requires sparse input as opposed to completely labeled images. The main contributions are: (a) design of effective discriminative classifiers, for three-dimensional textile samples, trained on wavelet features for segmentation; (b) coupling of previous step with nonlocal means as simple, efficient alternative to the Potts model; and (c) demonstration of reuse of classifier to diverse samples containing similar content. We evaluate our work by curating test sets of voxels in the absence of a complete ground truth mask. The algorithm obtains an average 0.95 F1 score on test sets and average F1 score of 0.93 on new samples. We conclude with discussion of failure cases and propose future directions toward analysis of spatiotemporal high-resolution micro-tomography images
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