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White Paper: Multi-Phenomenology Observation Network Evaluation Tool (MONET)
This paper describes the multi-phenomenology observation network evaluation tool.
Read MoreWhite Paper: Orbital Covariance Interpolation
This paper describes orbital covariance interpolation.
Read MoreWhite Paper: Satellite Orbital Conjunction Reports Assessing Threatening Encounters In Space (SOCRATES)
This paper describes satellite orbital conjunction reports assessing threatening encounters in space.
Read MoreWhite Paper: Simulating Space Surveillance Networks
This paper describes how to simulate space surveillance networks
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 MoreTechnical Implementation of the Circular Restricted Three-Body Model in STK Astrogator
- Oct 21, 2020
- Dr. Cody Short
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White 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 MoreAnsys 2022 R2: Higher Fidelity Aircraft Mission Simulations
- Sep 28, 2022
- Event
Join Henry Vu, Lead Application Engineer, and Tom Neely, Senior Principal R&D Engineer, for a discussion on higher-fidelity aircraft mission...
Read MoreAnsys 2022 R2: ODTK and Deep Space Mission Planning, Surface Vehicle Positioning, and Satellite Deployment
- Oct 12, 2022
- Event
Join Dr. James Woodburn, Chief Orbital Scientist for Ansys, as he discusses the new ODTK features. Dr. Woodburn specializes in software development...
Read MoreWhite Paper: Some Directions In Spin-Axis Attitude
This paper describes some directions in spin-axis attitude.
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 MoreWhite Paper: Assessing Satellite Conjunctions For The Entire Space Catalog Using Multi-Core Processor Hardware
This paper presents results for the all-on-all conjunction assessment of 12,000 objects over both a 1 day and a 5 day analysis period.
Read MoreWhite Paper: Effects Of Cross Correlated Covariance On Spacecraft Collision Probability
This paper shows the effects of cross correlated covariance on spacecraft collision probability.
Read MoreWhite Paper: Evaluating Gooding Angles-only Orbit Determination of Space Based Space Surveillance Measurements
This paper shows how to evaluate the Gooding Angles using only Orbital Determination of space based space surveillance measurements.
Read MoreWhite Paper: Improved Conjunction Analysis via Collaborative Space Situational Awareness
This paper describes the improved conjunction analysis via collaborative SSA
Read MoreA survey of the methods available for the design of many-revolution low-thrust planetocentric trajectories.
- Pradipto Ghosh∗
The mission use of electric propulsion (EP) systems providing continuous, low thrust has steadily increased over the past several years. As EP...
Read MoreWhite Paper: Nonlinear Variable Lag Smoother
This paper describes the Nonlinear Variable Lag Smoother in ODTK
Read MoreWhite Paper: Orbit Determination For The Lunar Reconnaissance Orbiter Using An Extended Kalman Filter
This paper describes the orbit determination for the lunar reconnaissance orbiter using an extended kalman filter
Read MoreWhite Paper: Reducing software development cost, schedule and risk using AGI software
This paper describes how AGI software reduces software development costs scheduling and risk.
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