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White Paper: Contribution of Physical Layer Uncertainties To Directed Energy Applications
The objective of this paper is to quantify the influences of air and space borne platform related uncertainties upon directed energy applications.
Read MoreWhite Paper: Coordinate Effects On The Use Of Orbit Error Uncertainty
The goals of the following analyses are to demonstrate the effect of using different coordinates to represent uncertainty.
Read MoreWhite Paper: GNSS Performance Possibilities
This paper describes the possibilities of Global Navigation Satellite Systems (GNSS) Performance
Read MoreWhite Paper: How the Space Data Center Is Improving Safety of Space Operations
This paper will address how the SDC will use a service-oriented architecture (SOA) to support orbital operations.
Read MoreWhite Paper: Model Based Systems Engineering (MBSE) Applied to Radio Aurora Explorer (RAX) CubeSat Mission Operational Scenarios
This paper describes the MBSE applied to the RAX CubeSat during operational scenarios.
Read MoreWhite Paper: Multi-Phenomenology Observation Network Evaluation Tool (MONET)
This paper describes the multi-phenomenology observation network evaluation tool.
Read MoreTechnical analysis of commercially hosted optical payloads for enhanced SSA
This paper describes technical analysis of commercially hosted optical payloads for enhanced SSA.
Read MoreWhite Paper: The IAU 2000a And IAU 2006 Precession-Nutation Theories And Their Implementation
This paper describes the IAU 2000a and IAU 2006 precession-nutation theories and their implementation
Read MoreWhite Paper: Verifying Observational Data For Real-World Space Situational Awareness
This paper describes the processes for the routine OD evaluations including the activities required to assemble and process the data.
Read MoreSimulations with SystemVue and STK Improves Test Effectiveness
Agilent Technologies Reduces Flight Testing with AGI
Read MoreWhite Paper: A Description Of Filters For Minimizing The Time Required For Orbital Conjunction Computations
The identification of potentially dangerous conjunctions is most commonly done by determining periods of time when objects have the risk of collision
Read MoreAirborne Launch Control System (ALCS) Made Far More Effective with STK
JFCC Global Strike Improves Reliability, Achieves Integration Goals
Read MoreDefence Research and Development Canada Plans Satellite Imagery Acquisition in STK
Managing Eyes in the Sky with STK.
Read MoreAGI Software supports JAXA’s Kaguya Mission
Ambitious Inquiry into the Moon’s Evolution Relies on AGI’s STK & Astrogator Products
Read MoreSTK Integrates with Legacy systems for Streamlined Results
RAF Fylingdales Facility Improves Space Situational Awareness with STK Engine
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