Add to ORKGLANDER is a computer program used to predict the trajectory and flight performance of a spacecraft ascending or descending between a low lunar orbit of 15 to 500 nautical miles (nm) and the lunar surface. It is a three degree-of-freedom simulation which is used to analyze the translational motion of the vehicle during descent. Attitude dynamics and rotational motion are not considered. The program can be used to simulate either an ascent from the Moon or a descent to the Moon. For an ascent, the spacecraft is initialized at the lunar surface and accelerates vertically away from the ground at full thrust. When the local velocity becomes 30 ft/s, the vehicle turns downrange with a pitch-over maneuver and proceeds to fly a gravity turn until M...
Piloted simulator investigation of lightweight vehicles for emergency lunar escape to orbit with kin...
A piloted simulation that studied the handling qualities for a precision lunar landing task from fin...
This report deals with the design of a complete guidance, navigation and control system for a planet...
In recent years, NASA has indicated a desire to return humans to the moon. With NASA planning manned...
Simulator study of pilot control over lunar module during ascent from lunar surfac
During the entry phase of a human lunar mission, an entry guidance algorithm is used to safely steer...
textA navigation system for precision lunar descent and landing is presented and analyzed. The navig...
Trajectory requirements for terminal lunar landing from analog simulation of spacecraf
The NASA Lander Technology project is leading the development and integration of the Lunar Pallet La...
Visual simulation of lunar orbit establishment using simplified guidance techniqu
With the current push to send landers back to the moon, properly modeling the thermal environment fo...
The PLANECNG computer program calculates velocities for Earth-to-Mooon and Moon-to-Earth trajectorie...
A piloted simulation that studied the handling qualities for a precision lunar landing task from fin...
A 3-dimensional advanced guidance scheme is necessary to perform a successful precise lunar landing ...
The Altair Lunar Lander is the linchpin in the Constellation Program (CxP) for human return to the M...
Piloted simulator investigation of lightweight vehicles for emergency lunar escape to orbit with kin...
A piloted simulation that studied the handling qualities for a precision lunar landing task from fin...
This report deals with the design of a complete guidance, navigation and control system for a planet...
In recent years, NASA has indicated a desire to return humans to the moon. With NASA planning manned...
Simulator study of pilot control over lunar module during ascent from lunar surfac
During the entry phase of a human lunar mission, an entry guidance algorithm is used to safely steer...
textA navigation system for precision lunar descent and landing is presented and analyzed. The navig...
Trajectory requirements for terminal lunar landing from analog simulation of spacecraf
The NASA Lander Technology project is leading the development and integration of the Lunar Pallet La...
Visual simulation of lunar orbit establishment using simplified guidance techniqu
With the current push to send landers back to the moon, properly modeling the thermal environment fo...
The PLANECNG computer program calculates velocities for Earth-to-Mooon and Moon-to-Earth trajectorie...
A piloted simulation that studied the handling qualities for a precision lunar landing task from fin...
A 3-dimensional advanced guidance scheme is necessary to perform a successful precise lunar landing ...
The Altair Lunar Lander is the linchpin in the Constellation Program (CxP) for human return to the M...
Piloted simulator investigation of lightweight vehicles for emergency lunar escape to orbit with kin...
A piloted simulation that studied the handling qualities for a precision lunar landing task from fin...
This report deals with the design of a complete guidance, navigation and control system for a planet...