3 edition of An impact-location estimation algorithm for subsonic uninhabited aircraft found in the catalog.
An impact-location estimation algorithm for subsonic uninhabited aircraft
1997 by National Aeronautics and Space Administration, Dryden Flight Research Center, National Technical Information Service, distributor in Edwards, Calif, [Springfield, Va .
Written in English
|Other titles||Impact location estimation algorithm for subsonic uninhabited aircraft.|
|Statement||Jeffrey E. Bauer, Edward Teets.|
|Series||NASA/TM -- 97-206299., NASA technical memorandum -- 206299.|
|Contributions||Teets, Edward., NASA Dryden Flight Research Center.|
|The Physical Object|
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Impact-location estimation algorithm for subsonic uninhabited aircraft (OCoLC) Microfiche version: Bauer, Jeffrey E. An impact-location estimation algorithm for subsonic uninhabited aircraft book estimation algorithm for subsonic uninhabited aircraft (OCoLC) Material Type: Document, Government publication, National government publication, Internet resource: Document Type: Internet Resource.
Impact-location estimation algorithm for subsonic uninhabited aircraft (OCoLC) Online version: Bauer, Jeffrey E. Impact-location estimation algorithm for subsonic uninhabited aircraft (OCoLC) Material Type: Government publication, National government publication, Internet resource: Document Type: Book, Internet Resource.
Con ict resolution for air tra c management: A case study in multi-agent hybrid systems An Impact-Location Estimation Algorithm for Subsonic Uninhabited Aircraft.
The algorithm computes an. The Department of Transportation's (DOT or the Department) Federal Aviation Administration (FAA) amends its commercial space transportation licensing regulations to add licensing and An impact-location estimation algorithm for subsonic uninhabited aircraft book requirements for the operation of a launch site.
To date, commercial launches. The NPRM stated, for example, to address the issues raised, that the FAA derived the effective casualty areas in table C-3 from DAMP, a series of risk estimation computer programs used at federal launch ranges, to evaluate the vehicle classes described in table 1, section 64 FR at Main Crash Course-eBook--Aerospace Engineering - Free ebook download as PDF File .pdf), Text File .txt) or read book online for free.
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The Air Force SBIR Program Executive is. An aircraft handler performed engine start and prelaunch checks and assisted with launch operations.3 The ground control station (GCS) was a modified trailer containing a pilots control console with a ground-track/location monitor, head-up display showing video from two cameras mounted on the aircraft, and flight instruments.
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An. Full text of "DTIC ADA Department of Defense In-House RDT&E Activities. FY Management Analysis Report" See other formats. Comet rendezvous mission study. NASA Technical Reports Server (NTRS) Friedlander, A. L.; Wells, W. Four periodic comets with perihelia between and (Encke, d'Arrest, Kipff, and Halley) are used as candidates for the comet rendezvous mission study.
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参考文献 John Frate，Gray ino， Recent Flight Test Experience with Uninhabited Aerial Vehicles at the NASA Dryden Flight Research Center， NASA/TM， April Bauer，Jeffrey E. and Teets，Edward，An Impact-Location Estimation Algorithm for Subsonic Uninhabited Aircraft， NASA/TM，Nov Full text of "Space Debris Models And Risk Analysis" See other formats.