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tsinghua-svm-thicv

cloud-gpu unity-gpu cloud-cpu unitycpu cloud-host unity-host HoloLens

matlab

ROS CLion PyCharm Vim

In this project, we present demo videos for our miniature experimental platform, Mixed Cloud Control Testbed (MCCT), developed based on a new notion of Mixed Digital Twin (mixedDT).

The notion of mixedDT

Combining Mixed Reality with Digital Twin, mixedDT integrates the virtual and physical spaces into a mixed one, where physical entities coexist and interact with virtual entities via their digital counterparts.

The schematic diagram of the classical Digital Twin is as follows.

The schematic diagram of the proposed mixedDT is as follows.

The architecture of the MCCT

Under the framework of mixedDT, MCCT contains three major experimental platforms in the physical, virtual and mixed spaces respectively, and provides a unified access for various human-machine interfaces and external devices such as driving simulators.

An corresponding overview of the MCCT is as follows.

The detailed physical architecture of the MCCT is as follows, which is not presented in paper due to space limitations.

Demo videos

Cross-platform experiments are carried out on vehicle platooning, which is composed of different types of vehicles from different platforms in MCCT.

Experiment A: Mixing physical miniature vehicles and virtual vehicles

The formation of the platoon for experiment A is shown below.

The video of the experiment process is shown below.

Experiment B: Mixing physical miniature vehicles, virtual vehicles and a human-driven vehicle via a driving simulator

The formation of the platoon for experiment B is shown below. SCANeR Studio is the supporting software of the driving simulator.

The video of the experiment process is shown below.

More experiments on MCCT

  • Multi-vehicle coordinated formation control.
  • Data-Enabled Predictive Leading Cruise Control (DeeP-LCC).

Related publications

  1. Yang C, Dong J, Xu Q, et al. Multi-vehicle experiment platform: A Digital Twin Realization Method[C]//2022 IEEE/SICE International Symposium on System Integration (SII). IEEE, 2022: 705-711. [paper link]
  2. Cai M, Xu Q, Yang C, et al. Experimental Validation of Multi-lane Formation Control for Connected and Automated Vehicles in Multiple Scenarios[J]. arXiv preprint arXiv:2112.00312, 2021. [paper link]
  3. Wang J, Zheng Y, Dong J, et al. Experimental Validation of DeeP-LCC for Dissipating Stop-and-Go Waves in Mixed Traffic[J]. arXiv preprint arXiv:2204.03747, 2022. [paper link]
  4. Dong J, Xu Q, Wang J, et al. Mixed cloud control testbed: Validating vehicle-road-cloud integration via mixed digital twin[J]. IEEE Transactions on Intelligent Vehicles, 2023. [paper link]
  5. Wang J, Zheng Y, Dong J, et al. Implementation and experimental validation of data-driven predictive control for dissipating stop-and-go waves in mixed traffic[J]. IEEE Internet of Things Journal, 2023. [paper link]

Citing MCCT

If you refer to MCCT in your research, please cite this paper. In BibTeX format:

@article{dong2023mixed,
  title={Mixed cloud control testbed: Validating vehicle-road-cloud integration via mixed digital twin},
  author={Dong, Jianghong and Xu, Qing and Wang, Jiawei and Yang, Chunying and Cai, Mengchi and Chen, Chaoyi and Liu, Yu and Wang, Jianqiang and Li, Keqiang},
  journal={IEEE Transactions on Intelligent Vehicles},
  year={2023},
  volume={8},
  number={4},
  pages={2723-2736},
  publisher={IEEE}
}

Contacts

For more details, please contact Jianghong Dong and Jiawei Wang.

Stargazers over time

Stargazers over time

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