References
- Boggs, D. and Dragovich, J. (2006). The nature of wind loads and dynamic response. American Concrete Institute. Special Publication, 15-44.
- Buchholdt, H. A. (1997). Structural Dynamics for Engineers. Trowbridge: Thomas Telford.
- Choi, H. S. and Joseph, L. (2012, September). Outrigger system design considerations. International Journal of HighRise Buildings, 237-246.
- Choi, H. S., Ho, G., Joseph, L., and Mathias, N. (2012). Outrigger design for High-Rise Buildings. Chicago: CTBUH in conjunction with IIT.
- Kareem, A. (1998). Numerical simulation of wind effects: A probabilistic perspective. Journal of Wind Engineering and Industrial Aerodynamics, 1472-1497.
- Kwon, D. and Kareem, A. (2006). NatHaz on-line wind simulator (NOWS): simulation of Gaussian multivariate wind fields. NatHaz Modeling Laboratory Report: Univ. of Notre Dame, http://windsim.ce.nd.edu/
- McNamara, R., Taylor, D. P., and Duflot, P. (2003). Fluid viscous dampers to reduce wind-induced vibrations in tall buildings. Structural Design of Tall Special Buildings, 145-154.
- Rossi, A., Lazzari, M., and Vitaliani, R. (2004). Wind field simulation for structural engineering. International Journal of Numerical Methods in Engineering, 738-763.
- Sarkisian, M., Lee, P., Garai, R., and Tsui, A. (2015). Controlling Wind in Tall and Flexible Structures with Viscous Damping Devices. SEAOC Convention. SEAOC.
- Shinozuka, M. and Deodatis, G. (1991). Simulation of stochastic processes by spectral representation. Applied Mechanics Reviews, 44(4), 191-204. https://doi.org/10.1115/1.3119501
- Shinozuka, M. and Jan, C. M. (1972). Digital simulation of random processes and its applications. Journal of Sound and Vibration, 111-128.
- Smith, R. J. and Willford, M. R. (2007). The damped outrigger concept for tall buildings. The Structural Design of Tall and Special Buildings, 501-5017.
- Tamura, Y. and Kareem, A. (Eds.). (2013). Advanced Structural Wind Engineering. Japan: Springer.