Trajectory Planning for the Shapeshifting of Autonomous Surface Vessels

Author(s)

Gheneti, Banti; Park, Shinkyu; Kelly, Ryan; Meyers, Drew; Leoni, Pietro; Ratti, Carlo; Rus, Daniela L; ... Show more Show less

Abstract

© 2019 IEEE. We present a trajectory planning algorithm for the shapeshifting of reconfigurable modular surface vessels. Each vessel is designed to latch with and unlatch from other vessels, which we aim to use to create dynamic infrastructure, such as on-demand bridges and temporary market squares, in canal environments. Our algorithm generates smooth and collision-free trajectories that the vessels can track to reconfigure their connections. We formulate the trajectory planning problem as Mixed Integer Quadratic Programming (MIQP) with a B-spline representation. We conceive a physical platform of the reconfigurable modular vessels and, through swimming pool experiments, show the efficacy of our trajectory planning algorithm for the shapeshifting of the vessels.

Date issued

2019-11

URI

https://hdl.handle.net/1721.1/137050

Department

Senseable City Laboratory
Massachusetts Institute of Technology. Computer Science and Artificial Intelligence Laboratory
Massachusetts Institute of Technology. Media Laboratory

Journal

International Symposium on Multi-Robot and Multi-Agent Systems, MRS 2019

Publisher

Institute of Electrical and Electronics Engineers (IEEE)

Citation

Gheneti, Banti, Park, Shinkyu, Kelly, Ryan, Meyers, Drew, Leoni, Pietro et al. 2019. "Trajectory Planning for the Shapeshifting of Autonomous Surface Vessels." International Symposium on Multi-Robot and Multi-Agent Systems, MRS 2019.

Version: Author's final manuscript