For new reusable launch vehicles concepts, it becomes increasingly necessary to already assess relevant system dynamics and control system design aspects in early design phases. This is especially important when complex and difficult maneuvers like in-air-capturing for the return of launch vehicle stages are considered. This paper will focus on the key elements of the newly developed reusable launch vehicle multibody dynamics and control system design framework by demonstrating its capabilities for the simulation and analysis of flight dynamics aspects of the in-air-capturing maneuver as studied in the DLR project AKIRA
For the systematic assessment of future reusable launch vehicle concepts and key technologies, multi...
During primary phases of projects characteristics of systems evolve significantly requiring easy and...
The development of reusable launchers has increased significantly in recent years, mainly due to the...
Future concepts and key technologies for reusable launch vehicles are currently investigated by the ...
Future reusable launch vehicle concepts and their key technologies have been investigated within the...
Future launch vehicle concepts and technologies for expendable and reusable launch vehicles are curr...
Launch vehicle dynamics modeling is quite challenging mainly because of the highly interconnected di...
A few years ago, a new, innovative approach for the return of non-SSTO reusable space transportation...
In the past two decades, the renewed interest in sustainable space transportation has driven the dev...
This paper is mainly focused on a comparison between different autopilots for launch vehicles having...
This paper describes a novel optimisation-based framework for analysing the robustness of advanced f...
The multibody modeling and visualization of reusable launch vehicles is a challenging task due to th...
Launch vehicle dynamics modeling, simulation, and trajectory optimization within a single modeling t...
Reusing launch vehicle stages has the potential to reduce launch costs and is hence of high interest...
The recent success of reusable launchers has become a driving force for sustainable launch technolog...
For the systematic assessment of future reusable launch vehicle concepts and key technologies, multi...
During primary phases of projects characteristics of systems evolve significantly requiring easy and...
The development of reusable launchers has increased significantly in recent years, mainly due to the...
Future concepts and key technologies for reusable launch vehicles are currently investigated by the ...
Future reusable launch vehicle concepts and their key technologies have been investigated within the...
Future launch vehicle concepts and technologies for expendable and reusable launch vehicles are curr...
Launch vehicle dynamics modeling is quite challenging mainly because of the highly interconnected di...
A few years ago, a new, innovative approach for the return of non-SSTO reusable space transportation...
In the past two decades, the renewed interest in sustainable space transportation has driven the dev...
This paper is mainly focused on a comparison between different autopilots for launch vehicles having...
This paper describes a novel optimisation-based framework for analysing the robustness of advanced f...
The multibody modeling and visualization of reusable launch vehicles is a challenging task due to th...
Launch vehicle dynamics modeling, simulation, and trajectory optimization within a single modeling t...
Reusing launch vehicle stages has the potential to reduce launch costs and is hence of high interest...
The recent success of reusable launchers has become a driving force for sustainable launch technolog...
For the systematic assessment of future reusable launch vehicle concepts and key technologies, multi...
During primary phases of projects characteristics of systems evolve significantly requiring easy and...
The development of reusable launchers has increased significantly in recent years, mainly due to the...