NSWC-DD adds special materials and device topics to BAA

BAA - N0017814Q1200 - Federal Business Opportunities: Opportunities

This amendment is a Topic Call under NSWCDD Broad Agency Announcement (BAA) # N00178-14-Q-1200. All terms and conditions of NSWCDD BAA N00178-14-Q-1200 apply to this Topic Call. This Topic Call covers the following NSWCDD Technical Capabilities (TC) areas:

• DD03 Radar and Electro-Optic Systems Research, Development, Test, and Evaluation (RDT&E)
• DD12 Directed Energy Systems RDT&E
• DD13 Weapons Systems Integration for Surface, Air and Ground Unmanned Systems
• DD14 Expeditionary and Other Weaponry Systems RDT&E
• DD19 Surface Warfare Electromagnetic Environmental Effects

This Topic Call is seeking white papers for innovative technologies in the areas of 

• photo-capacitive and photo-conductance properties of materials,
• nanotechnology based materials with unique electromagnetic properties, meta-materials, and 
• novel vacuum electronic microwave devices with large fractional bandwidths and high electronic efficiencies.

Specific areas of interest include:

1. Advanced materials for photo-capacitance applications with low loss and/or high power capacity for dynamically controlling electromagnetic components. For example, materials such as GaAs (gallium arsenide), AgCl (silver chloride), SiC (silicon carbide), the class of photoconductive transparent oxides and the like can display direct photo-capacitance, or photoconductivity that manifests itself as photo-capacitance in various configurations (single crystal, dielectric mixtures, etc.).
2. Advanced methods to control/tune large area electromagnetic structures such as metasurfaces, frequency selective surfaces, and reflect-arrays.
3. Advanced nano-structured materials (CNTs (carbon nanotubes), BNTs (boron nitride nanotubes), etc.). The novel integration of such into electromagnetic materials with enhanced properties over current state-of-the-art is sought. Examples include nano-thermionic and/or field-effect cathodes, nano-sensors, and the like.
4. Optical films and layers for isotropic and anisotropic optical stimulation of unit-cell structures, and large arrays of cell structures.
5. Analytical and computational based models describing the physics of the material behaviors of the above described areas.
6. Supporting engineering technology/processes to advance the above areas (machining, milling, etc.) which must be developed to achieve mass production of a given material, etc.
7. Advanced cathode emitter technology (field effect, combined field-effect/thermionic, etc.). Novel ideas for production of large peak and large average current densities are highly encouraged.
8. Novel RF (radio frequency)/mm (millimeter)-wave amplifiers or oscillator devices utilizing advanced techniques/ materials for bandwidth and DC (direct current)/RF efficiency improvements over state-of-the-art.
9. Theoretical and Experimental understanding of reactive near-field of antennae and coupling mechanisms in stochastic receiver configurations (i.e. random receivers). Research into the use of reactive near-field as force-sensor for detection and possibly discrimination of moving arbitrary material in said field.
10. Computational Physics based algorithm development in the areas of multi-scale physics (time and spatial), along with highly efficient algorithms for first-cut engineering design processes.

 
BAA - N0017814Q1200 - Federal Business Opportunities: Opportunities

Solicitation Number: N0017814Q1200

Notice Type: Special Notice

Synopsis: Added: Sep 09, 2014 2:43 pm

THIS IS A BAA NOTICE FOR NAVAL SURFACE WARFARE CENTER DAHLGREN DIVISION SCIENCE AND TECHNOLOGY

II.  RESEARCH OPPORTUNITY DESCRIPTION

NSWCDD is a Naval Surface Warfare Center (NSWC) of the Department of the Navy that engages in research, development, test and evaluation, engineering, and fleet support for offensive and defensive systems associated with surface warfare and related areas of joint, homeland, and national defense systems from the sea.  To accomplish its mission, NSWCDD has specific and unique Technical Capabilities (TCs) that describe the work it performs. A TC represents the blending of intellectual and physical assets provided by a cadre of technical people with knowledge, skill, experience and requisite facilities and equipment that yield the ability to deliver technical products.  NSWCDD is interested in technologies that offer potential for advancement and improvement of the following NSWCDD TCs to accomplish its mission.  The following identifies NSWCDD TC areas for informational purposes only.  Not all technologies identified will be the subject of Topic Calls and some Topic Calls may be responsive to more than one TC.

