Add to ORKGThis document describes the trajectory and atmosphere reconstruction of the Mars Phoenix Entry, Descent, and Landing using the New Statistical Trajectory Estimation Program. The approach utilizes a Kalman filter to blend inertial measurement unit data with initial conditions and radar altimetry to obtain the inertial trajectory of the entry vehicle. The nominal aerodynamic database is then used in combination with the sensed accelerations to obtain estimates of the atmosphere-relative state. The reconstructed atmosphere pro le is then blended with pre-flight models to construct an estimate of the as-flown atmosphere
The Mars Phoenix Lander mission was launched on August 4th, 2007. To land safely at the desired land...
The Lander Trajectory Reconstruction (LTR) computer program is a tool for analysis of the planetary ...
Several international missions scheduled for years 2011--2013 have as objective a Mars surface sampl...
The Mars Entry Atmospheric Data System is a part of the Mars Science Laboratory, Entry, Descent, and...
This paper develops an atmospheric state estimator based on inertial acceleration and angular rate m...
The Mars Phoenix lander was launched August 4, 2007 and remained in cruise for ten months before lan...
There is significant uncertainty in our knowledge of the Martian atmosphere and the aerodynamics of ...
The reconstruction of entry, descent and landing (EDL) trajectories is significantly affected by the...
A method is introduced to consider flush air data system (FADS) pressures using a technique based on...
The Mars Phoenix lander was launched August 4, 2007 and remained in cruise for ten months before lan...
Accelerometers are regularly flown on atmosphere-entering spacecraft. Using their measurements, the ...
This paper describes an algorithm for atmospheric state estimation that is based on a coupling betwe...
Accelerometers are regularly own on atmosphere-entering spacecraft. Using their measurements, the sp...
This presentation was part of the session : Ongoing and Proposed EDL Technology DevelopmentSixth Int...
The 2007 Mars Phoenix Lander was launched in August of 2007 on a ten month cruise to reach the north...
The Mars Phoenix Lander mission was launched on August 4th, 2007. To land safely at the desired land...
The Lander Trajectory Reconstruction (LTR) computer program is a tool for analysis of the planetary ...
Several international missions scheduled for years 2011--2013 have as objective a Mars surface sampl...
The Mars Entry Atmospheric Data System is a part of the Mars Science Laboratory, Entry, Descent, and...
This paper develops an atmospheric state estimator based on inertial acceleration and angular rate m...
The Mars Phoenix lander was launched August 4, 2007 and remained in cruise for ten months before lan...
There is significant uncertainty in our knowledge of the Martian atmosphere and the aerodynamics of ...
The reconstruction of entry, descent and landing (EDL) trajectories is significantly affected by the...
A method is introduced to consider flush air data system (FADS) pressures using a technique based on...
The Mars Phoenix lander was launched August 4, 2007 and remained in cruise for ten months before lan...
Accelerometers are regularly flown on atmosphere-entering spacecraft. Using their measurements, the ...
This paper describes an algorithm for atmospheric state estimation that is based on a coupling betwe...
Accelerometers are regularly own on atmosphere-entering spacecraft. Using their measurements, the sp...
This presentation was part of the session : Ongoing and Proposed EDL Technology DevelopmentSixth Int...
The 2007 Mars Phoenix Lander was launched in August of 2007 on a ten month cruise to reach the north...
The Mars Phoenix Lander mission was launched on August 4th, 2007. To land safely at the desired land...
The Lander Trajectory Reconstruction (LTR) computer program is a tool for analysis of the planetary ...
Several international missions scheduled for years 2011--2013 have as objective a Mars surface sampl...