Deep Convolutional Compressed Sensing for LiDAR Depth Completion
Conference Paper, Proceedings of Asian Conference on Computer Vision (ACCV '18), pp. 499 - 513, December, 2018
Abstract
In this paper we consider the problem of estimating a dense depth map from a set of sparse LiDAR points. We use techniques from compressed sensing and the recently developed Alternating Direction Neural Networks (ADNNs) to create a deep recurrent auto-encoder for this task. Our architecture internally performs an algorithm for extracting multi-level convolutional sparse codes from the input which are then used to make a prediction. Our results demonstrate that with only two layers and 1800 parameters we are able to out perform all previously published results, including deep networks with orders of magnitude more parameters.
BibTeX
@conference{Chodosh-2018-121014,author = {N. Chodosh and C. Wang and S. Lucey},
title = {Deep Convolutional Compressed Sensing for LiDAR Depth Completion},
booktitle = {Proceedings of Asian Conference on Computer Vision (ACCV '18)},
year = {2018},
month = {December},
pages = {499 - 513},
}
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