7.6 Prediction of mean maximum eroded depth as a function of mean damage 



for Series B', D',E',F', and G' 135 



7.7 Prediction of standard deviation of maximum eroded depth as a function 



of mean damage for Series B', D\ E', F\ and G' 136 



7.8 Prediction of mean maximiun eroded length as a function of mean damage 



for Series 5', £>',£:', F', and G' 136 



7.9 Prediction of mean minimum cover depth as a function of mean damage for 

 Series 5', i:)',£",F', andG' 138 



7.10 Prediction of standard deviation of minimum cover depth as a fimction of 



mean damage for Series B', D', E', F\ and G' 138 



7.1 1 Damage prediction relations compared to data for Series D' 140 



7.12 Damage prediction relations compared to data for Series E' 140 



7.13 Damage prediction relations compared to data for Series F' 141 



7.14 Damage prediction relations compared to data for Series G' 141 



7.15 Damage prediction relations compared to data for Series D ' including 



damage initiation adjustment 142 



7. 1 6 Damage prediction relations compared to data for Series E' including 



damage initiation adjustment 142 



7. 17 Damage prediction relations compared to data for Series F' including 



damage initiation adjustment 143 



7.18 Damage prediction relations compared to data for Series G' including 



damage initiation adjustment 143 



A. 1 Wave generator command signals for six wave cases. The original signal 

 was 900 sec but 10 sec was clipped from either end for analysis and this 

 figure shows the shortened time series 153 



A.2 Spectra of wave generator command signals for Waves 1, 2, and 3 for 



1 1.9 cm toe depth 154 



