DeepOSM

Classify roads and features in satellite imagery, by training neural networks with OpenStreetMap (OSM) data.

DeepOSM can:

Download a chunk of satellite imagery
Download OSM data that shows roads/features for that area
Generate training and evaluation data
Display predictions of mis-registered roads in OSM data, or display raw predictions of ON/OFF

Running the code is as easy as install Docker, make dev, and run a script.

Contributions are welcome. Open an issue if you want to discuss something to do, or email me.

Default Data/Accuracy

By default, DeepOSM will analyze about 200 sq. km of area in Delaware. DeepOSM will

predict if the center 9px of a 64px tile contains road.
use the infrared (IR) band and RGB bands.
be 75-80% accurate overall, training only for a minute or so.
use a single fully-connected relu layer in TensorFlow.
render, as JPEGs, "false positive" predictions in the OSM data - i.e. where OSM lists a road, but DeepOSM thinks there isn't one.

Background on Data - NAIPs and OSM PBF

For training data, DeepOSM cuts tiles out of NAIP images, which provide 1-meter-per-pixel resolution, with RGB+infrared data bands.

For training labels, DeepOSM uses PBF extracts of OSM data, which contain features/ways in binary format that can be munged with Python.

The NAIPs come from a requester pays bucket on S3 set up by Mapbox, and the OSM extracts come from geofabrik.

Install Requirements

DeepOSM has been run successfully on both Mac (10.x) and Linux (14.04 and 16.04). You need at least 4GB of memory.

AWS Credentials

You need AWS credentials to download NAIPs from an S3 requester-pays bucket. This only costs a few cents for a bunch of images, but you need a credit card on file.

get your AWS_ACCESS_KEY_ID and AWS_SECRET_ACCESS_KEY from AWS
export them as environment variables (and maybe add to your bash or zprofile)

export AWS_ACCESS_KEY_ID='FOO'
export AWS_SECRET_ACCESS_KEY='BAR'

Install Docker

First, install a Docker Binary.

I also needed to set my VirtualBox default memory to 4GB, when running on a Mac. This is easy:

start Docker, per the install instructions
stop Docker
open VirtualBox, and increase the memory of the VM Docker made

(GPU Only) Install nvidia-docker

In order to use your GPU to accelerate DeepOSM, you will need to download and install the latest NVIDIA drivers for your GPU, and (after first installing docker itself), install nvidia-docker.

First, find the latest NVIDIA drivers for your GPU on NVIDIA's website. Make sure you check the version number of the driver, as the most recent release isn't always the latest version.

Once you have downloaded the appropriate NVIDIA-*.run file, install it as follows (based on these instructions):

Ensure your system is up-to-date and reboot to ensure the latest installed kernel is loaded:

# ensure your packages are up-to-date
sudo apt-get update
sudo apt-get dist-upgrade
# and reboot
sudo reboot

Once your system has rebooted, install build-essential and the linux-headers package for your current kernel version (or equivalents for your linux distribution):

sudo apt-get install build-essential linux-headers-$(uname -r)

Then run the NVIDIA driver install you downloaded earlier, and reboot your machine afterwards:

sudo bash <location of ./NVIDIA-Linux-*.run file>
sudo reboot

Finally, verify that the NVIDIA drivers are installed correctly, and your GPU can be located using nvidia-smi:

nvidia-smi

Thu Mar  9 03:40:33 2017       
+-----------------------------------------------------------------------------+
| NVIDIA-SMI 367.57                 Driver Version: 367.57                    |
|-------------------------------+----------------------+----------------------+
| GPU  Name        Persistence-M| Bus-Id        Disp.A | Volatile Uncorr. ECC |
| Fan  Temp  Perf  Pwr:Usage/Cap|         Memory-Usage | GPU-Util  Compute M. |
|===============================+======================+======================|
|   0  GRID K520           Off  | 0000:00:03.0     Off |                  N/A |
| N/A   54C    P0    45W / 125W |      0MiB /  4036MiB |      0%      Default |
+-------------------------------+----------------------+----------------------+
                                                                               
+-----------------------------------------------------------------------------+
| Processes:                                                       GPU Memory |
|  GPU       PID  Type  Process name                               Usage      |
|=============================================================================|
|  No running processes found                                                 |
+-----------------------------------------------------------------------------+

Now that the NVIDIA drivers are installed, nvidia-docker can be downloaded and installed as follows (based on these instructions):

wget -P /tmp https://github.com/NVIDIA/nvidia-docker/releases/download/v1.0.1/nvidia-docker_1.0.1-1_amd64.deb
sudo dpkg -i /tmp/nvidia-docker*.deb && rm /tmp/nvidia-docker*.deb

