Skip to content

Computational-Plant-Science/3D_beanroot_phenotyping_pipeline

Repository files navigation

3D_bean_root_model_traits_measurement

Function: Compute 3D root traits from 3D bean root model

Optional Text

RGB image captured for two bean roots interaction in a meshed box, Designed by William Alexander Lavoy @ wlavoy@arizona.edu,

Optional Text

Segmentation of above RGB image for building 3D root models, from AI_U2net_color_clustering (SMART branch)

Optional Text

Computed 3D root point cloud model from DIRT/3D

Optional Text

Visualization of computed root structure along with 3D point cloud model

Input

3D root models (*.ply) in Polygon File Format or the Stanford Triangle Format.

computed from Computational-Plant-Science / 3D_model_reconstruction_demo

Output

trait.xlsx Excel format, contains traits results

Requirements

Docker is required to run this project in a Linux environment.

Install Docker Engine (https://docs.docker.com/engine/install/)

Usage

We suggest to run the pipeline inside a docker container,

The Docker container allows you to package up your application(s) and deliver them to the cloud without any dependencies. It is a portable computing environment. It contains everything an application needs to run, from binaries to dependencies to configuration files.

There are two ways to run the pipeline inside a docker container,

One was is to build a docker based on the docker recipe file inside the GitHub repository. In our case, please follow step 1 and step 3.

Antoher way is to download prebuild docker image directly from Docker hub. In our case, please follow step 2 and step 3.

  1. Build docker image on your PC under linux environment
git clone https://github.com/Computational-Plant-Science/3D_beanroot_phenotyping_pipeline.git

docker build -t 3d-model-traits -f Dockerfile .
  1. Download prebuild docker image directly from Docker hub, without building docker image on your local PC
docker pull computationalplantscience/3d_beanroot_pipeline
  1. Run the pipeline inside the docker container

link your test 3D model path (e.g. '/home/test/test.ply', $path_to_your_3D_model = /home/test, $your_3D_model_name.ply = test.ply)to the /srv/test/ path inside the docker container

docker run -v /$path_to_your_3D_model:/srv/test -it 3d-model-traits

or 

docker run -v /$path_to_your_3D_model:/srv/test -it computationalplantscience/3d_beanroot_pipeline
  1. Run the pipeline inside the container
python3 /opt/code/pipeline.py -i /srv/test/$your_3D_model_name.ply -o /srv/test/$result/ 

Reference:

Shenglan Du, Roderik Lindenbergh, Hugo Ledoux, Jantien Stoter, and Liangliang Nan. AdTree: Accurate, Detailed, and Automatic Modelling of Laser-Scanned Trees. Remote Sensing. 2019, 11(18), 2074.

@article{du2019adtree, title={AdTree: Accurate, detailed, and automatic modelling of laser-scanned trees}, author={Du, Shenglan and Lindenbergh, Roderik and Ledoux, Hugo and Stoter, Jantien and Nan, Liangliang}, journal={Remote Sensing}, volume={11}, number={18}, pages={2074}, year={2019} }

Author

Suxing Liu (suxingliu@gmail.com), William Alexander Lavoy(wlavoy@arizona.edu), Wesley Paul Bonelli(wbonelli@uga.edu), Alexander Bucksch(bucksch@arizona.edu)

Other contributions

Docker container was maintained and deployed to PlantIT by Wes Bonelli (wbonelli@uga.edu).

License

GNU Public License

About

No description, website, or topics provided.

Resources

License

Stars

Watchers

Forks

Releases

No releases published

Packages

No packages published