1. An Internet-based Educational Platform for Earthquake Engineering Laboratory Experiments Chencheng Wu, Le Yu, Shirley J. Dyke, Christopher Beeler and Jian Ouyang Purdue University iCEER 2011 Belfast, Ireland

2. Earthquakes Worldwide

3. Eastern US Earthquake (August 24 th 2011)

4. Introduction Earthquake simulator tables, or shake tables, are used for experimental research in earthquake engineering. This equipment is capable of reproducing the motion of the ground during an earthquake, allowing for controlled testing of structures subjected to earthquakes. New concepts and techniques are often tested on scaled structures using shake tables before implementation. Bench-scale shake tables offer an ideal mechanism to provide students access to such “hands-on” experiments.

5. NEES 3435 registered NEEShub users and thousands of NEES users of equipment sites and cyberinfrastructure at any point in time highlight the global reach of NEES. NEEScomm Data Repository Computational Simulation Community Support NEES Sites Cornell University University of Minnesota University of Texas Rensselaer Polytechnic Institute University of Nevada, Reno UC San Diego University of California, Los Angeles UC Santa Barbara University of California, Davis University of California, Berkeley Oregon State University University of Illinois Lehigh University University at Buffalo

6. Existing state-of-the-art cyberinfrastructure tools developed by NEESit, the technical support and development component of NEES, have been developed recently for teleparticipation and teleoperation. We have been able to take advantage of these capabilities to educate the next generation of civil engineers! Introduction

7. Outline Objectives of the Collaboratory Lab Station Components Instructional Materials Available –Freshman Level Undergraduate Module –Senior Level Structural Dynamics Experiments Evaluation of the Program Closing

8. Objectives of the Collaboratory To provide engineering students –an understanding of structural dynamics –experience with modern laboratory equipment and instrumentation –exposure to NEES and the latest capabilities regarding remote testing teleparticipation tools –provide a mechanism for training students to perform experiments –broader access to such tools –opportunities for K-12 outreach

9. Objectives of the Collaboratory 2 Lead Institutions –develop 2 initial exercises –evaluation & adapt 5 Deployment Sites –implement 2 exercise –develop new exercises Available to users

10. Lab Station: Overview

11. System Architecture 11 UCIST LabVEW Server Remote PC TCP Data Turbine PC RBNB Server UCIST PC (LabVIEW Machine) UCIST Shake Table Control Server TCP Server DAQ Daemon CompactRIO Axis Web Camera RDV Teleoperation Control Panel NI- DAQ Port = 8090 Port = 3333

12. UCIST Shake Table 12 CompactRIO 9516

13. Remote PC - Teleoperation Control Panel

14. 14

15. UCIST PC Teleoperation TCP server –Listen on port 8090 –Receive commands from remote PC Simulation pattern Excitation parameters (eg. Amplitude & Frequency) Simulation duration –Send commands to and receive feedbacks from Control Server Control server –Receive commands from TCP Server –Generate excitations according to simulation pattern and parameters (eg. Sinusoidal ) –Move Shake Table with generated excitations 15 UCIST PC Remote PC UCIST Shake Table TCP Server Control Server Commands

16. RBNB Server 16

17. Introduction to Earthquake Engineering Freshman Engineering module developed at the University of Connecticut

18. Instructional Materials Students learn necessary mathematics to study the forced and free vibration of a single-degree-of-freedom structure A 1-story seismically excited shear frame is used to apply their new knowledge

19. Instructional Materials Overview (Freshman Level 3 weeks) –Earthquake Engineering Introduction –SDOF Equations of Motion –Programming in Matlab –NEES Introduction –Teleparticipation & Teleoperation of Actual Experiment Each student is required to submit weekly homeworks and a final lab report including a discussion of observations and results

20. Two Experiments Developed for Structural Dynamics Senior/Grad Level Experiments developed at Purdue University

21. Instructional Materials EXPERIMENT 2: Design Vibration Absorber –Two DOF building model –Passive device to reduce responses –Design length of pendulum and additional mass –Verify control results using teleoperation

22. Lab Station: Activities University of California, Berkeley Model Shake--Aftermath

23. Evaluation Program Evaluation & Feedback –On-line surveys conducted to obtain student and faculty input –Evaluation expert is part of the project 12 undergraduate engineering courses at 5 universities over the course of four years; total of 505 students surveyed

24. Evaluation Program Goals 1. Describe classroom implementation of virtual laboratory 2. Estimate the impact of virtual experiments on student learning 3. Describe associations between gender and patterns in learning Comments –“[It] Was very hands on, and many people learn better by doing and seeing than just calculations” –“It was a very interesting experience. The fact that you could manipulate a structure in another building across campus from you room is amazing.”

25. Benefits to the Students More flexible and complex experiments using multiple sites Experience with cyberinfrastructure Flexible scheduling of experiments Access for students at a larger number of universities to participate in advanced experiments

26. Implications for Engineering Educators Provide opportunities for students worldwide to use tele-operated shake tables for learning Review resources at NEES and UCIST Think creatively about student experiences in your classroom, especially the extent to which men and women may perceive differences in their abilities that may contribute to differential rates of pursuit of further engineering education.

27. Acknowledgments NSF DUE 0618605 and 1058462 (CCLI) NEESinc and NEESit NSF funding for UCIST (1998-2002) –Support for UCIST from NSF Grant (DUE 9950340) –Mid-America Earthquake Center Quanser Consulting

28. 2020 Vision Report January 26-27, 2010 Identify the major strategic directions for the future of earthquake engineering research and education http://nees.org

29. For more information see: http://engineering.purdue.edu/ucist and http://nees.org/