To Boldly Go Where No Robots Have Gone Before - Part 4: NEO Autonomy for Robustly Exploring Unknown, Extreme Environments with Versatile Robots. Thakker, R., Paton, M., Jones, B., Daddi, G., Royce, R., Swan, M., Strub, M., Aghli, S., Zade, H., Nakka, Y. K., Vaquero, T., Bowkett, J., de Mola Lemus, D. L., Zhang, J., Naish, J., Moreno, D. P., Hasseler, T., Leake, C., Nuernberger, B., Proenca, P., Talbot, W., Otsu, K., Orekhov, A., Tosse, P., Gildner, M., Jain, A., Etheredge, R., Travers, M., Choset, H., Burdick, J., Ingham, M., Robinson, M., & Ono, M. In AIAA SCITECH 2024 Forum, pages 1747, 2024. ![To Boldly Go Where No Robots Have Gone Before - Part 4: NEO Autonomy for Robustly Exploring Unknown, Extreme Environments with Versatile Robots [link]](https://bibbase.org/img/filetypes/link.svg "link")
Paper doi abstract bibtex This paper introduces NEO, a novel autonomy framework for controlling a versatile high- degree-of-freedom (DOF) robots such as EELS (a screw-driven snake-like robot), aimed at exploring unknown and extreme environments like the geysers of Enceladus or the subsurface oceans of icy worlds. Distinct from conventional Mars mission strategies, NEO embodies resilience, adaptivity, and risk awareness. NEO supports fault-aware perception using both exteroception and proprioception, inspired by a blind climber’s feat of scaling El Capitan. NEO tightly couples planning, perception, and control, along with leveraging machine-learning- based methods for adaptation. Moreover, NEO incorporates risk-aware decision making with integrated task and motion planning under consideration of uncertainty, enabling autonomous adaptation of actions to mitigate risks and maximize mission success. This paper presents the architecture of NEO, along with experimental results showcasing these capabilities and discusses the potential for NEO in spearheading a new paradigm in space exploration.
@inproceedings{thakker-et-al-AIAA2024,
author = {Rohan Thakker and Michael Paton and Bryson Jones and Guglielmo Daddi and Rob Royce and Michael Swan and Marlin Strub and Sina Aghli and Harshad Zade and Yashwanth Kumar Nakka and Tiago Vaquero and Joseph Bowkett and Daniel Loret de Mola Lemus and Jenny Zhang and Jack Naish and Daniel Pastor Moreno and Tristan Hasseler and Carl Leake and Benjamin Nuernberger and Pedro Proenca and William Talbot and Kyohei Otsu and Andrew Orekhov and Phillipe Tosse and Matthew Gildner and Abhinandan Jain and Rachel Etheredge and Matthew Travers and Howie Choset and Joel Burdick and Michel Ingham and Matthew Robinson and Masahiro Ono},
title = {To Boldly Go Where No Robots Have Gone Before - Part 4: NEO Autonomy for Robustly Exploring Unknown, Extreme Environments with Versatile Robots},
booktitle = {AIAA SCITECH 2024 Forum},
chapter = {},
pages={1747},
doi = {10.2514/6.2024-1747},
URL = {https://arc.aiaa.org/doi/abs/10.2514/6.2024-1747},
eprint = {https://arc.aiaa.org/doi/pdf/10.2514/6.2024-1747},
abstract = { This paper introduces NEO, a novel autonomy framework for controlling a versatile high- degree-of-freedom (DOF) robots such as EELS (a screw-driven snake-like robot), aimed at exploring unknown and extreme environments like the geysers of Enceladus or the subsurface oceans of icy worlds. Distinct from conventional Mars mission strategies, NEO embodies resilience, adaptivity, and risk awareness. NEO supports fault-aware perception using both exteroception and proprioception, inspired by a blind climber’s feat of scaling El Capitan. NEO tightly couples planning, perception, and control, along with leveraging machine-learning- based methods for adaptation. Moreover, NEO incorporates risk-aware decision making with integrated task and motion planning under consideration of uncertainty, enabling autonomous adaptation of actions to mitigate risks and maximize mission success. This paper presents the architecture of NEO, along with experimental results showcasing these capabilities and discusses the potential for NEO in spearheading a new paradigm in space exploration. },
project={eels},
year = {2024},
clearance={URS321789}
}
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