- A preprint can be found on arxiv.
- A short overview video is available on youtube.
- A pytorch dataset integration is available.
In case the video does not play you can download it here
@inproceedings{memmesheimer2019simitate,
title={Simitate: A Hybrid Imitation Learning Benchmark},
author={Memmesheimer, Raphael and Kramer, Ivanna and Seib, Viktor and Paulus, Dietrich},
booktitle={2019 IEEE/RSJ International Conference on Intelligent Robots and Systems (IROS)},
pages={5243--5249},
year={2019},
organization={IEEE}
}
The root of the data folder can be found here: All Files
The dataset (ca. 423 GB) is available here: Simitate Data. We provide ROS bag file and jpg sequences of RGB and depth camera separately. Timestamps are encoded in the filename. The accompanied CSV files, per sequence, contains ground truth poses for the demonstrator's hand and the objects of interest.
To batch download the files you can use the following command:
This will download e.g. all basic motions sequences:
wget -m --no-parent --reject index.html* https://agas.uni-koblenz.de/data/simitate/data/simitate/extracted/basic_motions
A tabular scene overview to download individual sequences can be found here:
For benchmarking you need to execute the following steps:
For trajectory quality:
- Pick a sequence
- We provide a
trajectory_loaderclass that supports you on collecting your estimates for later evaluation - Imitate the visually observed behaviour
import trajectory_loader
tl = trajectory_loader.SimitateTrajectoryLoader()
tl.load_trajectories(trajectory_file)
# add estimates
tl.add_point_to_trajectory("estimated_position"+robot_name, <timestamp>, <pos/pose>)
# after imitation add save the file for getting evaluation results
tl.save_trajectory_to_file(os.path.basename(trajectory_file+".pkl")The trajectory loader and the evaluation scripts can be found here
Then use the eval_ate.py script like:
python2.7 eval_ate.py <ground_truth_file>.csv <estimated>.pkl
Afterwards you get the corresponding metric result. We provide exemplary estimates
from the paper. You can find the files in <simitate>/data/eval/
We provide integration into:
- PyBullet (focused)
- Gazebo (minimal)
Simitate is available as a ROS package here:
PyBullet is mainly supported by Simitate.
Tests were executed in Ubuntu 16.04 and Ubuntu 18.04 in a clean conda environment.
- Python 2 / Python 3
conda create -n simitate python=3.8conda activate simitatepip install -r requirements.txt
then run using to show the ground truth e.g. with the Sawyer robot:
python simitate/simitate_bullet.py -gt -config=configs/config_sawyer.yaml examples/heart_2018-08-23-18-02-06.csv
This command should run the simulation of a heart trajectory.
The script looks for estimated trajectories for evaluation, in case none are found the simulated robot executes the ground-truth trajectory.
Further Information:
usage: simitate_bullet.py [-h] [-gt] [-config CONFIG] csvfile
positional arguments:
csvfile
optional arguments:
-h, --help show this help message and exit
-gt use ground truth
-config CONFIG Config file
The result using the TIAGo robot and the ground-truth should be like this:
And the estimated trajectory using the presented baseline approach:
- ROS Kinetic
- Gazebo 7
- Tested in Ubuntu 16.04
We made experiments with PAL Robotics TIAGo robot in simulation and followed the install instructions found here
sudo apt install ros-kinetic-pr2-gazebo
To launch the Gazebo simulator using the Simitate benchmark execute the following steps:
# edit the config/spawn_from_ground_truth.yaml and add the frames of interest
roslaunch simitate gazebo.launch robot:=pr2|tiago
rosbag play <sequence_path>/<sequence_name>.bag
This section is meant in case you want to extend the dataset with new sequences. We highly encourage to new additions. This can be:
- Existing classes in new environments
- Introducing new tasks
- New robot models
We did our best to provide a framework for extending. Scripts for recording are in the repository.
sudo apt install ros-kinetic-vrpn-client-ros ros-kinetic-vrpn
For recording you need to execute the following steps:
- Make sure that you are connected to Ethernet
- Make sure that the Motive host is connected to Ethernet
- Make sure that you can reach the machine running Motive (
ping 192.168.0.2) - Make sure that you enable the VRPN Streaming Engine (View -> Data Streaming Pane -> VRPN Streaming Engine -> Broadcast VRPN Data: )
roslaunch simitate record_motion.launchwill connect to Motive an visualize the tracked markers.
Example:
simitate play_motion.launch file:=basic_motions_raphael/take03/circle_2018-08-23-17-55-04.bag
We provide the intrinsic and extrinsic calibration files used during the recording of
the sequences. This allows the projection of motion capture data to the images.
The camera transformations are contained in the .csv files per sequence as the
motion capture system has been recalibrated throughout the recording of the sequences.
We recommend using the get_transform_to_world function from the SimitateTrajectoryLoader for reading the transformation.
height: 540
width: 960
distortion_model: "plumb_bob"
D: [0.08358987550663602, -0.14957906731226864, -0.003103469710389675, -0.00031033751957969485, 0.06981523248780676]
K: [536.005076997568, 0.0, 478.48108901107867, 0.0, 537.8178473127615, 254.99770751448608, 0.0, 0.0, 1.0]
R: [1.0, 0.0, 0.0, 0.0, 1.0, 0.0, 0.0, 0.0, 1.0]
P: [536.005076997568, 0.0, 478.48108901107867, 0.0, 0.0, 537.8178473127615, 254.99770751448608, 0.0, 0.0, 0.0, 1.0, 0.0]
Extrinsic calibration files are provided here
For reproduction purposes we provide a list of objects used in the experiments. The following objects from IKEA have been used for Simitate:
| Name | Number | Type |
|---|---|---|
| 365+ | 604.063.04 | plates |
| JÄLL | 202.428.90 | ironing board |
| BITTERMANDEL | 204.323.81 | vase |
| STEKA | 926.258.00 | pan |
| PS 2002 | 303.879.72 | watering can |
| LILLNAGGENA | 402.435.96 | Shower squeegee |
| FÖRDUBBLAA | 903.459.41 | 2-piece knife set |
| HEAT | 870.777.00 | trivet |
| ANTAGENA | 202.339.61 | Dish brush |
| BLASKA | 701.703.29 | Dust pan and brush |
| GNARP | 303.358.41 | 3-piece kitchen utensil set, black |
| SVAMPIG | 602.576.05 | sponge |
| FLUNDRA | 401.769.59 | dish drainer |
| FÄRGRIK | 003.189.56 | mug |
| VISPAD | 602.575.25 | colander |
| GLIS | 800.985.83 | box with lid |
| FEJKA | 903.751.55 | Artificial potted plant |
| GUBBRÖRA | 902.257.31 | Rubber spatula |
Table: Object list for Simitate