title: >-
Map It Anywhere (MIA): Empowering Bird鈥檚 Eye View Mapping using Large-scale
Public Data
emoji: 馃實
colorFrom: green
colorTo: blue
sdk: docker
pinned: true
app_port: 7860
Map It Anywhere (MIA): Empowering Bird鈥檚 Eye View Mapping using Large-scale Public Data
Cherie Ho*
路
Jiaye (Tony) Zou*
路
Omar Alama*
Sai Mitheran Jagadesh Kumar
路
Benjamin Chiang
路
Taneesh Gupta
路
Chen Wang
Nikhil Keetha
路
Katia Sycara
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Sebastian Scherer
Table of Contents
Using the MIA data engine
0. Setting up the environment
Install docker by following the instructions on their website
Build the docker image
mia/Dockerfile
by running:docker build -t mia:release mia
Launch the container while mounting this repository to the container file system.
docker run -v <PATH_TO_THIS_REPO>:/home/MapItAnywhere --network=bridge -it mia:release
1. Getting FPVs
The first stage of the MIA data engine is to get the first person images.
First, if you want to pull your own locations, copy the example configuration from mia/conf/example.yaml
and edit the cities list to specify the cities you want. Feel free to explore the other well-documented FPV options in the configuration file.
Once configuration is done simply run the following from inside your docker container with working dir set to this repo:
python3.9 -m mia.fpv.get_fpv --cfg mia/conf/<YOUR_CONFIG>.yaml
That's it ! The engine will now automatically fetch, filter, and process your FPV images. You may get a few errors specifying that some images were unable to be fetched due to permission limitations. That is normal and the engine will continue.
Once all your locations have been downloaded, you will see that parquet files, images, and raw_images, have been populated in your dataset_dir
for each location. You can now move on to getting BEVs.
2. Getting BEVs
Once you have the FPV parquet dataframes downloaded, you are now ready to fetch and generate the BEV smenatic maps.
Edit the documented bev options in your configuration file to suit your use case. The defaults are tuned to what we used to produce the MIA datasets and you can use them as is.
Once configuration is done simply run the following from inside your docker container with working dir set to this repo:
python3.9 -m mia.bev.get_bev
The data engine will now fetch, process, and save the semantic masks.
You now have FPV-BEV pairs with associated metadata and camera parameters !
Note to get satellite imagery for comparison you must first download it by toggling the store_sat option in the configuration
3. (Optional) Visualize your data
You can visualize a few samples using the tool mia/misc_tools/vis_samples.py
.
From inside the container with working dir set to this repo, run:
python3.9 -m mia/misc_tools/vis_samples --dataset_dir /home/mia_dataset_release --locations <LOCATION_OF_INTEREST>
If successful, the script will generate a PDF called compare.pdf
in the pittsburgh directory. Upon openning you should see the metadata, FPVs, and BEVs of a few samples of the dataset.
Downloading the MIA dataset
Refer to mia/dataset.md for instructions.
Training
Pre-train with MIA Dataset
To pretrain using our paper configuration simply run:
python -m mapper.mapper data.split=<PATH TO SPLIT FILE> data.data_dir=<PATH TO MIA DATASET>
Finetune with NuScenes Dataset
To finetune using NuScenes Dataset with our paper configuration, run:
python -m mapper.mapper -cn mapper_nuscenes training.checkpoint=<PATH TO PRETRAINED MODEL> data.data_dir=<PATH TO NUSCENES DATA> data.map_dir=<PATH TO GENERATED NUSCENES MAP>
Reproduction
Dataset Setup
MIA: Follow download instructions in Downloading the MIA Dataset
NuScenes: Follow the data generation instructions in Mono-Semantic-Maps. To match the newest available information, we use v1.3 of the NuScenes' map expansion pack.
KITTI360-BEV: Follow the KITTI360-BEV dataset instructions in SkyEye
Inference
To generate MIA dataset prediction results(on test split), use:
python -m mapper.mapper data.split=<PATH TO SPLIT FILE> data.data_dir=<PATH TO MIA DATASET> training.checkpoint=<TRAINED WEIGHTS> training.eval=true
To specify location, add data.scenes
in the argument. For example, for held-out cities data.scenes="[pittsburgh, houston]"
To Generate NuScenes dataset prediction results(on validation split), use:
python -m mapper.mapper -cn mapper_nuscenes training.checkpoint=<PATH TO PRETRAINED MODEL> data.data_dir=<PATH TO NUSCENES DATA> data.map_dir=<PATH TO GENERATED NUSCENES MAP> training.eval=true
To Generate KITTI360-BEV dataset prediction results (on validation split), use:
python -m mapper.mapper -cn mapper_kitti training.checkpoint=<PATH TO PRETRAINED MODEL> data.seam_root_dir=<PATH TO SEAM ROOT> data.dataset_root_dir=<PATH TO KITTI DATASET> training.eval=true
License
The FPVs were curated and processed from Mapillary and have the same CC by SA license. These include all images files, parquet dataframes, and dump.json. The BEVs were curated and processed from OpenStreetMap and has the same Open Data Commons Open Database (ODbL) License. These include all semantic masks and flood masks. The rest of the data is licensed under CC by SA license.
Code is licensed under CC by SA license.
Acknowledgement
We thank the authors of the following repositories for their open-source code: