In the last decades, valuable results have been reported regarding conventional passive, active, semi-active, and hybrid structural control systems on two-dimensional and a few three-dimensional shear buildings. In this research, using a three-dimensional finite element model of high-rise concrete structures, designed by performance based plastic design method, it was attempted to construct a relatively close to reality model of concrete structures equipped with Tuned Mass Damper (TMD) by considering the effect of soil-structure interaction (SSI), torsion effect, hysteresis behavior and cracking effect of concrete. In contrast to previous studies which have focused mainly on linearly designed structures, in this study, using performance-based plastic design (PBPD) design approach, nonlinear behavior of the structures was considered from the beginning of the design stage. Inelastic time history analysis on a detailed model of twenty-story concrete structure was performed under a far-field ground motion record set. The seismic responses of the structure by considering SSI effect are studied by eight main objective functions that are related to the performance of the structure, containing: lateral displacement, acceleration, inter-story drift, plastic energy dissipation, shear force, number of plastic hinges, local plastic energy and rotation of plastic hinges. The tuning problem of TMD based on tuned mass spectra is set by considering five of the eight previously described functions. Results reveal that the structural damage distribution range is retracted and inter-story drift distribution in height of the structure is more uniform. It is strongly suggested to consider the effect of SSI in structural design and analysis.

1 McNamara, R.J., "Tuned mass dampers for buildings" 103 (103): 1785-1798, 1977

2 Takewaki, I., "Soil-structure random response reduction via TMD-VD simultaneous use" 190 (190): 677-690, 2000

3 Wang, J.F., "Seismic performance of multiple tuned mass dampers for soil-irregular building interaction systems" 42 (42): 5536-5554, 2005

4 Wong, K.K.F., "Seismic energy dissipation of inelastic structures with multiple tuned mass dampers" 135 (135): 265-275, 2009

5 Pinkaew, T., "Seismic effectiveness of tuned mass dampers for damage reduction of structures" 25 (25): 39-46, 2003

6 Kaynia, A.M., "Seismic effectiveness of tuned mass dampers" 107 (107): 1465-1484, 1981

7 Wong, K.K.F., "Seismic damage and fragility analysis of structures with tuned mass dampers based on plastic energy" 2010

8 Mevada, S.V., "Seismic Response Control of Multi-Story Asymmetric Building Installed with Dampers" Springer 2015

9 Pourzeynali, S., "Robust multi-objective optimization design of TMD control device to reduce tall building responses against earthquake excitations using genetic algorithms" 20 (20): 207-221, 2013

10 (FEMA), F.E.M.A., "Quantification of Building Seismic Performance Factors, FEMA P695" 2009

11 Goel, S.C., "Performance-Based Plastic Design: Earthquake-Resistant Steel Structures" 2008

12 Bayat, M.R., "Performance-Based Plastic Design of Earthquake Resistant Steel Structures: Concentrically Braced Frames, Tall Moment Frames, Plate Shear Wall Frames" 2010

13 Liao, W.C., "Performance-Based Plastic Design of Earthquake Resistant Reinforced Concrete Moment Frames" 2010

14 Jangid, R.S., "Performance of multiple tuned mass dampers for torsionally coupled system" 26 (26): 307-317, 1997

15 Li, C., "Performance of multiple tuned mass dampers for attenuating undesirable oscillations of structures under the ground acceleration" 29 (29): 1405-1421, 2000

16 Kareem, A., "Performance of multiple mass dampers under random loading" 121 (121): 348-361, 1995

17 Shooshtari, M., "Performance improvement of tall reinforced concrete structures with multiple tuned mass dampers (MTMD)" 2012

18 Fatahi, B., "Performance based assessment of dynamic soil-structure interaction effects on seismic response of building frames" 344-351, 2011

19 Zhang, Z., "Passive control of bilinear hysteretic structures by tuned mass damper for narrow band seismic motions" 54 : 103-111, 2013

20 Lu, X., "Parameter optimization and structural design of tuned mass damper for Shanghai centre tower" 20 (20): 453-471, 2011

21 Tsai, H.C., "Optimum tuned-mass dampers for minimizing steady-state response of support-excited and damped systems" 22 (22): 957-973, 1993

22 Sinan Melih Nigdeli, "Optimum tuned mass damper design for preventing brittle fracture of RC buildings" 국제구조공학회 12 (12): 137-155, 2013

23 Nigdeli, S.M., "Optimum tuned mass damper approaches for adjacent structures" 7 (7): 1071-1091, 2014

24 Bakre, S.V., "Optimum parameters of tuned mass damper for damped main system" 14 (14): 448-470, 2007

25 Li, C., "Optimum multiple tuned mass dampers for structures under the ground acceleration based on the uniform distribution of system parameters" 32 (32): 671-690, 2003

26 Li, C., "Optimum multiple tuned mass dampers for structures under the ground acceleration based on DDMF and ADMF" 31 (31): 897-919, 2002

