Recently emerging methodology for optimal design of aircraft treated as a system of interacting physical phenomena and parts is examined. The methodology is found to coalesce into methods for hierarchic, non-hierarchic, and hybrid systems all dependent on sensitivity analysis. A separate category of methods has also evolved independent of sensitivity analysis, hence suitable for discrete problems. References and numerical applications are cited. Massively parallel computer processing is seen as enabling technology for practical implementation of the methodology
The efficient design of aircraft structure involves a series of compromises among various engineerin...
Efficient analytical and computational tools for simultaneous optimal design of the structural and c...
This research combines the disciplines of system-of-systems (SoS) modeling, platform-based design, o...
Mutual couplings among the mathematical models of physical phenomena and parts of a system such as a...
Optimization by decomposition, complex system sensitivity analysis, and a rapid growth of disciplina...
A new, non-hierarchic decomposition is formulated for system optimization that uses system analysis,...
The currently common sequential design process for engineering systems is likely to lead to suboptim...
A general algorithm is proposed which carries out the design process iteratively, starting at the to...
Actual design turn-around time has become shorter due to the use of optimization techniques which ha...
This paper documents an approach to conceptual and preliminary aircraft design in which system synth...
This paper presents an approach to multi-disciplinary optimization (MDO) of transport aircraft devel...
The approach to carrying out multi-discipline aerospace design studies in the future, especially in ...
This paper describes a research program aimed at improved methods for multidisciplinary design and o...
A unified overview is given of problem formulation approaches for the optimization of multidisciplin...
Cybermatrix is a novel approach to aircraft design through multidisciplinary optimization, developed...
The efficient design of aircraft structure involves a series of compromises among various engineerin...
Efficient analytical and computational tools for simultaneous optimal design of the structural and c...
This research combines the disciplines of system-of-systems (SoS) modeling, platform-based design, o...
Mutual couplings among the mathematical models of physical phenomena and parts of a system such as a...
Optimization by decomposition, complex system sensitivity analysis, and a rapid growth of disciplina...
A new, non-hierarchic decomposition is formulated for system optimization that uses system analysis,...
The currently common sequential design process for engineering systems is likely to lead to suboptim...
A general algorithm is proposed which carries out the design process iteratively, starting at the to...
Actual design turn-around time has become shorter due to the use of optimization techniques which ha...
This paper documents an approach to conceptual and preliminary aircraft design in which system synth...
This paper presents an approach to multi-disciplinary optimization (MDO) of transport aircraft devel...
The approach to carrying out multi-discipline aerospace design studies in the future, especially in ...
This paper describes a research program aimed at improved methods for multidisciplinary design and o...
A unified overview is given of problem formulation approaches for the optimization of multidisciplin...
Cybermatrix is a novel approach to aircraft design through multidisciplinary optimization, developed...
The efficient design of aircraft structure involves a series of compromises among various engineerin...
Efficient analytical and computational tools for simultaneous optimal design of the structural and c...
This research combines the disciplines of system-of-systems (SoS) modeling, platform-based design, o...