Add to ORKGThe laboratory simulation of a scaled single-axis dual-level control system for a large space telescope is demonstrated. The dual-level control system consists of a coarse-body-pointing system and a fine-pointing system, which uses an image motion compensator, an image dissector tube, and digital electronics. The results of the simulation indicate that the dual-level system can be used to provide tracking capability within one-tenth of a diffraction-limited image diameter of a 3-meter f/100 telescope for stars up to a 12.3 visual magnitude.Prepared at Langley Research Center.Cover title.Includes bibliographical references (p. 10).The laboratory simulation of a scaled single-axis dual-level control system for a large space telescope is demon...
Abstract: Pointing calibration is an offline correction applied in order to obtain the true pointing...
Abstract. The Large Binocular Telescope (LBT) consists of two 8.4-meter mirrors on a common mount. T...
We develop an original system for controlling the mirror geometry of the Millimetron observatory as ...
The laboratory simulation of a scaled single-axis dual-level control system for a large space telesc...
One of the most significant problems associated with the development of large orbiting astronomical ...
"Computer-simulation results are presented for the rigid-body planar equations of motion of an attit...
A pointing control system is developed and tested for a flying gimbaled telescope. The two-axis poin...
Scaling technique for air bearing simulation of precision pointing system for large telescop
The Space Telescope pointing control system is designed to meet the fine pointing performance of 0.0...
The use of computer technology to control large pointing systems can significantly improve performa...
The pointing capability of a double gimbal experiment isolation and control system of the Apollo tel...
Extremely accurate Line Of Sight (LOS) control of a Pointing Spacecraft (S/C) with respect a Target ...
We describe the details of telescope control system design for the 50/80 cm Schmidt telescope at the...
This paper describes the high precision Instrument Pointing Control System (PCS) for the Stellar Int...
Abstract: Pointing calibration is an offline correction applied in order to obtain the true pointing...
Abstract: Pointing calibration is an offline correction applied in order to obtain the true pointing...
Abstract. The Large Binocular Telescope (LBT) consists of two 8.4-meter mirrors on a common mount. T...
We develop an original system for controlling the mirror geometry of the Millimetron observatory as ...
The laboratory simulation of a scaled single-axis dual-level control system for a large space telesc...
One of the most significant problems associated with the development of large orbiting astronomical ...
"Computer-simulation results are presented for the rigid-body planar equations of motion of an attit...
A pointing control system is developed and tested for a flying gimbaled telescope. The two-axis poin...
Scaling technique for air bearing simulation of precision pointing system for large telescop
The Space Telescope pointing control system is designed to meet the fine pointing performance of 0.0...
The use of computer technology to control large pointing systems can significantly improve performa...
The pointing capability of a double gimbal experiment isolation and control system of the Apollo tel...
Extremely accurate Line Of Sight (LOS) control of a Pointing Spacecraft (S/C) with respect a Target ...
We describe the details of telescope control system design for the 50/80 cm Schmidt telescope at the...
This paper describes the high precision Instrument Pointing Control System (PCS) for the Stellar Int...
Abstract: Pointing calibration is an offline correction applied in order to obtain the true pointing...
Abstract: Pointing calibration is an offline correction applied in order to obtain the true pointing...
Abstract. The Large Binocular Telescope (LBT) consists of two 8.4-meter mirrors on a common mount. T...
We develop an original system for controlling the mirror geometry of the Millimetron observatory as ...