27 Jangid, R.S., "Optimum multiple tuned mass dampers for base-excited undamped system" 28 (28): 1041-1049, 1999

28 Bakre, S., "Optimum multiple tuned mass dampers for base-excited damped main system" 4 (4): 527-542, 2004

29 Sgobba, S., "Optimum design of linear tuned mass dampers for structures with nonlinear behaviour" 24 (24): 1739-1755, 2010

30 Hadi, M.N.S., "Optimum design of absorber for MDOF structures" 124 (124): 1272-1280, 1998

31 Greco, R., "Optimum design of Tuned Mass Dampers by displacement and energy perspectives" 49 : 243-253, 2013

32 Warburton, G.B., "Optimum absorber parameters for various combinations of response and excitation parameters" 10 (10): 381-401, 1982

33 Warburton, G.B., "Optimum absorber parameters for simple systems" 8 (8): 197-217, 1980

34 Sinan Melih Nigdeli, "Optimum Tuned Mass Damper Design in Frequency Domain for Structures" 대한토목학회 21 (21): 912-922, 2017

35 Aguirre, J., "Optimum Seismic Design of Nonlinear Asymmetric Structures Controlled by Large Tuned Mass Dampers"

36 Lee, C.L., "Optimal design theories and applications of tuned mass dampers" 28 (28): 43-53, 2006

37 Chung, L.L., "Optimal design formulas for viscous tuned mass dampers in wind-excited structures" 20 (20): 320-336, 2013

38 Khatibinia, M., "Multiobjective optimization of tuned mass dampers considering soilstructure interaction" 6 (6): 595-610, 2016

39 Lu, X., "Mitigation of wind-induced response of Shanghai center tower by tuned mass damper" 20 (20): 435-452, 2011

40 ASCE, "Minimum Design Loads for Buildings and Other Structures: ASCE Standard 7-10"

41 Bekdas, G., "Metaheuristic based optimization of tuned mass dampers under earthquake excitation by considering soil-structure interaction" 92 : 443-461, 2017

42 Bekdas, G., "Mass ratio factor for optimum tuned mass damper strategies" 71 : 68-84, 2013

43 Li, C., "Hybrid active tuned mass dampers for structures under the ground acceleration" 22 (22): 757-773, 2015

44 Yamaguchi, H., "Fundamental characteristics of multiple tuned mass dampers for suppressing harmonically forced oscillations" 22 (22): 51-62, 1993

45 Mihailo, D., "Full-Scale Experimental Studies of Soil-Structure Interaction" 2001

46 Wolf, J.P., "Foundation Vibration Analysis: A Strength of Materials Approach" Butterworth-Heinemann 2004

47 Venture, S.J., "FEMA-356 Prestandard and commentary for seismic rehabilitation of buildings"

48 Hamid Reza Tabatabaiefar, "Evaluation of numerical procedures to determine seismic response of structures under influence of soil-structure interaction" 국제구조공학회 56 (56): 27-47, 2015

49 Khoshnoudian, F., "Effects of nonlinear soil-structure interaction on the seismic response of structure-TMD systems subjected to near-field earthquakes" 1-28, 2016

50 Sladek, J.R., "Effect of tuned-mass dampers on seismic response" 109 (109): 2004-2009, 1983

51 Ghosh, A., "Effect of soil interaction on the performance of tuned mass dampers for seismic applications" 274 (274): 1079-1090, 2004

52 Abe, M., "Dynamic characterization of multiple tuned mass dampers and some design formulas" 23 (23): 813-835, 1994

53 Xu, K., "Dynamic characteristics of multiple substructures with closely spaced frequencies" 21 (21): 1059-1070, 1992

54 Lewandowski, R., "Dynamic analysis of structures with multiple tuned mass dampers" 15 (15): 77-86, 2009

55 Wang, A.P., "Dynamic analysis of a tall building with a tuned-mass-damper device subjected to earthquake excitations" 244 (244): 123-136, 2001

56 Mohebbi, M., "DGA-based approach for optimal design of active mass damper for nonlinear structures considering ground motion effect" 24 (24): 045017-, 2015

57 Rezaie, F., "Considering the soil effects on design process of performance-based plastic design for reinforced concrete structures" 50 (50): 205-219, 2017

58 Haselton, C.B., "Assessing Seismic Collapse Safety of Modern Reinforced Concrete Moment Frame Buildings" 2007

59 Farshidianfar, A., "Ant colony optimization of tuned mass dampers for earthquake oscillations of high-rise structures including soil-structure interaction" 51 : 14-22, 2013

60 "AS1170.4, Structural Design Actions-Earthquake Actions in Australia"

61 FEMA, "273: NEHRP Guidelines for the Seismic Rehabilitation of Buildings" 1997

62 Shooshtari, M., "2381. Effect of using linear multiple tuned mass dampers on concrete structures with hysteresis behavior" 19 (19): 1158-1172, 2017

63 Mortezaie, H., "18628.Optimization and evaluation of three-dimensional high-rise concrete structure equipped by TMD with considering the soil-structure interaction effect" 2018