MAI, in coordination with partners In-Depth Engineering Corp (IEC) and L3Harris, is pleased to announce the award of a Department of Defense Rapid Innovation Fund (RIF) for the development of a Cooperative Sonar Engagement capability for Theater ASW (C-SET). C-SET delivers networked mission planning and communication capability to optimize cooperative use of Anti-Submarine Warfare (ASW) assets, optimizing placement of receive sensors and platforms capable of active emissions for bistatic active sonar. This capability leverages both existing Advanced Processing and Capability (AxB) sonar builds and Undersea Warfare Decision Support System (USW-DSS) architecture and an at-sea demo utilizing Program Executive Office Integrated Warfare Systems (PEO-IWS) 5A sponsor resources are anticipated within the 2-year RIF period.
Integration of C-SET into Common AxB sonar systems (e.g., AN/SQQ-89, AN/BQQ-10) and Theater-level planning tools (AN/UYQ-100, NAUTICA) will allow the Theater ASW Commander the capability to use ASW assets synergistically; enabling a team of sensors to experience as much as a 50% increase in sonar coverage over single-ship (monostatic) sonar capability. Additionally, this includes opening active operations, traditionally an overt ASW prosecution mode, to the possibility of not only covert reception by multiple sensors but also mitigation of interference by unnecessary sources.
The Cooperative use of multiple sonars refines localization of undersea threats and enables advanced kill tactics and optimization of Theater ASW forces in complex cooperative sonar engagements. Further, the matured capability is directly transferrable to High-Velocity USW Outcomes for new surface platforms (Future Frigate, Large Surface Combatant, Large Unmanned Surface Vehicle) and undersea platforms (Orca, Snakehead, Razorback, Knifefish) identified in the Chief of Naval Operations’ Design 2.0 strategy, under a common AxB framework.
The C-SET RIF is directly enabled by the recent completion of a key Phase II SBIR, N151-055, Multi-ship Sonar Bistatic Automatic Active Localization. Marine Acoustics Inc (MAI) and In-Depth Engineering Corp (IEC), in collaboration with the Applied Research Lab, University of Texas (ARLUT), verified a prototype capability enabling cooperative bistatic sonar processing with associated planning capability on an AN/SQQ-89 on a legacy Advanced Capability Build (ACB) Sonar system. MAI leveraged extensive operational ASW experience with Tactical Decision Aid (TDA) and 4-D (time-based and three-dimensional space) virtual Mission Planning Tool (MPT) capability, using its Acoustic Integration Model (AIM©) modeling and simulation software for this effort.
Jennifer Amaral published an article on the “Characterization of impact pile driving signals during installation of offshore wind turbine foundations” in the Journal of the Acoustical Society of America. The article analyzes acoustic measurements collected with funding from the Bureau of Ocean Energy Management and in conjunction with the University of Rhode Island and Woods Hole Oceanographic Institution during pile driving for the foundations at the first offshore wind farm in U.S. waters. Metrics of rise and decay time, pulse duration, kurtosis, and sound pressure levels were characterized to investigate the impulsiveness of the pile driving signal over range. Variations in the radiated sound field were observed along different azimuths and were further investigated through finite element modeling.
The following article appeared in The Journal of the Acoustical Society America Vol. 147, Issue 4, and may be found here.
Marine Acoustics, Inc. is being recognized by the Aerospace and Defense Review as a 2020 Top 10 Maritime Consulting/Service Company. This annual list recognizes companies that are at the forefront of providing maritime consulting/services and transforming businesses. Tom Stewart, MAI’s president, and CEO is featured in the article, in addition to MAI’s history and areas of expertise. View the article in the link below to learn more about MAI and our plans for the future.