Add to ORKGA simplified model of a pointing control system for balloon-borne solar experiments is chosen. Equations of motion for this model are derived and a feedback control law is defined. A digital computer simulation of the system is developed. Simulation results show favorable system response characteristics
"Computer-simulation results are presented for the rigid-body planar equations of motion of an attit...
The effect of wind gusts on the magnitude of the pendulation angles of a balloon-borne observation p...
A mathematical model was developed of the three-dimensional dynamics of a high-altitude scientific r...
Many designs for utilizing stratospheric balloons as low-cost platforms on which to conduct space sc...
A control system has been designed to keep a balloon-borne scientific instrument pointed toward a ce...
The research reported in this paper examined the design and control of a gimbal for solar eclipse tr...
The annular suspension and pointing system (ASPS) a payload auxiliary pointing device of the space s...
This paper addresses the lack of a general methodology for the controller synthesis of an optical in...
This paper addresses the lack of a general methodology for the controller synthesis of an optical in...
This paper addresses the lack of a general methodology for the controller synthesis of an optical in...
This presentation was part of the session : Short CoursesSixth International Planetary Probe Worksho...
The development of a three axis stabilized balloon platform capable of being operated in three modes...
A closed loop system reduces pointing errors in one or more spacecraft instruments. Associated with ...
The pointing and control of experiments during sortie missions are examined from the standpoint of a...
A 1-meter balloon-borne telescope has been constructed and flown to observe far-infrared radiation f...
"Computer-simulation results are presented for the rigid-body planar equations of motion of an attit...
The effect of wind gusts on the magnitude of the pendulation angles of a balloon-borne observation p...
A mathematical model was developed of the three-dimensional dynamics of a high-altitude scientific r...
Many designs for utilizing stratospheric balloons as low-cost platforms on which to conduct space sc...
A control system has been designed to keep a balloon-borne scientific instrument pointed toward a ce...
The research reported in this paper examined the design and control of a gimbal for solar eclipse tr...
The annular suspension and pointing system (ASPS) a payload auxiliary pointing device of the space s...
This paper addresses the lack of a general methodology for the controller synthesis of an optical in...
This paper addresses the lack of a general methodology for the controller synthesis of an optical in...
This paper addresses the lack of a general methodology for the controller synthesis of an optical in...
This presentation was part of the session : Short CoursesSixth International Planetary Probe Worksho...
The development of a three axis stabilized balloon platform capable of being operated in three modes...
A closed loop system reduces pointing errors in one or more spacecraft instruments. Associated with ...
The pointing and control of experiments during sortie missions are examined from the standpoint of a...
A 1-meter balloon-borne telescope has been constructed and flown to observe far-infrared radiation f...
"Computer-simulation results are presented for the rigid-body planar equations of motion of an attit...
The effect of wind gusts on the magnitude of the pendulation angles of a balloon-borne observation p...
A mathematical model was developed of the three-dimensional dynamics of a high-altitude scientific r...