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curve_fitting/boussinesq_lookup.m
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| function sigma_z=boussinesq_lookup(q,a,b,z) | |
| % function that determines stress under corner of an a by b rectangular platform | |
| % z-meters below the platform. The calculated solutions are in the fmn data | |
| % m=fmn(:,1) | |
| % in column 2, fmn(:,2), n=1.2 | |
| % in column 3, fmn(:,2), n=1.4 | |
| % in column 4, fmn(:,2), n=1.6 | |
| fmn= [0.1,0.02926,0.03007,0.03058 | |
| 0.2,0.05733,0.05894,0.05994 | |
| 0.3,0.08323,0.08561,0.08709 | |
| 0.4,0.10631,0.10941,0.11135 | |
| 0.5,0.12626,0.13003,0.13241 | |
| 0.6,0.14309,0.14749,0.15027 | |
| 0.7,0.15703,0.16199,0.16515 | |
| 0.8,0.16843,0.17389,0.17739]; | |
| m=a/z; | |
| n=b/z; | |
| %this function uses third-order polynomial interpolation of the | |
| %four closest values of m to determine the stress in a vertical | |
| %direction. z=stressz | |
| %round to the closest value of n | |
| mv=fmn(:,1); | |
| n1=fmn(:,2); | |
| n2=fmn(:,3); | |
| n3=fmn(:,4); | |
| if n<1.3 | |
| n=1.2; | |
| nv=n1; | |
| elseif 1.3<n && n<1.5 | |
| n=1.4; | |
| nv=n2; | |
| elseif n>=1.5 | |
| n=1.6; | |
| nv=n3; | |
| end | |
| i=round(m,1); | |
| for i = i:0.7 | |
| if m<=i && m>i+0.1 | |
| i=i; | |
| end | |
| x=[i-0.1 i i+0.1 i+0.2]; | |
| m1=i; | |
| end | |
| end | |
| nf0=nv((m1+10)-1); | |
| nf1=nv(m1*10); | |
| nf2=nv((m1*10)+1); | |
| nf3=nv((m1*10)+2); | |
| nf=[nf0 nf1 nf2 nf3]; | |
| p=polyfit(x,nf,3); %3rd order polynomial function | |
| v=polyval(p,m); | |
| sigma_z=q*v; | |
| end | |