DD01 Force and Surface Platform Level Warfare Systems Analysis and Modeling

Provides the ability to identify the strengths and weaknesses of warfare systems (with exception of undersea warfare (USW) in meeting national objectives; conducts special studies to evaluate the effects of modifying force structure, mission effectiveness, target selection, tactics, techniques and procedures, concept of operation (CONOPS) development , and science and technology guidance.  Provides assistance in developing requirements and options for future forces, evaluating variations in threat scenarios and impacts of technologies, and assessing comparative capability versus costs for forces, warfare mission areas, and complex system-of-systems within the Naval environment.

DD02 Weapon Systems Analysis, Effects, and Effectiveness

Provides the ability to identify the strengths and weaknesses of weapons systems (with exception of undersea warfare (USW) in meeting national objectives; conducts special studies to evaluate the effects of modifying force structure, targets, or tactics, and provides science and technology guidance.  Provides assistance in developing and improving weapon systems, evaluating variations in threat scenarios and impacts of technologies; assessing comparative capability versus costs; assessing effects of kinetic and non-kinetic weapons systems on targets and identifying means to counter the effects; and assessing effectiveness of new weapons systems to achieve desired goals.

DD03 Radar and Electro-Optic Systems Research, Development, Test, and Evaluation (RDT&E)

Provides investigations into promising test and evaluation thrusts for potential maturation and transition into radar and electro-optic systems.  Provides for the research, development, test, and evaluation (RDT&E) of radar and electro-optic sensors for Naval systems.  This function is full spectrum, including RDT&E of exploratory, advanced and engineering development sensors and systems as well as sensor development support and software support agent functions, for the development and acquisition of new radar systems, and the continuing spiral development of existing radar systems.  Testing and evaluation services are provided from concept exploration through developmental testing (DT).  During formal DT/operational testing (OT), test and evaluation support emphasis shifts to providing data analysis and system expertise with this support continuing as necessary after the DT/OT.  Also provides worldwide quick reaction support to the Fleet to develop new sensors, modify existing sensors and to develop and evaluate sensor performance and countermeasures in times of crisis.

DD04 Surface Warfare Systems Engineering and Integration RDT&E

Provides for the specification and leadership necessary to develop warfare systems architectures including the design and integration of research, development, test, and evaluation (RDT&E) for the Navy’s surface force operating in the Joint environment. Includes analysis, architecture and technology development for warfare systems.  Also includes all the capabilities, functions, components, trade studies and elements required to systems engineer and develop warfare systems as well as adapting and transitioning new technologies and advanced capabilities to meet changing requirements.

DD05 Surface Combat Systems Engineering and Integration RDT&E

Provides investigations into promising science and technology (S&T) thrusts for potential maturation and transition into surface combat systems.  Provides the research, development, test, and evaluation (RDT&E) necessary to specify and develop combat system capabilities and architectures, including design and integration at the component, element and system level for the Navy’s surface ships to optimize their effectiveness in the Joint operational environment.  Includes analysis, technology development, trade studies, integration and evaluation, and testing of combat systems.  Also includes all the capabilities, functions, components, and elements required to systems engineer, develop, test, and support the combat systems architecture and integration from conception through Fleet introduction.  Performs combat systems development support for fielded systems, adapting and transitioning new technologies, affecting architectural migration and advancing system and subsystem capabilities to meet changing requirements lead modeling and simulation (M&S) verification, validation, and accreditation (VV&A).  Develop and instantiate standards and process for models used in system development, testing, and certification. Provides systems engineering leadership for acquisition activities.

DD06 Surface Combat Control Systems S&T, RDT&E

Provides investigations into promising science and technology (S&T) thrusts for potential maturation and transition into Surface Combat Control Systems.  Provides for the specification and leadership enabling the development and support of combat control systems research, development, test, and evaluation (RDT&E) for the Navy’s surface ship Fleet.  Includes analysis, architecture development and engineering, technology development, integration and evaluation, and testing of combat control systems.  Also includes all the capabilities, functions, components, trade studies and elements required to systems engineer, develop, test, and support the combat control systems from conception through Fleet introduction.  Performs combat control systems development support for fielded systems, adapting and transitioning new technologies, affecting architectural migration, and advancing system and subsystem capabilities to meet changing requirements.  Provides systems engineering leadership for acquisition activities.

