Simulated Photorealistic Deep Learning Framework and Workflows To Accelerate Computer Vision and Unmanned Aerial Vehicle Research

Brendan Alvey, Derek T. Anderson, Andrew Buck, Matthew Deardorff, Grant Scott, James M. Keller; Proceedings of the IEEE/CVF International Conference on Computer Vision (ICCV) Workshops, 2021, pp. 3889-3898

Abstract


Deep learning (DL) is producing state-of-the-art results in a number of unmanned aerial vehicle (UAV) tasks from low level signal processing to object detection, 3D mapping, tracking, fusion, autonomy, control, and beyond. However, barriers exist. For example, most DL algorithms require big data, but supervised ground truth is a bottleneck, fueling topics like self-supervised learning. While it is well-known that hardware and data augmentation plays a significant role in performance, it is not well understood which data augmentations or what real data need be collected. Furthermore, existing datasets do not have sufficient ground truth nor variety to support adequate controlled experimental research into understanding and mitigating limitations in DL algorithms, models, data, and biases. In this article, we address the combination of photorealistic simulation, open source libraries, and high quality content (models, materials, and environments) to develop workflows to mitigate the above challenges and accelerate DL-enabled computer vision research. Herein, examples are provided relative to data collection, detection, passive ranging, and human-robot teaming. Online video tutorials are also provided at https://github.com/MizzouINDFUL/UEUAVSim.

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[bibtex]
@InProceedings{Alvey_2021_ICCV, author = {Alvey, Brendan and Anderson, Derek T. and Buck, Andrew and Deardorff, Matthew and Scott, Grant and Keller, James M.}, title = {Simulated Photorealistic Deep Learning Framework and Workflows To Accelerate Computer Vision and Unmanned Aerial Vehicle Research}, booktitle = {Proceedings of the IEEE/CVF International Conference on Computer Vision (ICCV) Workshops}, month = {October}, year = {2021}, pages = {3889-3898} }