참고문헌
- Applied Technology Council (1978),Tentative Provisions for the Development of Seismic Regulations for Buildings, U.S. National Bureau of Standards, Special Publication 510.
- Arora, J.S. (1980), "Analysis of optimality criteria and gradient projection methods for optimal structural design", Computer methods in Applied Mechanics and Engineering, North-Holland Publishing Company, 23, 185-213. https://doi.org/10.1016/0045-7825(80)90093-6
- Bertero, R.R., Herrera, R.A., and Mahin, S.A. (1976), "Establishment of design earthquakes evaluation of present methods", International Symposium on Earthquake Structural Engineering, St. Louis, Missouri, 551-580.
- Bertero, V.V., Anderson, J.C., and Krawinkler, H. (1994), "Performance of steeel building structures during the Northridge Earthquake", Report No. UCB/EERC-94/09, University of California, Berkeley.
- Bradley, S.P., Hax, A.C., and Magnanti, T.L. (1977), Applied Mathematical Programming, Addison-Wesley Publisbmg Company, Inc.
- Engelhardt, M.D., and Husain, A.S. (1993), "Cyclic-loading performance of welded flange-bolted web connections, J Structural Engineering, 119(12).
- Guralnick, S.A., Singh, S., and Erber, T. (1984), "Plastic collapse, shakedown and hysteresis", J. Structural Engineering, ASCE, 110(9).
- Guralnick, S.A., Erber, T., Soudsn, O., and He, J. (1991), "Incremental collapse of structures subjected to constant plus cyclically-varying loads", J. Structural Engineering, ASCE, 177(6), 1815-1833.
- Guralnick, S.A., and Yala, A. (1998), "Plastic collapse, incremental collapse, and shakedown of reinforced concrete structures", ACI Structural Journal, 95(2).
- Haug, E.J., and Arora, J.S. (1979), Applied Optimal Design, John Wiley & Sons.
- Hodge, P.G. (1959), Plastic Analysis of Structures, McGraw-Hill Book Company Inc.
- Horne, M.R. (1979), Plastic Theory of Structures. Pergamon Press.
- Kanaan, A.E., and Powell, G.H. (1973), DRAIN-2D, a general purpose computer program for dynamic analysis of inelastic plane structures", Report No. UCB/EERC-73/6, University of California, Berkeley.
- Lee, H.-S. (1989), "Use of shakedown analysis technique in optimum seismic design of moment-resisting steel structure", Ph. D. Dissertation, Department of Civil Engnieernig, University of California, Berkeley.
- Lee, H.-S., and Bertero, V.V. (1993), "Application of shakedown analysis technique to earthquake-resistant design of ductile moment-resisting steel structures", Structural Engineering and Mechanics, 1(1), 31-46. https://doi.org/10.12989/sem.1993.1.1.031
- Massonnet, C.E., and Save, M.A. (1965), Plastic Analysis and Design, Blaisdell.
- Macgregor, J.G. (1997), Reinforced Concrete Mechanics and Design, Prentice-Hall International Inc ..
- National Science Foundation and Earthquake Engnieering Research Center (1995), "Seismological and engineering aspect of the 1995 Hyogoken-Nanbu (Kobe) Earthquake", Report No. UCB/EERC-95-10, University of California, Berkeley.
- Neal, B.G. (1977) The Plastic Methods of Structural Analysis. Chapman and Hall.
- Popov, E.P., and Bertero, V.V. (1973), "Cyclic loading of steel beams and connections", J. Structural Division, ASCE,99(6).
- Powell, G.H. (1985), "Interpretive/Interactive nonlinear structural analysis user guide", Lecture Note of CE223B, Department of Civil Engnieernig, University of California, Berkeley.
- Uniform Building Code (1982), International Conference of Building Officials, Whittier, California
- Specification for the Design, Fabrication and Erection of Structural Steel for Buildings (1980), American Institute of Steel Construction, New York.
- Zohrei, M. (1982), "Cumulative damage in components of steel structures under cyclic inelastic loading", Ph. D. Dissertation, Department of Civil Engnieernig, Stanford University.