DD07 Surface Conventional Weapon Control Systems RDT&E

Provides investigations into promising science and technology (S&T) thrusts for potential maturation and transition into surface conventional weapon control systems.  Provides for the specification and leadership enabling the development and support of conventional weapon control systems research, development, test, and evaluation (RDT&E) for the Navy’s surface ship Fleet.  Includes analysis, technology development, integration and evaluation, and testing of conventional weapon control systems.  Also includes all the capabilities, functions, components, and elements required to systems engineer, develop, test, and support the conventional weapon control systems from conception through Fleet introduction.  Performs weapon control system development support for fielded systems, adapting and transitioning new technologies and advanced capabilities to meet changing requirements.  Provides systems engineering leadership for acquisition activities.

DD08 Surface Warfare System and Force Level Certification/IV&V

Provides for the specification and leadership enabling the development of common processes for the execution of warfare, combat systems, control and weapon systems, and element certification activities for effective force operation in the Joint arena.  Certification processes are optimized to address competing concerns precipitated by increasingly complex system development.  Processes must be both comprehensive and independent to address technology and architecture advancements and threat evolution.  Certification and independent verification and validation spans the development cycle from requirements to deployed baselines.

DD09 Human Systems Integration Science and Engineering

Provides a body of knowledge and subject matter expertise for the development of technologies in support of human systems integration (HSI).  Provides science, technology, and systems engineering expertise in human systems integration to define policy, processes and enterprise solutions for Navy acquisition programs with the exception of submarines, stressing optimization of manpower, decision support, and knowledge superiority in an effort to enhance the capabilities of our warfighters and improve total system performance and affordability over the entire life cycle cost of a platform or system. Addresses surface Navy definition requirements for knowledge superiority; decision support; effective communications; human-computer interaction; manning optimization; training; usability testing of new warfighter-centered designs; design of work environments, workstation/consoles, and command spaces; measurement of workload and performance across individual, team, systems, and organizational domains; and is instrumental in identifying issues regarding a new way of thinking about afloat and ashore command and control.

DD10 Surface Missile Systems Integration

Provides national technical leadership and oversight for missile systems integration including the integration of associated launchers and payloads.  Performs integration assessments of advanced concepts for missiles, payloads, and launchers.  Performs integration and development of integration requirements for missiles, lethal and non-lethal payloads, launchers and associated sub-systems.  Provides the systems engineering and integration required to transform a multiplicity of system elements into effective engagement systems.  Expertise in mechanical, electrical and command and control (C2) systems is utilized for the integration of engagement systems with the host ship systems.

DD11 Surface Conventional and Electromagnetic Gun Systems RDT&E

Provides science and technology (S&T), research, development, test, and evaluation (RDT&E), and acquisition support for conventional and electromagnetic gun systems and associated munitions (greater than or equal to 20 millimeter) from technology development to platform integration.  Provides critical technology development and the systems engineering and integration required to transform a multiplicity of system elements into an effective gun system.  Process involves both the maturing of technologies and the flow down of requirements necessary to define the specifications for new gun systems, product improvements, and modifications.

DD12 Directed Energy Systems RDT&E

Leads all science and technology (S&T), research, development, test, and evaluation (RDT&E) for the development and weaponization of directed energy (DE) systems for surface, air and ground environments.  Leads the development of offensive and defensive DE technologies needed to characterize and exploit vulnerabilities, provide weapons, and protect against attack.  Provides the technologies, devices, and systems designed to create or control electromagnetic energy that is used to cause persistent disruption or permanent damage by attacking target materials, electronics, optics, antennas, sensors, arrays and personnel, including non-lethal applications.  Efforts include requirements analysis, measurement capabilities, concept demonstrations, system engineering, major product improvements, system integration, product development test and evaluation, and test and evaluation support through the formal developmental test/ operational test (DT/OT) stages of acquisition.

DD13 Weapons Systems Integration for Surface, Air and Ground Unmanned Systems

Provides the research, development, acquisition, test, and evaluation, including the modeling, design & development, integration, verification, experimentation and certification of engagement systems onto unmanned systems (UxS) for surface, ground, and air.  Also provides the system engineering/integration required to effectively integrate the UxS into platforms, system of systems, and the force structure for Naval surface warfare (SUW) missions.