And you can confirm the installation, by attempting to run nvida-smi inside of a docker container:

nvidia-docker run --rm nvidia/cuda nvidia-smi

Using default tag: latest
latest: Pulling from nvidia/cuda
d54efb8db41d: Pull complete 
f8b845f45a87: Pull complete 
e8db7bf7c39f: Pull complete 
9654c40e9079: Pull complete 
6d9ef359eaaa: Pull complete 
cdfa70f89c10: Pull complete 
3208f69d3a8f: Pull complete 
eac0f0483475: Pull complete 
4580f9c5bac3: Pull complete 
6ee6617c19de: Pull complete 
Digest: sha256:2b7443eb37da8c403756fb7d183e0611f97f648ed8c3e346fdf9484433ca32b8
Status: Downloaded newer image for nvidia/cuda:latest
Thu Mar  9 03:44:23 2017       
+-----------------------------------------------------------------------------+
| NVIDIA-SMI 367.57                 Driver Version: 367.57                    |
|-------------------------------+----------------------+----------------------+
| GPU  Name        Persistence-M| Bus-Id        Disp.A | Volatile Uncorr. ECC |
| Fan  Temp  Perf  Pwr:Usage/Cap|         Memory-Usage | GPU-Util  Compute M. |
|===============================+======================+======================|
|   0  GRID K520           Off  | 0000:00:03.0     Off |                  N/A |
| N/A   54C    P8    18W / 125W |      0MiB /  4036MiB |      0%      Default |
+-------------------------------+----------------------+----------------------+
                                                                               
+-----------------------------------------------------------------------------+
| Processes:                                                       GPU Memory |
|  GPU       PID  Type  Process name                               Usage      |
|=============================================================================|
|  No running processes found                                                 |
+-----------------------------------------------------------------------------+

Once you have confirmed nvidia-smi works inside of nvidia-docker, you should be able to run DeepOSM using your GPU.

Run Scripts

Start Docker, then run:

make dev-gpu

Or if you don't have a capable GPU, run:

make dev

Download NAIP, PBF, and Analyze

Inside Docker, the following Python scripts will work. This will download all source data, tile it into training/test data and labels, train the neural net, and generate image and text output.

The default data is six NAIPs, which get tiled into 64x64x4 bands of data (RGB-IR bands). The training labels derive from PBF files that overlap the NAIPs.

python bin/create_training_data.py
python bin/train_neural_net.py

For output, DeepOSM will produce some console logs, and then JPEGs of the ways, labels, and predictions overlaid on the tiff.

Testing

There is a very limited test suite available at the moment, that can be accessed (from the host system) by running:

make test

Jupyter Notebook

Alternately, development/research can be done via jupyter notebooks:

make notebook

To access the notebook via a browser on your host machine, find the IP VirtualBox is giving your default docker container by running:

docker-machine ls

NAME      ACTIVE   DRIVER       STATE     URL                         SWARM   DOCKER    ERRORS
default   *        virtualbox   Running   tcp://192.168.99.100:2376           v1.10.3

The notebook server is accessible via port 8888, so in this case you'd go to: http://192.168.99.100:8888

Readings

Learning to Detect Roads in High-Resolution Aerial Images (Hinton)
Machine Learning for Aerial Image Labeling- Minh's 2013 thesis, student of Hinton's best/recent paper on doing this, great success with these methods
Similar Efforts with OSM Data
- OSM-Crosswalk-Detection - uses Keras to detect crosswalks, a class project (Fall 2015)
- OSM-HOT-ConvNet - attempted use for disaster response, author thinks it's only 69% accurate at pixel level (fall 2016)
- Terrapattern - (spring 2016) - detect similar images, such as pools, boat wakes, or other patterns journalists/researchers might be interested in - Carnegie Mellon researchers, open source
- Skynet Data - (spring 2016) - data pipeline for machine learning with OpenStreetMap
- Full implementation of Mnih's CNN with Massachusetts data
Parsing Natural Scenes and Natural Language with Recursive Neural Networks (RNNs)
Background on Neural Networks and Deep Learning
- MNIST Data and Background
- all the other links to Nielsen’s book and Colah’s blog
- original Information Theory paper by Shannon

Also see a work journal here.

Papers - Relevant Maybe

Papers - Not All that Relevant

Papers to Review

Recent Recommendations

FIND - have you seen a paper from a few years ago about estimating OSM completeness by comparing size of compressed satellite images vs number of osm nodes
READ - this presentation on using GPS traces to suggest OSM edits (Strava/Telenav): http://webcache.googleusercontent.com/search?q=cache:VoiCwRHOyLUJ:stateofthemap.us/map-tracing-for-millennials/+&cd=3&hl=en&ct=clnk&gl=us

Citing Mnih and Hinton

I am reviewing these papers from Google Scholar that both cite the key papers and seem relevant to the topic.

Original Idea

This was the general idea to start, and working with TMS tiles sort of worked (see first 50 or so commits), so DeepOSM got switched to better data:

trailbehind/DeepOSM

trailbehind

Reviews

Repository Details