Russino's Publications

BibBase russino, j
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  2022 (2)
Chien, S.; de la Croix, J.; Russino, J.; Wagner, C.; Rabideau, G.; Wang, D.; Lim, G.; Aguilar, D.; Marchetti, Y.; Tepsuporn, S.; Twu, P.; Mauceri, C.; Tan-Wang, G.; and Reeves, G. Onboard Scheduling and Execution for Addressing Uncertainty in a Planetary Lander. In 16th Symposium on Advanced Space Technologies in Robotics and Automation, June 2022.
Onboard Scheduling and Execution for Addressing Uncertainty in a Planetary Lander [pdf]Paper   link   bibtex  
Basich, C.; Russino, J.; Chien, S.; and Zilberstein, S. A Sampling Based Approach to Robust Planning for a Planetary Lander. In IEEE/RSJ International Conference on Intelligent Robots and Systems (IROS 2022), Kyoto, Japan, October 2022.
A Sampling Based Approach to Robust Planning for a Planetary Lander [pdf]Paper   link   bibtex  
  2021 (1)
Yelamanchili, A.; Wells, C.; Chien, S.; Russino, J.; Green, R.; Oaida, B.; and Thompson, D. R. Using Automated Scheduling for Mission Design: A Case Study for EMIT. In Proceedings Space Operations 2021, May 2021.
Using Automated Scheduling for Mission Design: A Case Study for EMIT [pdf]Paper   link   bibtex  
  2020 (1)
Gaines, D.; Doran, G.; Paton, M.; Rothrock, B.; Russino, J.; Mackey, R.; Anderson, R.; Francis, R.; Joswig, C.; Justice, H.; Kolcio, K.; Rabideau, G.; Schaffer, S.; Sawoniewicz, J.; Vasavada, A.; Wong, V.; Yu, K.; and Agha-mohammadi, A. Self-reliant rovers for increased mission productivity. Journal of Field Robotics, 37(7): 1171-1196. October 2020.
Self-reliant rovers for increased mission productivity [link]Paper   doi   link   bibtex   abstract  
  2018 (1)
Gaines, D.; Russino, J.; Doran, G.; Mackey, R.; Paton, M.; Rothrock, B.; Schaffer, S.; Agha-mohammadi, A.; Joswig, C.; Justice, H.; Kolcio, K.; Sawoniewicz, J.; Wong, V.; Yu, K.; Rabideau, G.; Anderson, R.; and Vasavada, A. Self-Reliant Rover Design for Increasing Mission Productivity. In 2018 ICAPS Workshop on Planning and Robotics (PlanRob 2018), Delft, The Netherlands, June 2018. Also appears at International Symposium on Artificial Intelligence, Robotics, and Automation in Space (ISAIRAS 2018).
Self-Reliant Rover Design for Increasing Mission Productivity [pdf]Paper   link   bibtex   abstract