DD14 Expeditionary and Other Weaponry Systems RDT&E

Provides the technology base and conducts research, development, test, and evaluation (RDT&E) to develop and demonstrate technologies to meet the unique weapons responsibility for expeditionary missions, amphibious warfare, and subsequent operations ashore.  Provides technology base and RDT&E support for unique programs for Naval and other DoD customers.  Responsibilities includes the design and development of new systems or components, product improvements enhancing the military performance of existing systems or components, the neutralizing of deficiencies in stated requirements, weapons system integration and acquisition.

DD15 Strategic Mission Planning, Targeting, and Fire Control Systems

Provides technology advancement, systems engineering, software development, and operational support for mission planning, targeting, and fire control systems for nuclear and non-nuclear strategic systems.  Development of modernization concepts, development of technology to meet future need, and new system concepts (e.g., Submersible, Ship, Guided, Nuclear (SSGN)) is also supported.  Applies to existing systems (all United States and United Kingdom Submarine Launched Ballistic Missile (SLBM) systems), evolving systems and to needs not previously identified by the Navy or other services.

DD16 Re-Entry Systems

Provides the system definition and participates in and manages the development of reentry systems, including definition of environments of their effects, performing analysis of reentry materials, technology development, reentry vehicle design, testing of conceptual and prototype vehicles and project management.

DD17 Surface Electronic Warfare Systems Architecture and Combat System Integration RDT&E

Leads for overall top-level combat systems requirements definition, design, integration, analysis of alternatives, and requirements decomposition to the electronic warfare (EW) element of surface ship combat systems.  Is responsible for up front systems engineering, combat system integration, performance requirements, combat system architectures, generation of weapon system integration requirements, and requirements definition.  Leads the EW combat systems integration role; specifically, the bringing together of the EW elements of the combat system for integration, test, and certification at the platform, strike group, and force levels.  Is responsible for integration into the combat system, integration of elements into a suite, development, maintenance and upgrades of combat system databases which will be used by the EW elements, and combat system EW control and interface with the EW elements.  Provides systems engineering, acquisition support, software expertise, technical evaluation and test and evaluation (T&E) for integration into the combat system.  Collaborates with other Warfare Center activities to facilitate the transition of new technologies into EW elements for existing and planned combat systems.

DD18 Surface Warfare Systems Safety

Provides analytical, technology base, systems engineering, product development, and Fleet support expertise to assess compliance of systems safety and survivability requirements of Fleet assets, especially surface warfare assets.  Defines and determines effects from shock, blast, fragments, toxic products, and laser radiation in the life cycle evolution of weapons and/or combat systems.  Assesses system and item vulnerabilities including software; and specifies, designs, and develops means to remove failure modes, control environments, limit damage, or otherwise reduce possible loss of combat capability.

DD19 Surface Warfare Electromagnetic Environmental Effects

Provides leadership in the area of electromagnetic environmental effects (E3) research, development, test, and evaluation (RDT&E) that assures operational effectiveness of Naval and Joint systems exposed to stressing electromagnetic (EM) environments.  Develops and applies analytical and experimental techniques, facilities, and instrumentation required in the shipboard EM susceptibility/vulnerability assessment of electronic components, circuits, and systems.  Coordinates and directs programs such as hazards of electromagnetic radiation to ordnance (HERO), personnel (HERP), and fuel (HERF) and electromagnetic vulnerability (EMV) to determine EM effects on equipment and systems. Investigates specific and generic EM susceptibility problems and develops, evaluates, and recommends procedural and hardware changes to ensure successful mission completion. Manages the Shipboard Electromagnetic Capability Improvement Program and serves as the E3 battle force interoperability electromagnetic interference (EMI) problem solver for the Navy. Develops and validates analytical and experimental techniques/tools, including computational electromagnetics, to predict and assess topside design issues based on location and performance.  Coordinates and directs programs to achieve integrated topside designs maximizing system performance in the EM environment for new ships and ship alterations.  Provides, via the Afloat Electromagnetic Spectrum Operations Program (AESOP), processes and guidance for battle force frequency management to the Fleet.

