Real-time substructuring experimentations for acceleration control of shake tables sustaining nonlinear specimens

• Project/Area Number: 18K13823
• Research Category: Grant-in-Aid for Early-Career Scientists
• Allocation Type: Multi-year Fund
• Review Section: Basic Section 22020:Structure engineering and earthquake engineering-related
• Research Institution: Tohoku University (2019); National Research Institute for Earth Science and Disaster Prevention (2018)
• Principal Investigator: Ryuta Enokida 東北大学, 災害科学国際研究所, 准教授 (20788624)
• Project Period (FY): 2018-04-01 – 2020-03-31
• Project Status: Completed (Fiscal Year 2019)
• Budget Amount: ¥4,160,000 (Direct Cost: ¥3,200,000、Indirect Cost: ¥960,000); Fiscal Year 2019: ¥1,560,000 (Direct Cost: ¥1,200,000、Indirect Cost: ¥360,000); Fiscal Year 2018: ¥2,600,000 (Direct Cost: ¥2,000,000、Indirect Cost: ¥600,000)
• Keywords: 非線形制御 / 振動台実験 / サブストラクチャ実験 / 油圧アクチュエータ / 免震構造 / 安定性解析 / NSBC / NLSC / DSS / Hybrid simulation / 安定性 / 免震構造物 / 振動台制御 / ナイキストの安定理論 / 無駄時間 / 非線形構造物 / リアルタイムサブストラクチャ実験 / 地盤・構造物の相互作用 / 非線形サブストラクチャ制御 / 加速度制御

Outline of Final Research Achievements

In the first year, we established a shake-table experimental scheme based on nonlinear signal-based control (NSBC), which is the key element for real-time substructuring shake-table experiments. In an experiment of a shaking table supporting a nonlinear specimen, NSBC successfully realized near 100% control accuracy of the table, while conventional control approaches failed to do so.

In the second year, based on the above research results, we conducted real-time substructuring experiments using the shake-table having the nonlinear structure. The substructuring experiments were successfully executed by nonlinear substructuring control (NLSC), which had been also developed on the basis of NSBC.

Academic Significance and Societal Importance of the Research Achievements

従来の制御手法では，構造物の塑性化が伴うような振動台実験においては，制御性能が不可避に劣化してしまい，所定の振動実験を高精度には実現できなかった．これに対して，本研究では，NSBCを振動台制御に組み込むことで，強非線形現象が伴う振動台実験において生じていた振動台の制御性能の劣化という問題を解決した．さらに，この研究成果に基づいて， NLSCを用いた非線形構造物のサブストラクチャ振動台実験を，世界に先駆けて実施することができた．

Research Products

• [Journal Article] Basic examination of two substructuring schemes for shake table tests (2020)
  • Author(s): Enokida Ryuta
  • Journal Title: Structural Control and Health Monitoring Volume: 27 Issue: 4
  • DOI: 10.1002/stc.2497
  • Peer Reviewed
• [Journal Article] Nonlinear signal‐based control for single‐axis shake tables supporting nonlinear structural systems (2019)
  • Author(s): Enokida Ryuta、Kajiwara Koichi
  • Journal Title: Structural Control and Health Monitoring Volume: 26 Issue: 9
  • DOI: 10.1002/stc.2376
  • Peer Reviewed / Open Access
• [Journal Article] Stability of nonlinear signal‐based control for nonlinear structural systems with a pure time delay (2019)
  • Author(s): Enokida Ryuta
  • Journal Title: Structural Control and Health Monitoring Volume: 26 Pages: e2365-e2365
  • DOI: 10.1002/stc.2365
  • Peer Reviewed
• [Journal Article] A comparative study of hybrid simulation and dynamical substructuring system schemes for shake table tests (2019)
  • Author(s): Enokida Ryuta
  • Journal Title: Journal of Physics: Conference Series Volume: 1264 Issue: 1 Pages: 012005-012005
  • DOI: 10.1088/1742-6596/1264/1/012005
  • Peer Reviewed / Open Access
• [Presentation] A comparative study of hybrid simulation and dynamical substructuring system schemes for shake table tests (2019)
  • Author(s): Enokida Ryuta
  • Organizer: International Conference on Recent Advances in Structural Dynamics
  • Int'l Joint Research
• [Presentation] Numerical studies of nonlinear signal-based control for shaking tables sustaining nonlinear multi-degree-of-freedom systems (2018)
  • Author(s): Ryuta Enokida and Koichi Kajiwara
  • Organizer: The 14th International Conference on Motion and Vibration Control
  • Int'l Joint Research
• [Patent(Industrial Property Rights)] 振動台制御装置及び振動台制御方法 (2019)
  • Inventor(s): 榎田竜太，梶原浩一
  • Industrial Property Rights Holder: 国立研究開発法人防災科学技術研究所
  • Industrial Property Rights Type: 特許
  • Filing Date: 2019