Analysis of the Boeing 747-100 using CEASIOM
Analysis of the Boeing 747-100 using CEASIOM
One of the requirements for the SimSAC project was to use existing aircraft to act as benchmarks for comparison with CEASIOM generated models. Within this paper, results are given for one of these examples, the Boeing 747-100. This aircraft was selected because a complete dataset exists in the open domain, which can be used to validate SimSAC generated data. The purpose of this paper is to both give confidence in, and to demonstrate the capabilities of, the CEASIOM environment when used for preliminary aircraft and control system design. CEASIOM is the result of the integration of a set of sophisticated tools by the European Union funded, Framework 6 SimSAC program. The first part of this paper presents a comparison of the aerodynamic results for each of the solvers available within CEASIOM together with data from the 747-100 model published by NASA. The resulting nonlinear model is then trimmed and analysed using the Flight Control System Designer Toolkit (FCSDT) module. In the final section of the paper a state-feedback controller is designed within CEASIOM in order to modify the longitudinal dynamics of the aircraft. The open and closed loop models are subsequently evaluated with selected failed aerodynamic surfaces and for the case of a single failed engine. Through these results, the CEASIOM software suite is shown to be able to generate excellent quality adaptive-fidelity aerodynamic data. This data is contained within a full nonlinear aircraft model to which linear analysis and control system design can be easily applied.
660-673
Richardson, T. S.
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Beaverstock, C.
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Isikveren, A.
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Meheri, A.
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Badcock, K. J.
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Da Ronch, A.
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November 2011
Richardson, T. S.
cc4a03c2-55af-46e1-ae59-4a4cfb8e4013
Beaverstock, C.
d362813c-0327-4392-90d0-96a416c8044e
Isikveren, A.
ee04e646-a95f-4e8e-bd8e-2a9169932b46
Meheri, A.
1f25969b-4001-46c6-8205-ff86263c68b4
Badcock, K. J.
64c4dc5d-1f2f-4358-af31-f6506c1810ef
Da Ronch, A.
a2f36b97-b881-44e9-8a78-dd76fdf82f1a
Richardson, T. S., Beaverstock, C., Isikveren, A., Meheri, A., Badcock, K. J. and Da Ronch, A.
(2011)
Analysis of the Boeing 747-100 using CEASIOM.
Progress in Aerospace Sciences, 47 (8), .
(doi:10.1016/j.paerosci.2011.08.009).
Abstract
One of the requirements for the SimSAC project was to use existing aircraft to act as benchmarks for comparison with CEASIOM generated models. Within this paper, results are given for one of these examples, the Boeing 747-100. This aircraft was selected because a complete dataset exists in the open domain, which can be used to validate SimSAC generated data. The purpose of this paper is to both give confidence in, and to demonstrate the capabilities of, the CEASIOM environment when used for preliminary aircraft and control system design. CEASIOM is the result of the integration of a set of sophisticated tools by the European Union funded, Framework 6 SimSAC program. The first part of this paper presents a comparison of the aerodynamic results for each of the solvers available within CEASIOM together with data from the 747-100 model published by NASA. The resulting nonlinear model is then trimmed and analysed using the Flight Control System Designer Toolkit (FCSDT) module. In the final section of the paper a state-feedback controller is designed within CEASIOM in order to modify the longitudinal dynamics of the aircraft. The open and closed loop models are subsequently evaluated with selected failed aerodynamic surfaces and for the case of a single failed engine. Through these results, the CEASIOM software suite is shown to be able to generate excellent quality adaptive-fidelity aerodynamic data. This data is contained within a full nonlinear aircraft model to which linear analysis and control system design can be easily applied.
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Published date: November 2011
Organisations:
Aerodynamics & Flight Mechanics Group
Identifiers
Local EPrints ID: 351498
URI: http://eprints.soton.ac.uk/id/eprint/351498
ISSN: 0376-0421
PURE UUID: 10f2a3db-aa7d-4014-b359-09e61ab91c30
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Date deposited: 23 Apr 2013 11:26
Last modified: 15 Mar 2024 03:46
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Contributors
Author:
T. S. Richardson
Author:
C. Beaverstock
Author:
A. Isikveren
Author:
A. Meheri
Author:
K. J. Badcock
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