Ivar KJELBERG
COMSOL Multiphysics(r) fan, retired, former "Senior Expert" at CSEM SA (CH)
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Posted:
1 decade ago
26.07.2012, 16:53 GMT-4
Hi
have you considered to use an interpolated (higher order such as 2nd or 3rd order) function on your experimental function, this will gve a rather "smooth" shape, no ?
--
Good luck
Ivar
Hi
have you considered to use an interpolated (higher order such as 2nd or 3rd order) function on your experimental function, this will gve a rather "smooth" shape, no ?
--
Good luck
Ivar
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Posted:
1 decade ago
02.08.2012, 16:16 GMT-4
This also is a possibility but I want an actual waveform to be the input.
This also is a possibility but I want an actual waveform to be the input.
Ivar KJELBERG
COMSOL Multiphysics(r) fan, retired, former "Senior Expert" at CSEM SA (CH)
Please login with a confirmed email address before reporting spam
Posted:
1 decade ago
02.08.2012, 16:51 GMT-4
Hi
what is for you the difference of the actual measured step-wise wavepoints and an interpolated polynomial function based on your data ?
The second case is smoother and alos the solver to take intermediate steps, and to calculate coerrect derivatives hence converges better.
--
Good luck
Ivar
Hi
what is for you the difference of the actual measured step-wise wavepoints and an interpolated polynomial function based on your data ?
The second case is smoother and alos the solver to take intermediate steps, and to calculate coerrect derivatives hence converges better.
--
Good luck
Ivar
Please login with a confirmed email address before reporting spam
Posted:
1 decade ago
03.08.2012, 16:11 GMT-4
OK, here is the data. Fit a curve through it.
0 0
0.05 0.0242
0.1 0.0919
0.15 0.1889
0.2 0.2939
0.25 0.3827
0.3 0.4318
0.35 0.4227
0.4 0.3455
0.45 0.2007
0.5 0
0.55 -0.235
0.6 -0.4755
0.65 -0.6898
0.7 -0.8474
0.75 -0.9239
0.8 -0.9045
0.85 -0.7867
0.9 -0.5805
0.95 -0.3081
1 0
1.05 0.309
1.1 0.5878
1.15 0.809
1.2 0.9511
1.25 1
1.3 0.9511
1.35 0.809
1.4 0.5878
1.45 0.309
1.5 0
1.55 -0.309
1.6 -0.5878
1.65 -0.809
1.7 -0.9511
1.75 -1
1.8 -0.9511
1.85 -0.809
1.9 -0.5878
1.95 -0.309
2 0
2.05 0.309
2.1 0.5878
2.15 0.809
2.2 0.9511
2.25 1
2.3 0.9511
2.35 0.809
2.4 0.5878
2.45 0.309
2.5 0
2.55 -0.309
2.6 -0.5878
2.65 -0.809
2.7 -0.9511
2.75 -1
2.8 -0.9511
2.85 -0.809
2.9 -0.5878
2.95 -0.309
3 0
3.05 0.309
3.1 0.5878
3.15 0.809
3.2 0.9511
3.25 1
3.3 0.9511
3.35 0.809
3.4 0.5878
3.45 0.309
3.5 0
3.55 -0.309
3.6 -0.5878
3.65 -0.809
3.7 -0.9511
3.75 -1
3.8 -0.9511
3.85 -0.809
3.9 -0.5878
3.95 -0.309
4 0
4.05 0.3081
4.1 0.5805
4.15 0.7867
4.2 0.9045
4.25 0.9239
4.3 0.8474
4.35 0.6898
4.4 0.4755
4.45 0.235
4.5 0
4.55 -0.2007
4.6 -0.3455
4.65 -0.4227
4.7 -0.4318
4.75 -0.3827
4.8 -0.2939
4.85 -0.1889
4.9 -0.0919
4.95 -0.0242
5 0
OK, here is the data. Fit a curve through it.
0 0
0.05 0.0242
0.1 0.0919
0.15 0.1889
0.2 0.2939
0.25 0.3827
0.3 0.4318
0.35 0.4227
0.4 0.3455
0.45 0.2007
0.5 0
0.55 -0.235
0.6 -0.4755
0.65 -0.6898
0.7 -0.8474
0.75 -0.9239
0.8 -0.9045
0.85 -0.7867
0.9 -0.5805
0.95 -0.3081
1 0
1.05 0.309
1.1 0.5878
1.15 0.809
1.2 0.9511
1.25 1
1.3 0.9511
1.35 0.809
1.4 0.5878
1.45 0.309
1.5 0
1.55 -0.309
1.6 -0.5878
1.65 -0.809
1.7 -0.9511
1.75 -1
1.8 -0.9511
1.85 -0.809
1.9 -0.5878
1.95 -0.309
2 0
2.05 0.309
2.1 0.5878
2.15 0.809
2.2 0.9511
2.25 1
2.3 0.9511
2.35 0.809
2.4 0.5878
2.45 0.309
2.5 0
2.55 -0.309
2.6 -0.5878
2.65 -0.809
2.7 -0.9511
2.75 -1
2.8 -0.9511
2.85 -0.809
2.9 -0.5878
2.95 -0.309
3 0
3.05 0.309
3.1 0.5878
3.15 0.809
3.2 0.9511
3.25 1
3.3 0.9511
3.35 0.809
3.4 0.5878
3.45 0.309
3.5 0
3.55 -0.309
3.6 -0.5878
3.65 -0.809
3.7 -0.9511
3.75 -1
3.8 -0.9511
3.85 -0.809
3.9 -0.5878
3.95 -0.309
4 0
4.05 0.3081
4.1 0.5805
4.15 0.7867
4.2 0.9045
4.25 0.9239
4.3 0.8474
4.35 0.6898
4.4 0.4755
4.45 0.235
4.5 0
4.55 -0.2007
4.6 -0.3455
4.65 -0.4227
4.7 -0.4318
4.75 -0.3827
4.8 -0.2939
4.85 -0.1889
4.9 -0.0919
4.95 -0.0242
5 0
Ivar KJELBERG
COMSOL Multiphysics(r) fan, retired, former "Senior Expert" at CSEM SA (CH)
Please login with a confirmed email address before reporting spam
Posted:
1 decade ago
03.08.2012, 19:21 GMT-4
Hi
even if your function looks like he product of a sinus and a gaussian, there is no reason why you can not load it, as is, into an interpolation table function in COMSOL, and as you have a fixed time stepping you can set a time stepping solver to strict stepping and range(0,0.05,5) and refer to your function for the BC condition of need. Then the result should be strictly based on your data.
You can also, as you have some 10 points per period, derive a derivative by a simple difference operator, if really needed
--
Good luck
Ivar
Hi
even if your function looks like he product of a sinus and a gaussian, there is no reason why you can not load it, as is, into an interpolation table function in COMSOL, and as you have a fixed time stepping you can set a time stepping solver to strict stepping and range(0,0.05,5) and refer to your function for the BC condition of need. Then the result should be strictly based on your data.
You can also, as you have some 10 points per period, derive a derivative by a simple difference operator, if really needed
--
Good luck
Ivar