This paper discusses the development of a multidisciplinary design optimization tool intended for battery powered aircraft. The test subject of the optimizations is a hybrid blended wing body, delta wing UAV. First, the optimization problem is presented with the objective function, constraints, and design vector. Next, we describe the tool's architecture and the analysis tools that are utilized..
ABSTRACT: An optimization strategy is constructed to solve the aerodynamic and structural optimizati...
This article presents the development and application of a high-fidelity simulation process chain fo...
Traditionally, the aircraft design process is divided into three phases: conceptual, preliminary and...
To design an advanced electric aircraft, a multi-disciplinary design approach is used. The results i...
This paper details a new software tool to aid in the conceptual design of blended-wingbody aircraft....
Increasing environmental concerns and fuel prices motivate the study of alternative, unconventional ...
The scope of wing optimization is to design a structure that meets all the airworthiness demands whi...
Multidisciplinary design optimizations have shown great benefits for aerospace applications in the p...
The quest for finding optimum solutions to engineering problems has existed for a long time. In the ...
Blended Wing Body (BWB) Aircraft has aroused a considerable interest as a potential candidate for fu...
Peer Reviewedhttps://deepblue.lib.umich.edu/bitstream/2027.42/140582/1/1.c032491.pd
The paper introduces a functional shape parametrization approach for the design and the optimization...
MAD Center Report 2005-05-01 Supported by the System Analysis Branch at NASA Langley Under Grant NAG...
If one considers the problem of converting an aircraft mission prole into an airframe design from an...
Continuous variation of the aircraft wing shape to improve aerodynamic performance over a wide range...
ABSTRACT: An optimization strategy is constructed to solve the aerodynamic and structural optimizati...
This article presents the development and application of a high-fidelity simulation process chain fo...
Traditionally, the aircraft design process is divided into three phases: conceptual, preliminary and...
To design an advanced electric aircraft, a multi-disciplinary design approach is used. The results i...
This paper details a new software tool to aid in the conceptual design of blended-wingbody aircraft....
Increasing environmental concerns and fuel prices motivate the study of alternative, unconventional ...
The scope of wing optimization is to design a structure that meets all the airworthiness demands whi...
Multidisciplinary design optimizations have shown great benefits for aerospace applications in the p...
The quest for finding optimum solutions to engineering problems has existed for a long time. In the ...
Blended Wing Body (BWB) Aircraft has aroused a considerable interest as a potential candidate for fu...
Peer Reviewedhttps://deepblue.lib.umich.edu/bitstream/2027.42/140582/1/1.c032491.pd
The paper introduces a functional shape parametrization approach for the design and the optimization...
MAD Center Report 2005-05-01 Supported by the System Analysis Branch at NASA Langley Under Grant NAG...
If one considers the problem of converting an aircraft mission prole into an airframe design from an...
Continuous variation of the aircraft wing shape to improve aerodynamic performance over a wide range...
ABSTRACT: An optimization strategy is constructed to solve the aerodynamic and structural optimizati...
This article presents the development and application of a high-fidelity simulation process chain fo...
Traditionally, the aircraft design process is divided into three phases: conceptual, preliminary and...