Internal Report RD/l/N
v.114
no.68
Eigencector analysis of pressure Fluctuations on the West Burton instrumented cooling tower
Armitt, J.
J .Wind Eng. Ind. Aerodyn
v.50
Proper orthogona decomposition of roof pressure
Bienkiewicz, B.;Ham, H. J.;Sun, Y.
Thris Asia-Pacifc Symposien on Wind Eng
v.1
How can we simplify and generalize wind loads?
Davenport, A. G.
Proc. of the 9th Int. Conf. on Wind Eng.
Proper orthogonal decomposition study of approach wind-building pressure correlation
Tamura, Y.;Ueda, H.;Kihuchi, H.;Hibi, K.;Suganuma, S.;Bienkiewicz, B.
Ph.D Dissertation, Dept. of Civil Engr. Colorado State University
analysis of Building wind pressure using proper prthogonal decomposition. autoregressive miving average and neural networks
Jeong, S. H.
Time series : theory and methods
Brockwell, P. J.;Davis, R. A.
Proc. of the 5th int. Conf. on Wind Eng.
A cooling tower wind loading midel based on fullscale data
Portier, L. J.;Scanlan, R. H.;J. E. Cermak(ed.)
Eng. Struct.
v.13
Modeling of wind pressures on monoslope roofs
Stathopoulos, T.;Mohannadian, A. R.
Can. J. Civ. Eng.
v.22
Prediction of wind load distribution for air-suported structures using naural networks
Turkkan, N.;Arivastava, N. K.
Proc. 9th Int. Conf. on Wind Eng.
Neural network modeling of wind-induced interference effects
Khanduri, A. C.;Bedard, C.;Stathopoulos, T.
Proc. 9th Int. Conf. on Wind Eng.
using a backpropagation neural networks for predicting wind induced damage to buildings
Sandri, P.;Mehta, K. C.