Tridentis AMV specializes in autonomous and unmanned vehicles, advanced and unique ships, platforms, and technology adaptions for the maritime environment. Our organization has a unique skill set that allows us to design, prototype, manufacture, and modify a variety of platforms to meet new and evolving needs. Whether it is large ship enhancements for new missions, or highly efficient autonomous vehicles, Tridentis AMV has the expert capability to take the customer's requirements and develop a system that will operate as intended in the harsh marine environment. We approach each project with the intention that the project will have to be built, operated, and maintained in a cost effective and efficient manner.
High-Speed Ship to Shore Connector for the Office of Naval Research
Tridentis AMV successfully complete a Phase I SBIR for the Office of Naval Research, where we performed the concept design of a high-speed ship to shore connector. Specifically, Tridentis AMV designed a high-speed Surface Effect Ship (SES) to be used as a ship-to-shore connector, interface with US Navy Amphibious Assault Ships via ...
Autonomous Marine Vehicle for the National Oceanic and Atmospheric Administration
During the execution of this contract, Tridentis AMV performed a “clean sheet” design of an autonomous mobile surface coastal monitor that uses “green” power sources, has modular capability to allow for “plug and play” of new sensors and technology, and provides calibration/validation for NOAA and other optical satellite sensors. ...
T-AKE Modifications for the United States Marine Corps
Tridentis AMV provided support to the US Marine Corps (USMC) BIC Maritime Pre-Positioning Force (MPF), where we provided advanced engineering services for multiple feasibility studies to determine the ability to stow, deploy and retrieve Improved Navy Lighterage System (INLS) modules, the Amphibious Bulk Liquid Transfer System ....
Non-fabric Bow Seal for a Surface Effect Ship for the Office of Naval Research
Details of this project are not available for public release.