DD20 Chemical, Biological, and Radiological Defense Systems

Provides full spectrum life cycle system development, acquisition, and on-site support for assigned shipboard and shore based chemical, biological and radiological defense (CBR-D) equipment and systems to address warfighter needs for Navy, Joint, interagency, and national customers.  Addresses CBR-D challenges by providing the leadership, expert knowledge, systems engineering, and practical experience required to generate and evaluate concepts, technologies, and methodologies and by providing engineering, training, and logistics support to enable successful fielding and transition of applicable CBR-D systems to the warfighter.  Performs technology based research, development, test, and evaluation (RDT&E) for assigned CBR-D mission areas, including CBR threat analysis, CBR research, CBR modeling & simulation, CB detection, CBR collective protection, CBR decontamination, and CBR warning and reporting.  In addition to RDT&E in CBR Decontamination Stations, provides Fleet deployment and designated Fleet support.  DD20 does not encompass radiation detection, individual protective equipment (IPE), in-service engineering for CBR collective protection systems, or energetics-based neutralization.

DD21 National Response Missions, Including Homeland Security and Defense

This technical capability focuses on the research, development, test, and evaluation (RDT&E) and acquisition of capable warfighting and peacekeeping technology options that enable the Navy and nation to more effectively and appropriately understand and respond to asymmetric threats and acts of aggression, with timely, balanced and appropriate measures.  The focus of this technical capability is to adequately safeguard and empower our nation’s warfighters, homeland defenders, and first responders by ensuring they are equipped with proven and response-ready technologies for continuing to fight and win the global war on terrorism.  This technical capability allows our men and women in uniform to effectively prepare for and react to the most pressing needs across a full spectrum of military operations, and focuses on improving our capacity to identify, deter, combat, defend against, and recover from terrorist attacks, major disasters, and national emergencies.  To benefit the Navy, Joint forces, and the nation, this technical capability is intended to deliver innovative and cost-effective solutions to bolster asymmetric defense, maritime security, anti-terrorism, force protection, non-lethal warfare, identity management, stability, and law enforcement operations.  These solutions directly impact our national efforts to combat and counter terrorism, including counter-narco terrorism; oppose the full spectrum of maritime threats; to enforce border and trade sanctions; integrate battlefield and special technologies; mature and integrate biometrics; enhance intelligence collection; refine security and defensive equipment; and support world-wide humanitarian services.

DD22 Physical and Non-Physical Vulnerability Analysis

Provides robust integration across the spectra of research, development, analysis, deployable tools and systems to assist the services, other government agencies, and the civilian sector in analyzing the support networks in place and developing options to mitigate potential threats.  Addresses homeland security initiatives by providing the technical and systems engineering capability necessary to mitigate the effects of asymmetric threats on our homeland to include homeland defense and support to civilian authorities.  Supports force protection requirements in the areas of combating terrorism, physical security, operations security and personal protective services by developing products to mitigate hostile actions against DoD personnel, resources, facilities, and critical information.  Includes a commercial and defense critical infrastructure protection, information assurance, and mission assurance capabilities by providing the ability to identify critical infrastructure susceptibilities and operational dependencies that, if not assured, could adversely impact mission success or continuity of operations.

DD23 Force Level Warfare Systems Engineering and Integration

Provides technical direction and systems engineering for the development of integrated systems and components that provide integrated force level capabilities, with emphasis on establishing the requirements necessary to define the total system in the context of the Joint Services platforms and the overall mission warfighting capability.  Activities include systems engineering and analysis of new and existing systems, defining system interface requirements, reviewing platform integration packages, establishing test requirements, preparing test plans when applicable, reviewing and monitoring contractor test events, reviewing interface specifications, defining requirements for interfacing with communications systems as well as other Navy/Joint tactical systems, and defining communication architectures.  Effort includes establishment of performance and functional baselines; development and analysis of requirements; and requirements mapping and allocation – all leading to the development of key performance parameters (KPPs), measures of performance (MOPs), measures of effectiveness (MOEs), and information energetics requirements (IERs) based on collaborative inputs from Warfare Center (WC) Divisions.  Provides systems engineering expertise to devise and deploy systems that integrate within the United States Navy, Marine Corps, Army, and Air Force, United States Special Operations Command (USSOCOM), Agency, and Coalition forces operations.

