1. Response of a joint passive crowd- SDOF system subjected to crowd jumping load Jackie Sim, Dr. Anthony Blakeborough, Dr. Martin Williams Department of Engineering Science University of Oxford

2. Vibration problem on cantilever grandstand Flexible structure with large span and lightweight Synchronised crowd loadings 1.5 ~ 2.8 Hz +

3. Dynamic analysis of cantilever grandstand Human-structure interaction Passive crowd Crowd model Active crowd Load model

4. Contents Outline 1.Passive crowd model How to model the seated and standing crowds? 2.Active crowd model How to model the jumping crowd? 3.Analysis of active + passive crowds on SDOF structure What is the structural response? 4. Results 5. Case study

5. Passive crowd model (1) Griffin et al. – experimental tests and model development Measure the apparent mass of 24 seated and 12 standing men: DOF 1 m2m2 k 2 c 1 k1 k1 m1m1 c 2 F y 2 y 1 DOF 2

6. Passive crowd model (2) Curve-fitting the crowd apparent mass response Crowd model represented as transfer function Seated: Standing Fourth order polynomial i.e. 2DOF system

7. Active crowd model (1) Experimental tests - University of Surrey - 100 test subjects - Each individual jumping on rigid force plates -Metronome at 4 beat frequencies (1.5, 2, 2.67 and 3.5 Hz) -Synchronised test results were analysed

8. Active crowd model (2) Load-time history at 2 Hz Average impulse of each individual Average impulse of all individuals => Crowd jumping load

9. Active crowd model (3) Crowd jumping load Beat Frequency (Hz) 1 st 2 nd 3 rd 1.50.9110.1500.034 21.1930.3370.040 2.671.2280.3110.032 3.51.0200.1570.008 Fourier coefficients High FC => Better synchronisation

10. ms ms F x Analysis (1) Passive crowd-SDOF system subjected to crowd jumping load SDOF structure Seated / Standing crowd Crowd jumping load Interaction force _ + Feedback system representation Displacement Acceleration

11. Analysis (2) Frequency domain analysis Parameters Natural frequency of empty structure: 1 ~ 8Hz Structural damping ratio: 2% Passive crowd mass ratio,  : 0 ~ 0.3 (increment of 0.05) Subjected to crowd jumping load at 1.5, 2, 2.67 and 3.5Hz

12. Results - Maximum displacement

13. Results – RMS Acceleration

14. Case study – Cardiff Millennium Stadium First mode at 2.9 Hz Crowd mass = 16800 kg per bay Assume  = 0.3 Structure mass = 56000 kg for one bay Structure stiffness;

15. Results Rugby match between Australia and France in Nov 1999 Displacement of approximately 50mm reported after the match Half full capacity Mass ratio,  = 0 ~ 0.15 Maximum displacement (mm) RMS Acceleration (times g = 9.81m/s 2 )  Crowd jumping frequency (Hz) 1.522.673.5 014.212.838.214.0 0.057.39.034.98.2 0.13.34.827.13.7  Crowd jumping frequency (Hz) 1.522.673.5 00.200.140.700.34 0.050.080.090.650.2 0.10.030.050.520.08

16. Concluding remarks Passive crowd adds significant damping to the system and alters the resonance frequency Preliminary analysis on the Cardiff Millennium Stadium gave good results Current work – statistical model of the crowd jumping load – taking into account the timing of each individual