Add to ORKGThe Magnetospheric MultiScale (MMS) mission employs a formation of spinning spacecraft with several flexible appendages and thruster-based control. To understand the complex dynamic interaction of thruster actuation, appendage motion, and spin dynamics, each spacecraft is modeled as a tree of rigid bodies connected by spherical or gimballed joints. The method presented facilitates assembling by inspection the exact, nonlinear dynamic equations of motion for a multibody spacecraft suitable for solution by numerical integration. The building block equations are derived by applying Newton's and Euler's equations of motion to an "element" consisting of two bodies and one joint (spherical and gimballed joints are considered separately). Patterns...
Recently, the interest of the space agencies in missions involving the soft-landing of a spacecraft...
Recently, the interest of the space agencies in missions involving the soft-landing of a spacecraft...
Recently, the interest of the space agencies in missions involving the soft-landing of a spacecraft...
We present here a method and some tools developed to build linear models of multi-body systems for s...
Multibody dynamics for space applications is dictated by space environment such as space-varying gra...
We present here a method and some tools developed to build linear models of multi-body systems for s...
In the past the deployment of space structures has widely been analysed by using multibody formulati...
A computational procedure suitable for the solution of equations of motion for multibody systems is ...
A relatively general formulation for the governing equations of motion, applicable to a large class ...
In order to simulate the behavior of a space multibody system, the paper shows the possibility of sh...
In order to simulate the behavior of a space multibody system, the paper shows the possibility of sh...
A brief description is presented of a canonical set of equations which governs the behavior of an n-...
The equation of motion of a multibody system, described here as a chain of rigid bars and revolute j...
Recently, the interest of the space agencies in missions involving the soft-landing of a spacecraft...
The simulation of spacecraft attitude dynamics and control using the generic, multi-body code called...
Recently, the interest of the space agencies in missions involving the soft-landing of a spacecraft...
Recently, the interest of the space agencies in missions involving the soft-landing of a spacecraft...
Recently, the interest of the space agencies in missions involving the soft-landing of a spacecraft...
We present here a method and some tools developed to build linear models of multi-body systems for s...
Multibody dynamics for space applications is dictated by space environment such as space-varying gra...
We present here a method and some tools developed to build linear models of multi-body systems for s...
In the past the deployment of space structures has widely been analysed by using multibody formulati...
A computational procedure suitable for the solution of equations of motion for multibody systems is ...
A relatively general formulation for the governing equations of motion, applicable to a large class ...
In order to simulate the behavior of a space multibody system, the paper shows the possibility of sh...
In order to simulate the behavior of a space multibody system, the paper shows the possibility of sh...
A brief description is presented of a canonical set of equations which governs the behavior of an n-...
The equation of motion of a multibody system, described here as a chain of rigid bars and revolute j...
Recently, the interest of the space agencies in missions involving the soft-landing of a spacecraft...
The simulation of spacecraft attitude dynamics and control using the generic, multi-body code called...
Recently, the interest of the space agencies in missions involving the soft-landing of a spacecraft...
Recently, the interest of the space agencies in missions involving the soft-landing of a spacecraft...
Recently, the interest of the space agencies in missions involving the soft-landing of a spacecraft...