The flight performance criteria for adaptive control design during hydro planing and ground effect altitude of wing in surface effect craft
The flight performance criteria for adaptive control design during hydro planing and ground effect altitude of wing in surface effect craft
Many of the Wing In Surface Effect-craft had unstable condition during hydro planing while the positive pitching moment nose up increases. The hump drags on the centre of buoyancy, the aerodynamic lift of the wing on the centre of pressure, the thrust propulsion and weight on the centre of gravity are not in equilibrium condition. The inverse delta wing with shoulder and Clark Y airfoil having wing area 31.75 m2 and V-tail configurations are producing the aerodynamic lift. However, the aerodynamic lift will be countered by pitching moment in order to achieve steady level flight within airborne conditions. The adaptive control system will be implemented on the Remote Control model Amphibian configuration to anticipate the porpoising effect during hydro planing on the longitudinal and lateral mode. This control system also maintaining the ground effect on the 0.25 m altitude height to reduce the Pilot workloads. The use of Extended Kalman Filter algorithm is to identify the non-dimensional aerodynamic and hydrodynamic derivative parameters that used together in the observable matrix (4 × 4) dimensions in the real time (t).
aerodynamic characteristics, airfoil, liquid water content, rivulet formation, water film
633-645
Syamsuar, S.
d0f0b929-c63b-4cee-aed4-764f018cb980
Djatmiko, E.B.
dd82c914-28a3-4b47-8dfe-2904e170f0bc
Wilson, P.A.
8307fa11-5d5e-47f6-9961-9d43767afa00
Subchan, E.
9e146d47-acb4-4aee-9452-4ad8199c5716
1 May 2013
Syamsuar, S.
d0f0b929-c63b-4cee-aed4-764f018cb980
Djatmiko, E.B.
dd82c914-28a3-4b47-8dfe-2904e170f0bc
Wilson, P.A.
8307fa11-5d5e-47f6-9961-9d43767afa00
Subchan, E.
9e146d47-acb4-4aee-9452-4ad8199c5716
Syamsuar, S., Djatmiko, E.B. and Wilson, P.A. et al.
(2013)
The flight performance criteria for adaptive control design during hydro planing and ground effect altitude of wing in surface effect craft.
International Review of Mechanical Engineering, 7 (4), .
Abstract
Many of the Wing In Surface Effect-craft had unstable condition during hydro planing while the positive pitching moment nose up increases. The hump drags on the centre of buoyancy, the aerodynamic lift of the wing on the centre of pressure, the thrust propulsion and weight on the centre of gravity are not in equilibrium condition. The inverse delta wing with shoulder and Clark Y airfoil having wing area 31.75 m2 and V-tail configurations are producing the aerodynamic lift. However, the aerodynamic lift will be countered by pitching moment in order to achieve steady level flight within airborne conditions. The adaptive control system will be implemented on the Remote Control model Amphibian configuration to anticipate the porpoising effect during hydro planing on the longitudinal and lateral mode. This control system also maintaining the ground effect on the 0.25 m altitude height to reduce the Pilot workloads. The use of Extended Kalman Filter algorithm is to identify the non-dimensional aerodynamic and hydrodynamic derivative parameters that used together in the observable matrix (4 × 4) dimensions in the real time (t).
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Published date: 1 May 2013
Keywords:
aerodynamic characteristics, airfoil, liquid water content, rivulet formation, water film
Organisations:
Civil Maritime & Env. Eng & Sci Unit
Identifiers
Local EPrints ID: 355713
URI: http://eprints.soton.ac.uk/id/eprint/355713
ISSN: 1970-8734
PURE UUID: 95bac210-2b72-4001-a42b-f36574186285
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Date deposited: 04 Sep 2013 09:24
Last modified: 10 Jan 2022 02:32
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Contributors
Author:
S. Syamsuar
Author:
E.B. Djatmiko
Author:
E. Subchan
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