Ship Concept Advanced Design

Abstract

The FY 2022 funding request was reduced by $2.051 million to account for the availability of prior year execution balances. Project 2196 - This project provides the analytical foundation for making informed force structure, capability and affordability decisions in the development of all future surface ship platforms, weapons, sensors and combat systems. It realizes this through total ship system engineering, technology integration, cost estimation, mission effectiveness analysis, force architecture synthesis, and force-level effectiveness analysis, as well as continuous development of the people, tools and processes required to accomplish these efforts efficiently. This includes early-stage concept development studies for all potential future surface ships. It also includes quantitative mission and force-level analysis to identify future capability gaps and requirements related to advances in threat capabilities, and evaluation of the effectiveness and affordability of potential future technology and concept of operations (CONOP) solutions. Results from this project are used to inform senior Navy leadership in support of budgetary decisions, Capability Evolution Plans (CEP), and Top Level Requirements (TLRs) related to surface ship force structure, platforms and major combat system elements. The FY 2022 budget submission was reduced from FY 2021 due to anticipated efficiencies gained following initial stand-up of new analysis capabilities in FY 2021, and full transition of DDG(X) Pre-Preliminary Design (PPD), Preliminary Design (PD) and Contract Design (CD) efforts to PE 0603564N/0411. Project 3161 - This project is the only R&D effort that provides a coordinated approach to the development of cross platform ship and weapon system designs and technologies "common" to multiple ships and systems. This project directly influences technical standards for design, construction, certification and operation and provides an avenue for innovative solutions and technologies to compete with legacy product requirements and specifications. This project conducts risk reduction of alternative technical architectures, designs and technology solutions that meet Fleet operational and technical requirements at lower cost; and develops engineering capabilities in the areas of design tools, criteria and methods. This project funds a prioritized portfolio of time-sensitive initiatives through the Cross Platform Systems Development (CPSD) Program, supporting NAVSEA Technical Authority and associated risk reduction activity. The areas of exploration for the CPSD Program include Ship Technology Improvements, Fleet Maintenance and Life Cycle Cost Reduction, Advanced Manufacturing and Material Technology, Additive Manufacturing, Digital Framework/Electromagnetic Environment and Development and Unmanned Systems. The research products developed by this project directly support and influence both current Fleet requirements and future acquisition programs by providing a range of technically acceptable alternatives and evaluation of emerging technologies. The prototypes, standards/specs, tools and processes and other products developed in this project focus on technical requirements and technologies applicable to multiple ship classes or systems. Products from this project transition directly to early-stage ship design for Ship Preliminary Design and Feasibility Studies, Program Executive Office (PEO) ship acquisition programs, and Systems Engineering Technical Authority (SETA) requirements documentation. Tasks within this project include R&D efforts focused on increasing sustainment technologies and improving performance at reduced cost for current and future naval platforms. This Project supported Navy COVID Rapid Response Testing (NCR2T) activities. Project 3244 - This effort funds the research, design, development, testing, and installation of Cybersecurity solutions for all installed integrated computer networks to include shipboard Hull Mechanical and Electrical (HM&E), Navigation Systems, Combat Systems, Fire Control, Sonar, Radar, Communications and all other shipboard computerized control systems for all afloat U.S. Navy platforms. Cybersecurity Engineering supports the development of specifications and standards for the Cybersecurity of all Navy Control Systems (NCS). Project 3376 - Strategic Sealift Research and Development - Develops new concepts and technologies which can be applied to or will enable future strategic sealift, and Seabasing systems. The technologies include ship configuration concepts, equipment to increase cargo handling and cargo loading/unloading rates (including commercial and merchant ship systems), improved man/machine interfaces, improved structural configurations and materials, and Logistics-Over-the-Shore (LOTS) equipment and system improvements. FY2016 and prior years (FY2014 and earlier) efforts were financed under the National Defense Sealift Fund (NDSF) BA 04 Project 3116 Strategic Sealift Research and Development. FY 2015, FY 2017, and FY 2019 and future efforts are financed under this program element and project (3376). Project 4037 - This project supports Common Hull Auxiliary Multi-Mission Platform (CHAMP)Design and Total Ship Integration. The CHAMP concept leverages a new approach to requirements generation and shipbuilding to replace aging mission specific designs with a common hull to reduce life cycle costs, leverage tailored payloads, and stabilize the industrial base. Identified missions include: sealift, aviation intermediate maintenance support, medical services, command & control, and submarine tending. Funding will inform requirements definition, early industry engagement and follow-on assessment across CHAMP mission functionality. Project 4044 - The Light Amphibious Warship (LAW) is a medium-sized landing ship that enables distributed maneuver and logistics such as Distributed Maritime Operations (DMO), Littoral Operations in a Contested Environment (LOCE), and Expeditionary Advanced Base Operations (EABO) in support of the newly established Marine Littoral Regiment (MLR). It is designed to fill the gap in capability between the Navy's large, multipurpose amphibious warfare "L" class ships and smaller landing vessels. This vessel will deploy tailored logistics, select power projection and strike capabilities. Project 4045 - The Next Generation Logistics Ship (NGLS) is planned to be a new class of ships to augment the current Combat Logistics Force ships, through the use of commercial ship designs tailored for military applications to conduct logistics missions. The NGLS will enable refueling, rearming, and resupply of Naval assets - afloat and ashore - in support of Distributed Maritime Operations, Littoral Operations Contested Environment, and Expeditionary Advanced Base Operations. The NGLS is envisioned to be smaller than existing ships in the Combat Logistics Force, and will operate near contested environments, sustaining afloat (Surface Action Group) and ashore (Expeditionary Advanced Base) requirements. NGLS is potentially a family of vessels (a Platform Supply Vessel (PSV) and/or Fast Supply Vessel (FSV)) with commercial designs tailored for military applications. RDT&E funding will continue to support requirements trade-off studies, development of indicative designs, specification development, and on a chartered logistics ship experimentation and proof-of-concepts focused on the Refuel, Resupply, and Rearm logistics missions. Project 5010 - This project supports Submarine Tender Recapitalization Acquisition Documentation development, Preliminary Design, Detail Design, Program Management/Engineering Services and Total Ship Integration. The Submarine Tender approach leverages current Submarine Tender capabilities, Nuclear Support Facility, integrating new VACL and CLB capabilities into the requirements generation and shipbuilding contracts. Identified missions include: Submarine Tending, Re-arming, re-supply of material, medical/dental, Nuclear Support, Submarine Systems repair and other maintenance support. Funding will inform requirements definition, early industry engagement preliminary designs, trade studies, and follow-on assessment for Sub Tender. Project 9999 (Congressional Add)- Funding provided in the Department of Defense Appropriations Act, 2021 for additive manufacturing, polymorphic build farm for open source technologies, defense industrial skills and technology training, and portable high pressure cold spray system. Funding provided in the Department of Defense Appropriations Act, 2020 for additive manufacturing and high pressure cold spray systems.

