1 / 15

Joint Navigation Warfare Center’s Common Operating Environment

Joint Navigation Warfare Center’s Common Operating Environment. AGI UC – Oct 11 th , 2005. bad. HDOP. good. Purpose. Describe and Demonstrate the JNWC’s Common Operating Environment. Measures of Performance S/N, Availability, Coverage Measures of Effectiveness CEP, TLE, Range Errors.

aletta
Download Presentation

Joint Navigation Warfare Center’s Common Operating Environment

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Joint Navigation Warfare Center’s Common Operating Environment AGI UC – Oct 11th, 2005

  2. bad HDOP good Purpose Describe and Demonstrate the JNWC’s Common Operating Environment • Measures of Performance • S/N, Availability, Coverage • Measures of Effectiveness • CEP, TLE, Range Errors NCOE Prediction analysis & Performance assessment

  3. Outline • Problem • Description of Needs • Pre-flight • Real-time • Post-test • Demonstration

  4. Problem JNWC needs a tool that is… • Easy to use (Reading in data, processing results) • High Fidelity (Yields accurate predictions) • Eye Pleasing (You can “see” what is happening) • Common among all users (Repeatable results) • Built to support all phases (Preflight, Real-time, Post) • Built to support all missions (EA, ES, and EP)

  5. Needs – Pre-flight • Perform Preflight prediction analysis • Mission Planning (Jammers / Routes placement) • Power Levels • Assets in view • J/S contour • Predicted Nav solution PFPS PFPS

  6. Needs – Real-time • Provide Real-time Situational Awareness • Data streaming from TSPI, TIBS, FAA, Comm links • Positions, Collected data, performance data • Projected data calculated via models • Power levels, In-view analysis, theoretical performance 3-D Situational Awareness Quick Look Analysis Data Feeds Models Bird’s Eye view of the test Data – Strip Charts

  7. Needs – Post-test • Perform Post Test analysis • Comparison results / analysis • Truth (TSPI) versus Measured (calculated) • Predicted (models) versus Measured (calculated) • Points of Interest Drill Down • Vulnerability Assessments / TTP development / Reports

  8. Total RF (dBW) -133.2 R/S (dB) 34 J/S (dB 67 Nav Error (m) 34.52 Azimuth (deg) 98.28 Elevation (deg) 11.34 Started from… Color coded (FOM) Position (actual) Jammer Gains and Coverage FOM data Tracking Vectors (Colored C/N) Total RF power Nav Error Instant Nav Error over time Each Jammer power

  9. Description of NCOE - AOI • 4DX Application • User Friendly • Built to task Start with AOI

  10. Description of NCOE - Time • Time dependant • 1 sec time step • GMT standard Next enter Time

  11. Description of NCOE - Tasks • Tasks chosen by JNWC for JNWC • Task to Results • Input data Tasks

  12. Description of NCOE - Data • External data wizard • Import data smoothly • No specific input format needed Collected data

  13. Description of NCOE - Jammers • Jammer data entry • Types and locations • Database included Jammer data

  14. Description of NCOE - Platforms • Platform data entry • Types and equipment • Database included Platform data

  15. Description of NCOE - Finished • Collected Data • Truth • Measured • Predicted Data • Analysis Tool 4D Interactive Display

More Related