DD24 Force Level Warfare Systems Interoperability Engineering

Provides the analysis, systems engineering, and evaluation of the interoperability of systems and system of systems during early stages of program development.  Evaluates the ability of deploying or deployed Navy / Joint systems and platforms to fulfill required contributions to mission capability within the context of Naval, Joint, allied and Coalition operating environments, with overarching emphasis on achieving force interoperability.  Live, virtual, and constructive environments are used to measure, quantify and report operational capabilities and limitations of developmental, prototype and deployed systems.  Products assist in the development of acquisition strategies by identifying redundancies, deficiencies, and inefficiencies in the Navy’s ability to support interoperable Joint operations across required capability areas.  In support of the formal interoperability testing, provides:, developing the specialized facilities and assessment tools in an open architecture environment, characterizing deploying tactical group (Carrier Strike Group (CSG) or Expeditionary Strike Group (ESG), etc) contributions to mission capabilities within the context of Joint and Coalition operating concepts and developing interoperability metrics and measurement techniques and systems that support evaluation of performance against warfighter mission threads.  Also provides for the development of distributed (at-sea and land-based) technology and architectures to test and certify selected command, control, communications, computers, combat systems, and intelligence (C5I) software interoperability.  As programs continue through the acquisition cycle, force warfare system interoperability performance is assessed through collaboration with the Corona Division.

DD27 Tactical Common Data Communications Systems Integration and Interoperability

Provides the technology applications, design, development, integration, test, and evaluation, to enable tactical common data communication infrastructure for integration of tactical subsystems.  Capabilities focus on situational awareness, hostile detection, targeting, communication signature management, communications, and subsystem integration.  Using the tactical common data communication infrastructure, these subsystems will be integrated into Joint and Navy large force units’ strategic architectures and supported as needed to ensure operational capability and effectiveness.

DD35 Integrated Surface Combat Control Systems Support

Provides systems engineering and analysis to support the full integration of combat system elements. Provides in-service engineering (ISE) support for currently assigned legacy systems throughout their remaining life cycle.  Analyzes Fleet combat system and combat system interface issues in conjunction with combat system and element design and ISE agents, and actively supports the acquisition, delivery, and software support of integrated combat control systems.

DD36 Integrated Training Systems

Focus of capability is the development and support of an integrated training capability across the national/agency/Joint /Coalition/maritime military system domains excluding undersea warfare (USW) training systems.  Emphasis is placed on ensuring training capability is horizontally integrated and interoperable within the specific domain, meets the complete operational mission requirements of the specific domain, and is vertically integrated and interoperable with neighboring, superior, and subordinate systems and domains.  Incorporates and integrates live/virtual/constructive training capabilities as well as modeling and simulation systems, learning methodologies and human systems integration approaches to meet training system requirements.  Through System of Systems engineering, design, development, and life cycle support, provides integrated training systems which improves readiness across the Fleet and will support all warfare areas across the breath of military, naval, Joint and Coalition operations.

DD37 Radar Distribution Systems

Specifies and leads the development, integration, acquisition, and support of radar distribution systems and equipment for the Navy’s surface ship Fleet.  Includes design, integration, analysis, technology development, software support, and testing of radar distribution systems and equipment. Also includes all the capabilities, functions, components, and elements required to acquire, develop, systems engineer, and test for the radar distribution systems and equipment from conception through their lifetime as well as adapting and transitioning new technologies and advanced capabilities to meet changing requirements.  Provide in-service engineering (ISE) and integrated logistics support (ILS) of radar distribution systems and equipment during all phases of the system life cycle. Develop system requirements and specifications.  Provide systems engineering and analysis to support the full integration of radar distribution system elements.  Analyze Fleet system integration problems and failures to provide engineering and logistic solutions. Provide equipment restoration and commercial off-the-shelf (COTS) material support including COTS obsolescence management.

DD38 Joint Command and Control Systems Integration and Architecture Development

Provide developmental support and integration of Joint and Coalition systems.  This technical capability provides systems engineering for development and evaluation of warfighter operational requirements, integration of technology with superior and subordinate system structures, and identification and development of next-generation technology including prototype assessment and rapidly fielding of new technology.  Additionally, this capability provides full life cycle support as an engineering agent including on-site support at combatant commands, software support activities, and engineering required to address technology obsolescence.  Joint Task Force (JTF) and Joint Force Maritime Component Commander (JFMCC) architectural frameworks are decomposed to identify and correct specific domain shortfalls in capability, interoperability, and integration.  Provides Joint warfighter command and control capability across the Doctrine, organization, training, materiel, leadership, personnel, and facility (DOTMLPF) spectrum.