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Package to compute point cloud models using photogrammetry from time-lapse imagery

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ArcticSnow/photo4D

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Photo4D: open-source time-lapse photogrammetry

Contributors by alphabetical orders:

Description

This project consists of an automated program to generate point cloud from time-lapse set of images from independent cameras. The software:

  1. sorts images by timestamps,
  2. assess the image quality based on lumincace and bluriness,
  3. identify automatically GCPs through the stacks of images,
  4. run Micmac to compute point clouds, and
  5. convert point cloud to rasters. (not implemented)

The project should be based on open-source libraries, for public release.

Reference

Filhol, S., Perret, A., Girod, L., Sutter, G., Schuler, T. V., and Burkhart, J. F.. ( 2019), Time‐lapse Photogrammetry of Distributed Snowdepth During Snowmelt. Water Resour. Res., 55. https://doi.org/10.1029/2018WR024530

URL: https://agupubs.onlinelibrary.wiley.com/doi/10.1029/2018WR024530

Sample dataset: DOI

Installation

  1. install the latest version of micmac

  2. install python 3.6, and with anaconda, create a virtual environment with the following packages:

    wget https://github.com/zenwerk/Pyxif/archive/master.zip
    unzip master.zip
    cd Pyxif-master
    mv LICENCE.txt LICENSE.txt   # As there is a typo in the License filename
    python setup.py install
  3. The package is available via Pypi

    pip install photo4d

Usage

1. prepare your environment:

  - create a Python >= 3.6 virtual environment in which you install the required libraries (see above)
  - create a folder for the project with inside the project folder a folder called Images containing itself one folder per
  - Organize your photo with one folder per camera. For instance folder /cam1 constains all the images from Camera 1.
   camera
├── Project
    └── Images
         ├── Cam1
         ├── Cam2
         ├── Cam3
         └── Cam...

2. Use the Photo4d class to process the images through MicMac

Set the path correctly in the file MicmacApp/Class_photo4D.py, and follow these steps

############################################################
## Part 1

import photo4d as p4d

# Create a new photo4d object by indicating the Project path
myproj = p4d.Photo4d(project_path="point to project folder /Project")

# Algorithm to sort images in triplets, and create the reference table with sets :date, valid set, image names
myproj.sort_picture()

# Algorithm to check picture quality (exposure and blurriness)
myproj.check_picture_quality()

############################################################
## Part 2: Estimate camera orientation

# Compute camera orientation using the timeSIFT method:
myproj.timeSIFT_orientation()

# Convert a text file containing the GCP coordinates to the proper format (.xml) for Micmac
myproj.prepare_gcp_files(path_to_GCP_file, file_format="N_X_Y_Z")

# Select a set to input GCPs
myproj.set_selected_set("DSC02728.JPG")

# Input GCPs in 3 steps
# first select 3 to five GCPs to pre-orient the images
myproj.pick_initial_gcps()

# Apply transformation based on the few GCPs previously picked
myproj.compute_transform()

# Pick additionnal GCPs, that are now pre-estimated
myproj.pick_all_gcps()

############################################################
## Part2, optional: pick GCPs on extre image set
## If you need to pick GCPs on another set of images, change selected set (this can be repeated n times):
#myproj.compute_transform()
#myproj.set_selected_set("DSC02871.JPG")
#myproj.pick_all_gcps()

# Compute final transform using all picked GCPs
myproj.compute_transform(doCampari=True)

## FUNCTION TO CHANGE FOR TIMESIFT
# myproj.create_mask() #To be finished

############################################################
## Part3: Compute point clouds

# Compute point cloud, correlation matrix, and depth matrix for each set of image
myproj.process_all_timesteps()

# Clean (remove) the temporary working direction
myproj.clean_up_tmp()

3. Process the point clouds with PDAL

Currently Under Development

PDAL is a python library to process point cloud. It has an extensive library of algorithms available, and here we wrapped a general method to filter and extract Digital Elevation Models (DEMs) from the point clouds derived in the previous step.

Micmac produces point clouds in the format .ply. The functions in the python class pcl_process() can convert, filter and crop the .ply point clouds and save them as .las files. Then the function convert_all_pcl2dem() will convert all point clouds stored in my_pcl.las_pcl_flist to DEMs.

With the function my_pcl.custom_pipeline(), it is possible to build custom processing pipeline following the PDAL JSON syntax. This pipeline can then be executed by running the function my_pcl.apply_custom_pipeline().

See the source file Class_pcl_processing.py for more details.

# Create a pcl_class object, indication the path to the photo4d project
my_pcl = p4d.pcl_process(project_path="path_to_project_folder")

my_pcl.resolution = 1  # set the resolution of the final DEMs

# Set the bounding box the Region of Interest (ROI)
my_pcl.crop_xmin = 416100
my_pcl.crop_xmax = 416900
my_pcl.crop_ymin = 6715900
my_pcl.crop_ymax = 6716700
my_pcl.nodata = -9999

# add path og the .ply point cloud files to the python class
my_pcl.add_ply_pcl()

# filter the point clouds with pdal routine, and save resulting point clouds as .las file
my_pcl.filter_all_pcl()

# add path of the .las files
my_pcl.add_las_pcl()

# conver the .las point clouds to DEMs (geotiff)
my_pcl.convert_all_pcl2dem()

# Extract Value orthophoto from RGB 
my_pcl.extract_all_ortho_value()

After this section you have clean point clouds, as well as DEMs in GeoTiff ready!

Ressources

Development

Message us to be added as a contributor, then if you can also modify the code to your own convenience with the following steps:

To work on a development version and keep using the latest change install it with the following

git clone git@github.com:ArcticSnow/photo4D.git
pip install -e [path2folder/photo4D]

and to upload latest change to Pypi.org, simply:

  1. change the version number in the file photo4d/__version__.py
  2. run from a terminal from the photo4D folder, given your $HOME/.pyc is correctly set:
python setup.py upload