Methods which have been proposed to improve the navigation accuracy for the low-thrust space vehicle include modifications to the standard Sequential- and Batch-type orbit determination procedures and the use of inertial measuring units (IMU) which measures directly the acceleration applied to the vehicle. The navigation accuracy obtained using one of the more promising modifications to the orbit determination procedures is compared with a combined IMU-Standard. The unknown accelerations are approximated as both first-order and second-order Gauss-Markov processes. The comparison is based on numerical results obtained in a study of the navigation requirements of a numerically simulated 152-day low-thrust mission to the asteroid Eros. The res...
Design of flight trajectories for missions employing solar electric propulsion requires a suitably h...
As cislunar and outer space exploration regains worldwide popularity, the low-thrust spacecraft tech...
Spacecraft navigation and control is difficult in deep space operations. Especially around asteroids...
Orbit of a spacecraft in three dimensional Inertial Reference Frame is in general represe...
Motivated by the upcoming launch of the solar electric propulsion mission New Millennium Deep Space ...
Recent interest at NASA for the application of solar electric propulsion for the transfer of signifi...
This dissertation evaluates a navigation system using satellite observations from a star tracker tig...
An interplanetary low-thrust, solar electric propulsion mission simulation program suitable for navi...
Earth-based orbit determination capability for SEP spacecraft in multistation tracking and in thrust...
This paper presents a navigation strategy to fly to the Moon along a Weak Stability Boundary transfe...
Abstract: We consider the interplanetary flight of a spacecraft with low-thrust engines (L...
Error analysis of celestial-inertial navigation for low thrust electrically propelled interplanetary...
Recent advances in spaceborne GPS technology have shown significant advantages in many aspects over ...
Precision attitude determination for recent and planned space missions typically includes quaternion...
Before humanity can safely venture away from their terrestrial roots, robotic probes will be require...
Design of flight trajectories for missions employing solar electric propulsion requires a suitably h...
As cislunar and outer space exploration regains worldwide popularity, the low-thrust spacecraft tech...
Spacecraft navigation and control is difficult in deep space operations. Especially around asteroids...
Orbit of a spacecraft in three dimensional Inertial Reference Frame is in general represe...
Motivated by the upcoming launch of the solar electric propulsion mission New Millennium Deep Space ...
Recent interest at NASA for the application of solar electric propulsion for the transfer of signifi...
This dissertation evaluates a navigation system using satellite observations from a star tracker tig...
An interplanetary low-thrust, solar electric propulsion mission simulation program suitable for navi...
Earth-based orbit determination capability for SEP spacecraft in multistation tracking and in thrust...
This paper presents a navigation strategy to fly to the Moon along a Weak Stability Boundary transfe...
Abstract: We consider the interplanetary flight of a spacecraft with low-thrust engines (L...
Error analysis of celestial-inertial navigation for low thrust electrically propelled interplanetary...
Recent advances in spaceborne GPS technology have shown significant advantages in many aspects over ...
Precision attitude determination for recent and planned space missions typically includes quaternion...
Before humanity can safely venture away from their terrestrial roots, robotic probes will be require...
Design of flight trajectories for missions employing solar electric propulsion requires a suitably h...
As cislunar and outer space exploration regains worldwide popularity, the low-thrust spacecraft tech...
Spacecraft navigation and control is difficult in deep space operations. Especially around asteroids...