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Document Details

Document Type
R2 Budgetary Justification
Publication Date
Oct 01, 2022
Source ID
0603563N_4_1319_PB_2022
Change Summary Explanation
Program adjustments include: 2196 Naval Capability Integration Process - From the Sea (NCIP-FTS) - Funds are required to support execution of the NCIP-FTS process to include quantitative mission and force-level analysis. 4045 Next Generation Logistics Ship (NGLS) - Funds are required to conduct Vessel Experimentation/Demonstration/Proof of Concept by chartering commercial offshore support vessels to experiment and demonstrate concepts related to the Refuel, Resupply, and Rearm logistics missions that NGLS will perform.
Service Agency Name
Navy

Entities

Organizations

  • United States Navy

Tags

Communities of Interest

  • Autonomy
  • Cyber
  • Ground and Sea Platforms
  • Weapons Technologies

DTIC Thesaurus Topics

  • Additive Manufacturing
  • Advanced Manufacturing
  • Artificial Intelligence
  • Computer Networks
  • Computer Programs
  • Computers
  • Control Systems
  • Engineers
  • Fabrication
  • Logistics
  • Naval Architecture
  • Navy
  • Operations Research
  • Reliability
  • Systems Engineering
  • Test And Evaluation
  • Unmanned Systems

Fields of Study

  • Engineering

Readers

  • Maritime Combat Support and Expeditionary Logistics.
  • Military Science and Technology Research and Modernization.
  • Naval Architecture and Marine Engineering.

Technology Areas

  • Autonomy
  • Cyber

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