Pentagon Contract Announcement
(Source: US Department of Defense; issued Aug. 26, 2019)
the recovery of the Knifefish UUV during an operational assessment conducted by members from Operational Test and Evaluation Force. (USN photo)
General Dynamics Missions Systems Inc., McLeansville, North Carolina, is awarded a $44,595,146 cost-plus-incentive-fee modification to previously-awarded contract N61331-11-C-0017 for low-rate initial production of the Surface Mine Countermeasure Unmanned Undersea Vehicle (SMCM UUV), also known as Knifefish.
The Knifefish program is an ongoing effort to provide a UUV that detects and classifies undersea volume, bottom and buried mines in high-clutter environments.
The Knifefish system is part of the Littoral Combat Ship Mine Countermeasures Mission Package and can also be deployed from vessels of opportunity.
The low-rate initial production effort will provide the initial systems for the Navy to test and operate.
Work will be performed in Quincy, Massachusetts (35%); Taunton, Massachusetts (23%); Braintree, Massachusetts (19%); a location to be determined (15%); McLeansville, North Carolina (6%); Reston, Virginia (1%); and Ann Arbor, Michigan (1%), and is expected to be completed by August 2021.
Fiscal 2018 and 2019 other procurement (Navy) funding in the amount of $44,595,146 will be obligated at time of award and will not expire at the end of the current fiscal year.
The Naval Sea Systems Command, Washington, District of Columbia, is the contracting activity.
US Navy’s Knifefish UUV Program Achieves Milestone C
(Source: US Naval Sea Systems Command; issued Aug. 26, 2019)
WASHINGTON --- The Program Executive Officer for Unmanned and Small Combatants (PEO USC) granted Milestone C approval to the Knifefish Surface Mine Countermeasure Unmanned Undersea Vehicle Program. The decision clears the way for low-rate initial production (LRIP) of the system, PEO USC announced Aug. 23.
The Navy is expected to award a LRIP contract to Knifefish prime contractor General Dynamics Mission Systems.
The Knifefish system is designed for deployment from the littoral combat ship (LCS), vessels of opportunity or from shore to detect and classify buried, bottom and volume mines in high-clutter environments. Knifefish is a critical element of the LCS Mine Countermeasure Mission Package and will reduce risk to Navy personnel and equipment.
The Knifefish system, which consists of two unmanned undersea vehicles along with support systems and equipment, uses cutting-edge low-frequency broadband sonar and automated target recognition software technology developed by the Naval Research Laboratory and successfully transitioned to industry. It acts as an off-board sensor while the host ship stays outside the mine field boundaries.
Knifefish’s common open systems architecture design and modularity allow for platform ﬂexibility and quick reconfiguration of the mission package to respond to evolving and dynamic mission requirements. Planned block upgrades will improve its sensors and automated target recognition software to keep pace with mine threats.
Formal Developmental Testing and an Operational Assessment were conducted from January through May 2019 in multiple locations off the coasts of Massachusetts and Florida. The Knifefish tests involved end-to-end operational minehunting missions against a deployed, simulated target field.
Operations performed by fleet Sailors during Developmental Testing and Operational Assessment included mission planning, launching and recovering the system, monitoring the sorties and processing data. The unmanned undersea vehicles were deployed from a support craft in the vessels of opportunity configuration for all test events in order to provide a characterization of the performance of the entire Knifefish system, including the launch and recovery subsystem.
A full-rate production decision is expected in fiscal year 2022 after additional testing of LRIP systems. The Navy plans to procure 30 Knifefish systems in all, 24 in support of LCS Mine Countermeasure Mission Packages and an additional six systems for deployment from vessels of opportunity.