Synchronous-Clock Range-Angle Relative Acoustic Navigation: A Unified Approach to Multi-AUV Localization, Command, Control, and Coordination

Author(s)

Rypkema, Nicholas; Schmidt, Henrik; Fischell, Erin

Abstract

This paper presents a scalable acoustic navigation approach for the unified command, control, and coordination of multiple autonomous underwater vehicles (AUVs). Existing multi-AUV operations typically achieve coordination manually by programming individual vehicles on the surface via radio communications, which becomes impractical with large vehicle numbers; or they require bi-directional intervehicle acoustic communications to achieve limited coordination when submerged, with limited scalability due to the physical properties of the acoustic channel. Our approach utilizes a single, periodically broadcasting beacon acting as a navigation reference for the group of AUVs, each of which carries a chip-scale atomic clock and fixed ultrashort baseline array of acoustic receivers. One-way travel-time from synchronized clocks and time-delays between signals received by each array element allow any number of vehicles within receive distance to determine range, angle, and thus determine their relative position to the beacon. The operator can command different vehicle behaviors by selecting between broadcast signals from a predetermined set, while coordination between AUVs is achieved without intervehicle communication by defining individual vehicle behaviors within the context of the group. Vehicle behaviors are designed within a beacon-centric moving frame of reference, allowing the operator to control the absolute position of the AUV group by repositioning the navigation beacon to survey the area of interest. Multiple deployments with a fleet of three miniature, low-cost SandShark AUVs performing closed-loop acoustic navigation in real-time provide experimental results validated against a secondary long-baseline positioning system, demonstrating the capabilities and robustness of our approach with real-world data.

Date issued

2022-03-10

URI

https://hdl.handle.net/1721.1/154267

Department

Massachusetts Institute of Technology. Department of Mechanical Engineering
Woods Hole Oceanographic Institution

Journal

Field Robotics

Publisher

Field Robotics Publication Society

Citation

Rypkema, N. R., Schmidt, H., & Fischell, E. M. (2022). Synchronous-Clock RangeAngle Relative Acoustic Navigation: A Unified Approach to Multi-AUV Localization, Command, Control, and Coordination. Field Robotics, 2, 774–806.

Version: Final published version

ISSN

2771-3989