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      KCI등재 SCIE SCOPUS

      Vibration Control of Soil-structure Systems and Pile-soil-structure Systems

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      https://www.riss.kr/link?id=A104784520

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      다국어 초록 (Multilingual Abstract)

      The purpose of this paper is to investigate the influence of Soil-Structure Interaction (SSI) and Pile-Soil-Structure Interaction (PSSI) on vibration control effect. Assuming the ground as an isotropic elastic half space and the soil around the founda...

      The purpose of this paper is to investigate the influence of Soil-Structure Interaction (SSI) and Pile-Soil-Structure Interaction (PSSI) on vibration control effect. Assuming the ground as an isotropic elastic half space and the soil around the foundation as a horizontal and rotational spring-dashpot system, a SSI model for buildings with rigid shallow foundations is established. Based on Penzien model, a PSSI model for structures with pile-foundations is also set up. Then, after the motion and control equations of the SSI system and PSSI system are derived, the influences of SSI and PSSI on vibration control are investigated. Important parameters of soil and structures are studied. Numerical results show that the SSI and PSSI have an obvious influence on the control effect of structures. Parameters such as shear-wave velocity, embedded depth of soil and stiffness of superstructure and pile, play a significant role in vibration control. The influences of SSI and PSSI mainly depend on characteristics of the upper soil layer, hence, the SSI influence on buildings with rigid foundations is more obvious than that of PSSI on buildings with pile foundations.

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      참고문헌 (Reference)

      1 Wang, A. P, "Vibration control of a tall building subjected to earthquake excitation" 299 (299): 757-773, 2007

      2 Lou, M. L., "Study on soil- pilestructure interaction system by shaking table model test" 29 (29): 132-139, 2001

      3 Wong, H. L, "Structural control including soilstructure interaction effects" ASCE 1 (1): 2237-2250, 1991

      4 Smith, H. D., "Structural control considering soil-structure interaction effects" 23 (23): 609-626, 1994

      5 Wei, X., "Shake table test on soilpile- structure interaction" 35 (35): 54-60, 2002

      6 Kobori, T., "Seismicresponse- controlled structure with active mass driver system, Part 2: Verification" 20 (20): 51-66, 1991

      7 Maki, T., "RC pile-soil interaction analysis using a 3D-finite element method with fibre theory-based beam elements" 35 (35): 1587-1607, 2006

      8 Chung, L. L., "Optimal direct output feedback of structural control" ASCE 119 (119): 57-73, 1993

      9 Cai, G., "Optimal control method with time delay in control" 251 (251): 383-394, 2002

      10 Alli, H, "On the feedback control of the wave equation" 234 (234): 625-640, 2000

      1 Wang, A. P, "Vibration control of a tall building subjected to earthquake excitation" 299 (299): 757-773, 2007

      2 Lou, M. L., "Study on soil- pilestructure interaction system by shaking table model test" 29 (29): 132-139, 2001

      3 Wong, H. L, "Structural control including soilstructure interaction effects" ASCE 1 (1): 2237-2250, 1991

      4 Smith, H. D., "Structural control considering soil-structure interaction effects" 23 (23): 609-626, 1994

      5 Wei, X., "Shake table test on soilpile- structure interaction" 35 (35): 54-60, 2002

      6 Kobori, T., "Seismicresponse- controlled structure with active mass driver system, Part 2: Verification" 20 (20): 51-66, 1991

      7 Maki, T., "RC pile-soil interaction analysis using a 3D-finite element method with fibre theory-based beam elements" 35 (35): 1587-1607, 2006

      8 Chung, L. L., "Optimal direct output feedback of structural control" ASCE 119 (119): 57-73, 1993

      9 Cai, G., "Optimal control method with time delay in control" 251 (251): 383-394, 2002

      10 Alli, H, "On the feedback control of the wave equation" 234 (234): 625-640, 2000

      11 Lu, L. T., "LQG/LTR control methodology in active structural control" ASCE 124 (124): 46-54, 1998

      12 Wu, J. C, "LQG control of lateral-torsional motion of Nanjing TV transmission tower" 29 (29): 11-30, 2000

      13 Park, K. S., "Hybrid control strategy for seismic protection of a benchmark cable-stayed bridge" ELSEVIER SCI LTD 25 : 405-417, 2003

      14 Smith, H. A, "Effective optimal structural control of soil-structure interaction systems" 26 (26): 549-570, 1997

      15 Kerbera, F., "Control concepts for an active vibration isolation system" 21 (21): 3042-3059, 2007

      16 Wang, H. D, "Computational research on vertical dynamic response of single-pile considering pile-soil interaction during passage of Rayleigh waves" 6 (6): 72-75, 2006

      17 Richart, F. E, "Comparison of footing vibration tests with theory" ASCE 93 (93): 143-168, 1967

      18 Wu, W. H., "Comparison of SSI effects on externally and internally controlled systems" 4 (4): 158-168, 1995

      19 Zou, L. H., "Analysis of the response to earthquake of the pile-soil-isolated structure interaction" 26 (26): 782-786, 2004

      20 Zou, L. H, "Analysis of the random responses to earthquake of the subsoil-base-interaction isolated system" 22 (22): 72-76, 2005

      21 Zhang, G., "Analysis of pile-soil interaction by computer simulation" 326 (326): 1531-1534, 2006

      22 Soong, T. T, "Active, semi-active and hybrid control of structures" 33 (33): 387-402, 2000

      23 Aldemir, U, "Active structural control based on the prediction and degree of stability" 247 (247): 61-76, 2001

      24 Lin, C. C., "Active control of irregular buildings considering soil–structure interaction effects" 29 (29): 1-11, 2009

      25 Luco, J. E, "A simple model for structural control including soilstructure interaction effects" 27 (27): 225-242, 1998

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      2016 0.59 0.12 0.49
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