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INTRODUCTION
On behalf of the Project Manager Close Combat Systems (PM CCS), the Department of the Army, U.S. Contracting Command – New Jersey (CCNJ), Picatinny Arsenal, NJ is issuing this sources sought notice to identify vendors with potential solutions for a
lethal, command and control capable Terrain Shaping Obstacle (TSO) Top Attack prototype. This effort is the first increment (Increment 1) of the Close Terrain Shaping Obstacle (CTSO) Program. PM-CCS will commence development of CTSO’s first increment in
2QFY22. The other increments,
Bottom Attack (Increment 2) and Full Network Capability (Increment 3), will follow Increment 1 in 3QFY25 and 3QFY26, respectively. Due to the incremental acquisition approach, solutions to Increment 1 should allow growth for the future increments of CTSO. Responses from vendors that partially meet the desired capabilities of Increment 1 are acceptable in response to this sources sought notice.
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ITEM DESCRIPTION
PM CCS is executing a sources sought notice in order to identify vendors with solutions for a hand-emplaced top attack terrain shaping capability for a directed close tactical obstacle. The top attack system is envisioned to consist of the
Common Anti-Vehicle Munition (CAVM) top attack munition, the
top attack dispenser launcher module (DLM), the
Remote Control Station (RCS), and an
obstacle planning capability. The CAVM top attack munition shall have improved lethality over previous generations of top attack munitions (M93 Hornet and XM204). Once emplaced in a tactical obstacle, the system shall be capable of operating in a
standby mode for up to six months with the ability to transition to a target engagement mode for 30 days. The Remote Control Station (RCS) shall be capable of controlling at least
12 fields (150 m by 250 m) located up to 5 km away from the RCS. The system shall also be capable of displaying SAFE and UNSAFE authoritative safety information to the operator controlling the fields with a 1 in 1 million probability of false display of safe. In addition, the hand-emplaced top attack system shall be capable of rapid emplacement. Also, emplaced DLMs shall be recoverable and reusable prior to the firing of their top attack munitions. To enable future operational needs, the top attack Common Anti-Vehicle Munition (CAVM) design should consider compatibility with delivery platforms such as 155mm tube artillery, developmental Long-Range Precision Fires (LRPF), robotic ground vehicle platforms,
current and future vertical lift (FVL) aircraft, unmanned aerial aircraft, and fixed wing aircraft. To facilitate growth to Full Network Capability Increment 3, the Increment 1 system design needs to consider the capability to communicate with and allow command and control from Army Tactical Command and Control (C2) Systems with minimal modifications to Increment 1 hardware in Increment 3.
REQUIRED TOP ATTACK INCREMENT 1 CAPABILITIES
The top attack system shall provide a lethal obstacle capability sufficient to shape terrain by disrupting enemy maneuver and defeating threat forces.
The top attack system shall be compliant with US Landmine Policy issued by the DoD.
The top attack system shall be capable of autonomously engaging threat vehicles.
The top attack system shall engage enemy vehicles with a 50 m minimum standoff with sufficient threat of damage or destruction.
Emplaced systems shall be capable of operating in a standby mode for up to six months with the ability to transition to a pre-armed mode for 30 days.
The top attack system shall have the ability to plan the obstacle deployment and emplacement on an existing fielded platform.
The top attack system shall be capable of communicating obstacle deployment and emplacement information from an existing platform to the top attack system’s remote control station (RCS).
The RCS and the top attack DLMs in the field shall be capable of two-way communications.
The top attack system shall be capable of remotely controlling at least 12 fields (150 m by 250 m).
The RCS shall be capable of controlling top attack DLMs located up to 5 km line-of-sight (LOS) from the RCS.
The RCS User Interface shall be a plug-in on the Android Tactical Assault Kit (ATAK) application.
The RCS plug-in for ATAK shall be capable of operating on the Nett Warrior System End User Device (EUD).
Data transmission shall implement NSA approved encryption.
A device shall display authoritative safety information with a 1 in 1 million probability of false display of safe to the RCS operator.
The system shall maximize commonality with future delivery methods to include artillery, missile, rotary wing, and fixed wing aircraft in support of a long-term Common Anti-Vehicular Munitions (CAVM) acquisition approach.
The top attack system subcomponents should adhere to a form factor that allows for future integration into 155mm artillery delivery to the maximum extent possible.
The top attack munition subcomponents that cannot be directly leveraged to support future 155mm artillery delivery shall be addressed via analysis to outline a growth path to achieving the required form factor.
The top attack munition subcomponents shall address survivability for 155mm delivery to the extent possible and where not feasible to implement, shall address via analysis to indicate a growth path to achieving the requirement.
The top attack system shall be capable of rapid emplacement, recoverability, and reusability.
The emplacement of the top attack system in the field shall not require more than two (2) soldiers (84lbs) per item (MIL-STD-1472).
The system should accommodate
Modular Open Systems Approach (MOSA) where feasible.
GROWTH TO INCREMENT 3 FULL NETWORK CAPABILITIES
Compatibility with Army Tactical Command & Control (C2) Systems with communication ranges up to 300 km to and from the obstacle
Compatibility with the Army Common Operating Environment
The CTSO system shall be able to exchange C2/SA messages with Army Tactical C2 Systems.
OTHER INFORMATION
The prototype system shall have a desired Technology Readiness Level (TRL) greater than TRL 4 at contract award and a maturation to a TRL 7 within two (2) years.
The system developer shall have the opportunity to refine their design at a Soldier Touch Point in the first year after contract award.
A prototype system shall be developed and delivered within two (2) years after contract award.
The system developer shall demonstrate the Top Attack Increment 1 during qualification tests between the second (2nd) and third (3rd) years after contract award.
The system developer shall be capable of producing the first article of Top Attack Increment 1 within four (4) years after contract award.
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