Crates.io | ofps-suite |
lib.rs | ofps-suite |
version | 0.1.0 |
source | src |
created_at | 2022-08-09 08:43:25.624626 |
updated_at | 2022-08-09 08:43:25.624626 |
description | GUI tool for OFPS |
homepage | |
repository | https://github.com/h33p/ofps |
max_upload_size | |
id | 641658 |
size | 205,431 |
OFPS is a generic optical flow processing library, and OFPS Suite is an accopanying app demonstating its functionality.
Install the latest stable Rust toolchain (version 1.60.0) through https://rustup.rs/.
Install dependencies (see dedicated subsection).
Build default plugins with cargo build --release
Optionally, build libmv estimator (more involved, see its subsection).
Run OFPS suite with cargo run --release --bin ofps-suite
Ubuntu/Debian:
sudo apt-get install atk1.0 libgtk-3-dev ffmpeg libavutil-dev libavcodec-dev libavformat-dev libavfilter-dev libavdevice-dev libopencv-dev libclang-dev clang libxcb-shape0-dev libxcb-xfixes0-dev
Fedora:
sudo dnf -y install https://download1.rpmfusion.org/free/fedora/rpmfusion-free-release-$(rpm -E %fedora).noarch.rpm
sudo dnf install gtk3-devel clang clang-devel opencv-devel ffmpeg-devel
Windows/macOS:
Good luck :)
First, make sure libmv submodule is initialised:
git submodule update --init
Then, source the environment at the root of the repo
source env
Then, install extra dependencies:
Ubuntu/Debian:
sudo apt-get install cmake libceres-dev libjpeg-dev
Fedora:
sudo dnf install cmake ceres-solver-devel libjpeg-turbo-devel
Go to libmv-rust/libmv directory. Run make
. Not everything will compile. That is okay - we only need libmultiview.so
and its dependencies.
Go back to root of the repo, run cargo build --release --workspace
.
Set log level to see errors better:
export RUST_LOG=<trace,debug,info,warn,error>
If it is a graphics issue, try forcing OpenGL backend:
export WGPU_BACKEND=gles
Assuming the workspace compiles, following steps 1-3 of OFPS Suite section, run cargo doc --open
.
Assuming the workspace compiles, run cargo test
.
Download core samples from Google Drive, and extract samples.zip
(sha256 - c1a27a0716b5633792afca7c1a032dcc9c15c8f7153a03e8d5206e1d86379896) in the project root under samples
directory. Raw detection sample was large, thus it has been separated into cctv.h264
file (sha256 - 9fd17d015924538c140f9ee478bdbfc5233f6c948ff134d2f31415e795da9b66). Place it in samples/detection
directory. Locations are important, because predefined configs reference paths relative to current working directory.
Load predefined configuration files from the paths given (by clicking on the large detection title button).
Scenario from Results - samples/scenario_detect.json
(requires raw sample).
Basic motion - samples/basic_detect.json
.
Live TCP stream (webcam) - samples/tcp_detect.json
.
For V4L webcam through TCP, first run the following command in another terminal:
ffmpeg -i /dev/video1 -c:v libx264 -r 30 -preset ultrafast -tune zerolatency -x264-params "" -f mpegts tcp://0.0.0.0:3333\?listen
Adjust /dev/video1
to correct V4L device. The command needs to be re-run after each connection instance.
Load predefined configuration files from the paths given (by clicking on the large tracking title button).
Synthetic videos, all estimators, ground truth comparisons - samples/synthetic_all_gt.json
.
Synthetic videos, single estimator, ground truth - samples/synthetic_almeida_gt.json
.
Real-world videos - samples/real_world.json
.
Real-world videos (cropped, slowmo) - samples/real_world_crop.json
.
Live TCP stream (webcam) - samples/tcp_track.json
.
The preloaded samples can be replaced with different ones. See samples/synthetic
and samples/real_world
directories. Cropped config is needed to account for 1.2x sensor crop applied on slow motion video.
For TCP configuration, refer to the previous subsection for setup steps. In addition, camera's horizontal and vertical field of view must be set correctly for tracking to be accurate.