Copyright (C) 2016, Authors.
This is a reference implementation of the algorithm described in the paper:
Ayan Chakrabarti, Jingyu Shao, and Gregory Shakhnarovich, "Depth from a Single Image by Harmonizing Overcomplete Local Network Predictions," NIPS 2016.
It is being made available for non-commercial research use only. If you find this code useful in your research, please consider citing the paper.
Please see the project page and contact ayanc@ttic.edu with any questions.
The top directory contains the inference code. It is entirely in MATLAB and has no external Caffe dependencies.
-
You can download our trained neural network model weights, available as a .caffemodel.h5 file from the project page.
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This implementation requires a modern CUDA-capable high-memory GPU (it has been tested on an NVIDIA Titan X), and a recent version of MATLAB's Parallel Computing Toolbox that supports the
GPUArray
class. -
You will also need to compile the mex function postMAP. With modern versions of MATLAB, this can be done by running
mexcuda postMAP.cu
. Requires the CUDA toolkit withnvcc
to be installed.
First, you will need to load the network weights from the model file as:
>>> net = load('/path/to/mdepth.caffemodel.h5');
Then given a floating-point RGB image img
, normalized to [0,1]
,
estimate the corresponding depth map as:
>>> Z = mdepth(img,net);
Note that we expect img
to be of size 561x427
, which corresponds
to the axis aligned crops in the NYU dataset where there is a valid
depth map projection. You can recover these as:
img = imgOrig(45:471, 41:601, :)
.
See the training/
directory for code and instructions for training
your own network.