EELS: Autonomous snake-like robot with task and motion planning capabilities for ice world exploration
- Creators
- Vaquero, T. S.
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Daddi, G.
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Thakker, R.
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Paton, M.
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Jasour, A.
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Strub, M. P.
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Swan, R. M.
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Royce, R.
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Gildner, M.
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Tosi, P.
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Veismann, M.
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Gavrilov, P.
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Marteau, E.
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Bowkett, J.
- de Mola Lemus, D. Loret
- Nakka, Y.
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Hockman, B.
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Orekhov, A.
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Hasseler, T. D.
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Leake, C.
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Nuernberger, B.
- Proença, P.
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Reid, W.
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Talbot, W.
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Georgiev, N.
- Pailevanian, T.
- Archanian, A.
- Ambrose, E.
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Jasper, J.
- Etheredge, R.
- Roman, C.
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Levine, D.
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Otsu, K.
- Yearicks, S.
- Melikyan, H.
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Rieber, R. R.
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Carpenter, K.
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Nash, J.
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Jain, A.
- Shiraishi, L.
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Robinson, M.
- Travers, M.
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Choset, H.
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Burdick, J.1
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Gardner, A.
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Cable, M.
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Ingham, M.
- Ono, M.
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1.
California Institute of Technology
Abstract
Ice worlds are at the forefront of astrobiological interest because of the evidence of subsurface oceans. Enceladus in particular is unique among the icy moons because there are known vent systems that are likely connected to a subsurface ocean, through which the ocean water is ejected to space. An existing study has shown that sending small robots into the vents and directly sampling the ocean water is likely possible. To enable such a mission, NASA's Jet Propulsion Laboratory is developing a snake-like robot called Exobiology Extant Life Surveyor (EELS) that can navigate Enceladus' extreme surface and descend an erupting vent to capture unaltered liquid samples and potentially reach the ocean. However, navigating to and through Enceladus' environment is challenging: Because of the limitations of existing orbital reconnaissance, there is substantial uncertainty with respect to its geometry and the physical properties of the surface/vents; communication is limited, which requires highly autonomous robots to execute the mission with limited human supervision. Here, we provide an overview of the EELS project and its development effort to create a risk-aware autonomous robot to navigate these extreme ice terrains/environments. We describe the robot's architecture and the technical challenges to navigate and sense the icy environment safely and effectively. We focus on the challenges related to surface mobility, task and motion planning under uncertainty, and risk quantification. We provide initial results on mobility and risk-aware task and motion planning from field tests and simulated scenarios.
Copyright and License
© 2024 The Authors, some rights reserved; exclusive licensee American Association for the Advancement of Science. No claim to original U.S. Government Works. This is an article distributed under the terms of the Science Journals Default License.
Funding
The research was carried out at the JPL, California Institute of Technology, under a contract with the National Aeronautics and Space Administration (80NM0018D0004).
Contributions
The EELS project’s success is attributed to a collaborative effort across various teams. T.S.V., G.D., R.T., M.P., A.J., M.P.S., R.M.S., R.R., J.B., D.L.d.M.L., Y.N., B.H., A.O., T.D.H., C.L., B.N., P.P., W.R., W.T., D.L., K.O., J.N., and C.R. contributed to the development of EELS’ software stack. The system’s active skin was studied by P.T., M.V., and E.M. EELS’ hardware platform was developed by N.G., M.G., P.G., T.P., A.A., E.A., and H.M. M.O. and K.C. played a pivotal role in the project as the principal investigators. Project management was performed by M.R. and R.E. The project’s scientists were A.G. and M.C. Logistics and simulants were managed by S.Y. Systems engineering was performed by B.H., R.R.R., and J.J. A.J., L.S., M.T., H.C., J.B., and M.I. advised the team. The task and motion planning team was led by T.S.V., G.D., R.T., A.J., and M.I. This manuscript was prepared and edited jointly by T.S.V., G.D., and M.O.
Data Availability
All data needed to evaluate the conclusions in the paper are present in the paper.
Conflict of Interest
The authors declare that they have no competing interests.
Additional details
- National Aeronautics and Space Administration
- 80NM0018D0004