In the NASA Harvest Field Boundary Detection Challenge
this was the third place solution by the team borderline
.
Please review the model architecture, license, applicable spatial and temporal extents and other details in the model documentation.
Inferencing | Training |
---|---|
32 GB RAM | 32 GB RAM |
First clone this Git repository.
Please note: this repository uses
Git Large File Support (LFS) to include the
model checkpoint file. Either install git lfs
support for your git client,
use the official Mac or Windows GitHub client to clone this repository.
⚡ Shell commands have been tested with Linux and MacOS but will differ on Windows, or depending on your environment.
git clone https://github.com/radiantearth/model_nasa_rwanda_field_boundary_competition_bronze.git
cd mmodel_nasa_rwanda_field_boundary_competition_bronze/
After cloning the model repository, you can use the Docker Compose runtime files as described below.
Pull pre-built image from Docker Hub (recommended):
docker pull docker.io/radiantearth/mmodel_nasa_rwanda_field_boundary_competition_bronze:1
Or build image from source:
cd docker-services/
docker build -t radiantearth/model_nasa_rwanda_field_boundary_competition_bronze:1 .
-
Prepare your input and output data folders:
- The
data/input
folder in this repository contains some placeholder files to guide you. The input data should follow the following convention. It should be placed in a directory namedxxx_<tile_id>_<year>_<month>
, wherexxx
is arbitrary and<tile_id>
represents the id of the tile stored in that directory.
Here is a sample for reference.
data/input/nasa_rwanda_field_boundary_competition_source_test_00_2021_03 data/input/nasa_rwanda_field_boundary_competition_source_test_00_2021_04 data/input/nasa_rwanda_field_boundary_competition_source_test_00_2021_08 data/input/nasa_rwanda_field_boundary_competition_source_test_00_2021_10 data/input/nasa_rwanda_field_boundary_competition_source_test_00_2021_11 data/input/nasa_rwanda_field_boundary_competition_source_test_00_2021_12 data/input/nasa_rwanda_field_boundary_competition_source_test_01_2021_03 data/input/nasa_rwanda_field_boundary_competition_source_test_01_2021_04 data/input/nasa_rwanda_field_boundary_competition_source_test_01_2021_08 data/input/nasa_rwanda_field_boundary_competition_source_test_01_2021_10 data/input/nasa_rwanda_field_boundary_competition_source_test_01_2021_11 data/input/nasa_rwanda_field_boundary_competition_source_test_01_2021_12
These directories will contain tiff files for three tiles (id
00
, and01
).- The
output/
folder is where the model will write inferencing results.
- The
-
Set
INPUT_DATA
andOUTPUT_DATA
environment variables corresponding with your input and output folders. These commands will vary depending on operating system and command-line shell:# change paths to your actual input and output folders export INPUT_DATA="/home/my_user/model_nasa_rwanda_field_boundary_competition_bronze/data/input/" export OUTPUT_DATA="/home/my_user/model_nasa_rwanda_field_boundary_competition_bronze/data/output/" export MODELS_DIR="/home/my_user/model_nasa_rwanda_field_boundary_competition_bronze/models" export WORKSPACE_DIR="/home/my_user/model_nasa_rwanda_field_boundary_competition_bronze/workspace"
-
Run the appropriate Docker Compose command for your system:
cd docker-services/ docker compose up model_nasa_rwanda_field_boundary_competition_bronze_v1
-
Wait for the
docker compose
to finish running, then inspect theOUTPUT_DATA
folder for results.
Please review the model output format and other technical details in the model documentation.