The tools for SubT interestingness dataset released by The Air Lab at Carnegie Mellon University.
Refer to The AirLab Dataset Instructions
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PyTorch dataloader (No need to install PyTorch, if you don't need this function).
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Python evaluation tools for the daseset.
python -m pip install --user numpy scipy matplotlib ipython jupyter pandas sympy nose -
ROS bag launchfiles and visualization (No need to install ROS, if you don't need this function).
Usage example:
from subt import SubT
import torch.utils.data as Data
import torchvision.transforms as transforms
transform = transforms.Compose([transforms.Resize((320,320)), transforms.ToTensor()])
data = SubT(root='/data/location', train=False, transform=transform, test_data=1)
loader = Data.DataLoader(dataset=data, batch_size=1, shuffle=False)
The dataloader is only for SubT front camera data (SubTF).
For definition of the evaluation metric, checkout our paper.
You have to provide your result files.
Result example files are provided in folder 'results-example'.
For single sequence:
python script/evaluation.py --source 'ground-truth/0817-ugv0-tunnel0-interest-1.txt' --target 'results-example/SubTF-0-2020-03-04-21:43:27-example.txt'
# source: ground-truth file
# target: results file
For overall performance on entire dataset:
python script/performance.py --save-flag example --root results-example --category interest-1
# root: location of result files
# save-flag: flag of result files
# You have to name the result files following the formate of "SubTF-5-2020-03-04-22:06:43-example.txt",
# where only the sequence ID, date, and time can be different.
# category: interest-1 or interest-2
For example, after you run the following overall performance script.
python script/performance.py --save-flag example --root results-example --category interest-2 --delta 1 2 4
You will get:
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Mean Accuracy for delta = [1,2,4], respectively.
mean accuracy: [0.26001525 0.37333027 0.5226512 ] -
One Text file located in 'performance' folder.
It contains data of AUC-OP (three curves for delta = [1,2,4]) -
One overal performance figure, seven single sequence figures, e.g.
To use this function, you have to put this repo in your ROS workplace and compile, e.g.,
cd ~/catkin_ws/src
git clone https://github.com/wang-chen/SubT.git
cd ~/catkin_ws && catkin_make
Then run the launch file
roslaunch SubT subt.launch
Note: you need to specify the argument 'datalocation' in 'subt.larunch' to find your bag data.
<arg name="datalocation" default="/data/datasets"/>
You also need to specify the sequence ID, e.g. SubT0.
<node pkg="rosbag" type="play" name="rosbag" args="--clock -r 3 $(arg SubT0)"/>
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The corresponding sequence ID is listed:
Data sequence ID ROS args 0817-ugv0-tunnel0 0 SubT0 0817-ugv1-tunnel0 1 SubT1 0818-ugv0-tunnel1 2 SubT2 0818-ugv1-tunnel1 3 SubT3 0820-ugv0-tunnel1 4 SubT4 0821-ugv0-tunnel0 5 SubT5 0821-ugv1-tunnel0 6 SubT6
Then you'll get:
@article{wang2020visual,
title={Visual Memorability for Robotic Interestingness via Unsupervised Online Learning},
author={Wang, Chen and Wang, Wenshan and Qiu, Yuheng and Hu, Yafei and Scherer, Sebastian},
journal={arXiv preprint arXiv:2005.08829},
year={2020}
}