A research program into three aspects of space satellite dynamics was carried out. First, a four-dimensional space-time formulation of Newtonian mechanics is developed. This theory allows a new physical interpretation of the conservation theorems of mechanics first derived rigorously by Noether. Second, a new concept for estimating the three angles which specify the orientation in space of a rigid body is presented. Two separate methods for implementing this concept are discussed, one based on direction cosines, the other on quaternions. Two examples are discussed: constant orientation in space, and constant rate of change of the three angles with time. Third, two synchronous equatorial orbit communication satellite designs which use sunlig...
The influence of the major environmental forces on the attitude response of gravity gradient satelli...
Satellites in orbit are expected to maintain a preset attitude either pointing towards Earth (in cas...
In this paper we study planar orbit and attitude dynamics of an uncontrolled spacecraft taking on-bo...
This chapter will introduce the space environment satellites must operate in, the motion they make i...
The problems of spacecrafts with a solar sail-controlled motion lead to the study of mathematical mo...
Because of the current interest in: 1) Small inexpensive LEO satellites, 2) Small STS/SS tethered sa...
This paper investigates the attitude dynamics of a planar space solar power satellite (SSPS) by form...
Passive damping technique for attitude control of solar orientated interplanetary spacecraf
This book consists of two main parts main goal of the first part is to collect and develop new atti...
Abstract: The preprint is devoted to solar sail angle control algorithm development to nul...
This work extends the attitude dynamics and stability properties of the classical planar dumbbell pr...
This work investigates the orbital and attitude dynamics of future reconfigurable multi-panel solar ...
The thesis identifies several limitations in the modelling and attitude stability analysis of two cl...
The feasibility of utilizing the environmental forces for three-axis librational damping and attitud...
Large, flexible orbiting systems proposed for possible use in communications, electronic orbital bas...
The influence of the major environmental forces on the attitude response of gravity gradient satelli...
Satellites in orbit are expected to maintain a preset attitude either pointing towards Earth (in cas...
In this paper we study planar orbit and attitude dynamics of an uncontrolled spacecraft taking on-bo...
This chapter will introduce the space environment satellites must operate in, the motion they make i...
The problems of spacecrafts with a solar sail-controlled motion lead to the study of mathematical mo...
Because of the current interest in: 1) Small inexpensive LEO satellites, 2) Small STS/SS tethered sa...
This paper investigates the attitude dynamics of a planar space solar power satellite (SSPS) by form...
Passive damping technique for attitude control of solar orientated interplanetary spacecraf
This book consists of two main parts main goal of the first part is to collect and develop new atti...
Abstract: The preprint is devoted to solar sail angle control algorithm development to nul...
This work extends the attitude dynamics and stability properties of the classical planar dumbbell pr...
This work investigates the orbital and attitude dynamics of future reconfigurable multi-panel solar ...
The thesis identifies several limitations in the modelling and attitude stability analysis of two cl...
The feasibility of utilizing the environmental forces for three-axis librational damping and attitud...
Large, flexible orbiting systems proposed for possible use in communications, electronic orbital bas...
The influence of the major environmental forces on the attitude response of gravity gradient satelli...
Satellites in orbit are expected to maintain a preset attitude either pointing towards Earth (in cas...
In this paper we study planar orbit and attitude dynamics of an uncontrolled spacecraft taking on-bo...