Add to ORKGThis paper documents a mixed-fidelity approach for the design of low-boom supersonic aircraft with a focus on fuselage shaping.A low-boom configuration that is based on low-fidelity analysis is used as the baseline. The fuselage shape is modified iteratively to obtain a configuration with an equivalent-area distribution derived from computational fluid dynamics analysis that attempts to match a predetermined low-boom target area distribution and also yields a low-boom ground signature. The ground signature of the final configuration is calculated by using a state-of-the-art computational-fluid-dynamics-based boom analysis method that generates accurate midfield pressure distributions for propagation to the ground with ray tracing. The groun...
As interest in supersonic overland flight intensifies, new ways to meet government restrictions on s...
This paper introduces a supersonic aircraft design model developed in a multidisciplinary design ana...
This paper documents an integration of engine, plume, and computational fluid dynamics (CFD) analyse...
The conceptual design of a low-boom and low-drag supersonic aircraft remains a challenge despite sig...
A new low-boom target generation approach is presented which allows the introduction of a trim requi...
A method for designing conceptual supersonic cruise aircraft to meet low sonic boom requirements is ...
The objective of the sonic boom research in the current High Speed Research Program is to ultimately...
The practical use of high-fidelity multidisciplinary optimization techniques in lowboom supersonic b...
Presented at the 43rd Aerospace Sciences Meeting and Exhibit, Reno NV, Jan 10-13, 2005Sonic boom mod...
This paper presents an approach to shape an aircraft to equivalent area based objectives using the d...
Practical aircraft design for sonic boom minimization is a complex process that needs significant ma...
The Langley unitary plan unitary plan wind tunnel was used to determine the validity of a sonic-boom...
The primary objective of this work was to develop and demonstrate a process for accurate and efficie...
A procedure for designing a fuselage having a prescribed effective area distribution computed from -...
The detailed outer mold line shaping of a Mach 1.6, demonstrator-sized low-boom concept is presented...
As interest in supersonic overland flight intensifies, new ways to meet government restrictions on s...
This paper introduces a supersonic aircraft design model developed in a multidisciplinary design ana...
This paper documents an integration of engine, plume, and computational fluid dynamics (CFD) analyse...
The conceptual design of a low-boom and low-drag supersonic aircraft remains a challenge despite sig...
A new low-boom target generation approach is presented which allows the introduction of a trim requi...
A method for designing conceptual supersonic cruise aircraft to meet low sonic boom requirements is ...
The objective of the sonic boom research in the current High Speed Research Program is to ultimately...
The practical use of high-fidelity multidisciplinary optimization techniques in lowboom supersonic b...
Presented at the 43rd Aerospace Sciences Meeting and Exhibit, Reno NV, Jan 10-13, 2005Sonic boom mod...
This paper presents an approach to shape an aircraft to equivalent area based objectives using the d...
Practical aircraft design for sonic boom minimization is a complex process that needs significant ma...
The Langley unitary plan unitary plan wind tunnel was used to determine the validity of a sonic-boom...
The primary objective of this work was to develop and demonstrate a process for accurate and efficie...
A procedure for designing a fuselage having a prescribed effective area distribution computed from -...
The detailed outer mold line shaping of a Mach 1.6, demonstrator-sized low-boom concept is presented...
As interest in supersonic overland flight intensifies, new ways to meet government restrictions on s...
This paper introduces a supersonic aircraft design model developed in a multidisciplinary design ana...
This paper documents an integration of engine, plume, and computational fluid dynamics (CFD) analyse...