Standards Development

Abstract

This project provides for the identification, study, design, development, demonstration, test, evaluation, and qualification of standard avionics capabilities for Navy use, and wherever practicable, use across all Services and Foreign Military Sales. Such air combat electronics developments include communications and airborne networking, navigation and sensors, flight avionics, safety systems, and flight mission information systems for both forward fit and retrofit aircraft. These efforts continue to maintain federated systems while encouraging transition of procurements to support a modular system for enhanced performance and affordability. Consideration is given up front to reduce acquisition costs through larger procurement quantities that satisfy multi-aircraft customer requirements and that reduce life cycle costs in the areas of reliability, maintainability, and training. This project also provides a Navy-wide program to develop required calibration standards (hardware) in all major measurement technology areas in support of Navy Hull, Mechanical and Electrical (HM&E) systems as well as Navy Weapons systems, ground and air, throughout the Fleet. It funds Navy lead-service responsibilities in the Department of Defense and Joint Services Metrology Research and Development program. This project supports the military requirement to verify the performance of all test systems used to validate the operation of HM&E as well as Navy Weapon Systems with calibration standards traceable to the National Institute of Standards and Technology. JUSTIFICATION FOR BUDGET ACTIVITY: ($1.424) Continue development of (1) calibration hardware standard in electrical/electronic measurement technology to support combat/operational readiness for submarine periscopes magnetic locks and aircraft tail hook non-destructive testing. Begin Development of (1) Coaxial Microcalorimeter Power calibration standards in support of Navy's ability to detect adversarial threats and to counteract adversarial electronic countermeasures. ($1.066) Continue development of (1) Multi-mode calibration hardware standards in electro optical measurement technology to support shipboard readiness of weapon system communication to missile launch systems, combat Flight operations and ground combat operations. Continue development of (1) high energy measurement technology standards in support of combat and operational readiness, Begin development of (1) Low Level Pulsed standard to support laser designators and rangefinders equipment remain in a ready and operational state. ($1.058) Continue development of (2) calibration hardware standard in Chemical/Biological technology for measuring residual solvent vapors in support of Divers Life Support Systems (DLSS) and Two Solvent Cleaning Capability in support of flight safety, shipboard safety, operational readiness, and CFC-113 Freon removal (treaty compliance). ($.423) Continue development of (1) measurement Uncertainty Automation phase II in support of Component Equipment Operational Readiness. ($.247) Begin development (1) calibration standard in physical mechanical measurement technology to support submarine shipboard safety and sea-based operations. ($1.009) Continue development of (1) calibration hardware standard in electrical/electronic measurement technology to support combat/operational readiness for submarine periscopes magnetic locks and aircraft tail hook non-destructive testing. Continue development of (1) Coaxial Microcalorimeter Powercalibration standards in support of Navy's ability to detect adversarial threats and to counteract adversarial electronic countermeasures. Begin development of (1) calibration standards to provide real time In-situ cost effective Calibration Test Measurement Diagnostic Equipment (TMDE) support with Zero Chain Traceability. ($.658) Continue development of (2) calibration hardware standard in Chemical/Biological technology for measuring Residual Solvent Vapors in support of Divers Life Support Systems (DLSS). Start development of (1) Biodetector (bio-aerosol detector) Calibration standard in support of Combat and shipboard operational readiness for bio threat detection ($.658) Begin development of (1) calibration hardware standard in Microwave/millimeter-wave technology in support of Vector Network Analyzers to test and repair Weapon Replaceable Assemblies (WRAs) for F-18/P-3/EP-3-E2C/D, EA-6B and P8 aircraft. ($.207) Continue development (1) calibration standard in physical mechanical measurement technology to support submarine shipboard safety and sea-based operations. ($.946) Begin development of (1) calibration hardware standards in electro optical measurement technology to support Night Vision Telescope Auto Focus Capability to support Safety of Flight and combat operations. Continue development of (1) Multi-mode calibration hardware standards in electro optical (Multi-mode) measurement technology to support shipboard readiness of weapon system communication to missile launch systems, combat Flight operations and ground combat operations. Continue development of (1) Low Level Pulsed standard to support laser designators and rangefinders equipment remain in a ready and operational state. ($.810) Begin development of (2) calibration standards in analytical and benchtop metrology focusing in support of metrology benchtop automated physical mechanical calibration methods support equipment operational readiness for both for shore, air and sea-based operations. Continue development of (1) measurement Uncertainty Automation phase III in support of Component Equipment Operational Readiness. The 190K decrease from FY21 to FY22 will be applied to the Zero Chain Traceabilty capability development. This will push out and delay the new start development effort of this project. The Navy Metrology program has a requirement to modernize and produce an "out of the lab to direct user" capability to perform precise measurements and equip our ships with improved reliable offensive weapon system performances, sensors, and hard kill/soft kill capabilities that will contribute to the Navy's goal of Distributed Lethality. The National Institute of Standards and Technology (NIST) proposed NIST On A Chip (NOAC) Zero Chain Traceability effort reaches across the entire Joint service metrology requirements to provide intrinsic quantum-based measurement technologies with direct SI Traceable measurement built into calibration instruments and test measurement systems. This capability ensures equipment measurement performance in-situ will increase readiness and reduce costs. This is a multi-year effort that reaches across several FYDP POM cycles.

Document Details

Document Type

R2 Budgetary Justification

Publication Date

Oct 01, 2022

Source ID

0604215N_5_1319_PB_2022

Change Summary Explanation

The FY 2022 funding request was reduced by $.109 million to account for the availability of prior year execution balances. 0572: Tactical Communications: Title corrected from Joint Precision Approach Landing System Software (S/W) Integration to Operation Flight Plan S/W Integration. Ground Proximity Warning Systems/Terrain Awareness Warning System (GPWS/TAWS II): H-60 TAWS II Software Development extended duration from 4Q/15 through 4Q/16 based on projected platform integration schedule. Military Flight Quality Assurance: Test and Evaluation, MH-53R/S, M/CH-53E, AH-1Z, UH-1Y, Phase 2 Test extended from 3Q/15 to 4Q/15 due to longer testing required for a number of defects found. Phase 2 Test Readiness Review moved from 1Q/15 to 3Q/15 due to integration test took longer than planned due to number of defects found. Deliveries for H-60R/S, CH-53E, AH-1Z and UH-1Y reflect new date of 2Q/15 to align with F/A-18 procurement order. Mid Air Collision Avoidance Capability: Re-planned FY16-FY21 program as a result of the Business Case Analysis to properly aligned program. Material Development Decision/Acquisition Strategy Review (MDD/ASR) moved from 2Q/16 to 1Q/17. Added Capability Development Document (CDD) Draft added in 4Q16. Added Requirements Development from 1Q/16 to 4Q/16. Starting in FY17 the JT Service/NV Std Avionics CP/SB (PU 0572) PE (0604215N) moved to a new Common Avionics PE (0605217N). 2311: WASP V4.0 Systems Development start was delayed from 4Q16 to 2017 and will be displayed under PE 0605215N. WASP V3.2 IOC was delayed from 1Q16 to 3Q16 due to the asynchronous release process and requirement for a new build prior to IOC. FY17 and out schedule is included in the Mission Planning PE 0605215N. 2312: Common Helicopters schedule FY17 and out is included in Mission Planning PE 0605215N.

Service Agency Name

Navy

Entities

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