Add to ORKGProbability of collision (P(sub c)) estimates for Earth-orbiting satellites typically assume a temporally-isolated conjunction event. However, under certain conditions two objects may experience multiple high-risk close approach events over the course of hours or days. In these repeating conjunction cases, the P(sub c) accumulates as each successive encounter occurs. The NASA Conjunction Assessment Risk Analysis team has updated its brute force Monte Carlo (BFMC) software to estimate such accumulating P(sub c) values for repeating conjunctions. This study describes the updated BFMC algorithm and discusses the implications for conjunction risk assessment
Three methods for the computation of the probability of collision between two space objects are pres...
Over 34,000 objects bigger than 10 cm in length are known to orbit Earth. Among them, only a small p...
Satellite conjunction assessment is perhaps the fastest-growing area in space situational awareness ...
Probability of collision (P(sub c)) estimates for Earth-orbiting satellites typically assume a tempo...
The NASA Conjunction Assessment Risk Analysis team has implemented new software to estimate the prob...
Satellite conjunction risk typically evaluated through the probability of collision (Pc). Considers ...
Collisions between Earth orbiting satellites and debris have been a topic of growing concern among s...
A simple model is proposed to predict the behavior of Probabilities of Collision (P(sub c)) for conj...
Two satellites predicted to come within close proximity of one another, usually a high-value satelli...
After decades of space travel, low Earth orbit is a junkyard of discarded rocket bodies, dead satell...
On-orbit collision risk is becoming an increasing mission risk to all operational satellites in Eart...
A high order method to quickly assess the effect that uncertainties produce on orbital conjunctions ...
This paper shows how satellite owner/operators may use sequential estimates of collision probability...
Published by Elsevier Ltd. All rights reserved.Three methods for the computation of the probability ...
Satellite conjunction assessment risk analysis is a subjective enterprise that can benefit from quan...
Three methods for the computation of the probability of collision between two space objects are pres...
Over 34,000 objects bigger than 10 cm in length are known to orbit Earth. Among them, only a small p...
Satellite conjunction assessment is perhaps the fastest-growing area in space situational awareness ...
Probability of collision (P(sub c)) estimates for Earth-orbiting satellites typically assume a tempo...
The NASA Conjunction Assessment Risk Analysis team has implemented new software to estimate the prob...
Satellite conjunction risk typically evaluated through the probability of collision (Pc). Considers ...
Collisions between Earth orbiting satellites and debris have been a topic of growing concern among s...
A simple model is proposed to predict the behavior of Probabilities of Collision (P(sub c)) for conj...
Two satellites predicted to come within close proximity of one another, usually a high-value satelli...
After decades of space travel, low Earth orbit is a junkyard of discarded rocket bodies, dead satell...
On-orbit collision risk is becoming an increasing mission risk to all operational satellites in Eart...
A high order method to quickly assess the effect that uncertainties produce on orbital conjunctions ...
This paper shows how satellite owner/operators may use sequential estimates of collision probability...
Published by Elsevier Ltd. All rights reserved.Three methods for the computation of the probability ...
Satellite conjunction assessment risk analysis is a subjective enterprise that can benefit from quan...
Three methods for the computation of the probability of collision between two space objects are pres...
Over 34,000 objects bigger than 10 cm in length are known to orbit Earth. Among them, only a small p...
Satellite conjunction assessment is perhaps the fastest-growing area in space situational awareness ...