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已同步 2025-08-07 15:10:13 +08:00
Updated to account for changed PML cmd syntax
这个提交包含在:
Craig Warren
@@ -34,7 +34,7 @@ gv1 = gprMax.GeometryView(p1=(0, 0, 0), p2=(x, y, z), dl=(dl, dl, dl),
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gv2 = gprMax.GeometryView(p1=(0, 0, 0), p2=(x, y, z), dl=(dl, dl, dl),
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filename=Path(*parts[:-1], parts[-1] + '_f'), output_type='f')
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pmls = {'CFS-PML': {'pml_type': gprMax.PMLFormulation(pml='HORIPML'),
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pmls = {'CFS-PML': {'pml': gprMax.PMLProps(formulation='HORIPML', thickness=10),
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# Parameters from http://dx.doi.org/10.1109/TAP.2018.2823864
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'pml_cfs': [gprMax.PMLCFS(alphascalingprofile='constant',
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alphascalingdirection='forward',
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@@ -46,74 +46,74 @@ pmls = {'CFS-PML': {'pml_type': gprMax.PMLFormulation(pml='HORIPML'),
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sigmascalingdirection='forward',
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sigmamin=0,
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sigmamax=1.1 * ((4 + 1) / (150 * np.pi * dl)))]},
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'HORIPML-1': {'pml_type': gprMax.PMLFormulation(pml='HORIPML'),
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# Parameters from http://dx.doi.org/10.1109/TAP.2011.2180344
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'pml_cfs': [gprMax.PMLCFS(alphascalingprofile='constant',
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alphascalingdirection='forward',
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alphamin=0, alphamax=0,
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kappascalingprofile='quartic',
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kappascalingdirection='forward',
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kappamin=1, kappamax=12,
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sigmascalingprofile='quartic',
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sigmascalingdirection='forward',
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sigmamin=0,
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sigmamax=0.7 * ((4 + 1) / (150 * np.pi * dl)))]},
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'HORIPML-2': {'pml_type': gprMax.PMLFormulation(pml='HORIPML'),
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# Parameters from http://dx.doi.org/10.1109/TAP.2018.2823864
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'pml_cfs': [gprMax.PMLCFS(alphascalingprofile='constant',
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alphascalingdirection='forward',
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alphamin=0, alphamax=0,
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kappascalingprofile='constant',
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kappascalingdirection='forward',
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kappamin=1, kappamax=1,
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sigmascalingprofile='sextic',
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sigmascalingdirection='forward',
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sigmamin=0,
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sigmamax=0.275 / (150 * np.pi * dl)),
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gprMax.PMLCFS(alphascalingprofile='sextic',
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alphascalingdirection='forward',
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alphamin=0.07, alphamax=0.07 + (0.275 / (150 * np.pi * dl)),
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kappascalingprofile='cubic',
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kappascalingdirection='forward',
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kappamin=1, kappamax=8,
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sigmascalingprofile='quadratic',
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sigmascalingdirection='forward',
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sigmamin=0,
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sigmamax=2.75 / (150 * np.pi * dl))]},
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'MRIPML-1': {'pml_type': gprMax.PMLFormulation(pml='MRIPML'),
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# Parameters from Antonis' MATLAB script (M3Dparams.m)
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'pml_cfs': [gprMax.PMLCFS(alphascalingprofile='constant',
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alphascalingdirection='forward',
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alphamin=0.05, alphamax=0.05,
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kappascalingprofile='quartic',
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kappascalingdirection='forward',
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kappamin=1, kappamax=8,
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sigmascalingprofile='quartic',
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sigmascalingdirection='forward',
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sigmamin=0,
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sigmamax=1.1 * ((4 + 1) / (150 * np.pi * dl)))]},
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'MRIPML-2': {'pml_type': gprMax.PMLFormulation(pml='MRIPML'),
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# Parameters from http://dx.doi.org/10.1109/TAP.2018.2823864
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'pml_cfs': [gprMax.PMLCFS(alphascalingprofile='quadratic',
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alphascalingdirection='reverse',
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alphamin=0, alphamax=0.15,
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kappascalingprofile='quartic',
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kappascalingdirection='forward',
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kappamin=1, kappamax=12,
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sigmascalingprofile='quartic',
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sigmascalingdirection='forward',
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sigmamin=0,
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sigmamax=0.65 * ((4 + 1) / (150 * np.pi * dl))),
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gprMax.PMLCFS(alphascalingprofile='linear',
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alphascalingdirection='reverse',
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alphamin=0.07, alphamax=0.8,
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kappascalingprofile='constant',
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kappascalingdirection='forward',
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kappamin=0, kappamax=0,
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sigmascalingprofile='quadratic',
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sigmascalingdirection='forward',
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sigmamin=0,
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sigmamax=0.65 * ((2 + 1) / (150 * np.pi * dl)))]}
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'HORIPML-1': {'pml': gprMax.PMLProps(formulation='HORIPML', thickness=10),
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# Parameters from http://dx.doi.org/10.1109/TAP.2011.2180344
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'pml_cfs': [gprMax.PMLCFS(alphascalingprofile='constant',
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alphascalingdirection='forward',
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alphamin=0, alphamax=0,
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kappascalingprofile='quartic',
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kappascalingdirection='forward',
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kappamin=1, kappamax=12,
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sigmascalingprofile='quartic',
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sigmascalingdirection='forward',
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sigmamin=0,
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sigmamax=0.7 * ((4 + 1) / (150 * np.pi * dl)))]},
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'HORIPML-2': {'pml': gprMax.PMLProps(formulation='HORIPML', thickness=10),
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# Parameters from http://dx.doi.org/10.1109/TAP.2018.2823864
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'pml_cfs': [gprMax.PMLCFS(alphascalingprofile='constant',
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alphascalingdirection='forward',
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alphamin=0, alphamax=0,
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kappascalingprofile='constant',
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kappascalingdirection='forward',
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kappamin=1, kappamax=1,
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sigmascalingprofile='sextic',
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sigmascalingdirection='forward',
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sigmamin=0,
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sigmamax=0.275 / (150 * np.pi * dl)),
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gprMax.PMLCFS(alphascalingprofile='sextic',
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alphascalingdirection='forward',
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alphamin=0.07, alphamax=0.07 + (0.275 / (150 * np.pi * dl)),
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kappascalingprofile='cubic',
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kappascalingdirection='forward',
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kappamin=1, kappamax=8,
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sigmascalingprofile='quadratic',
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sigmascalingdirection='forward',
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sigmamin=0,
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sigmamax=2.75 / (150 * np.pi * dl))]},
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'MRIPML-1': {'pml': gprMax.PMLProps(formulation='MRIPML', thickness=10),
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# Parameters from Antonis' MATLAB script (M3Dparams.m)
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'pml_cfs': [gprMax.PMLCFS(alphascalingprofile='constant',
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alphascalingdirection='forward',
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alphamin=0.05, alphamax=0.05,
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kappascalingprofile='quartic',
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kappascalingdirection='forward',
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kappamin=1, kappamax=8,
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sigmascalingprofile='quartic',
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sigmascalingdirection='forward',
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sigmamin=0,
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sigmamax=1.1 * ((4 + 1) / (150 * np.pi * dl)))]},
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'MRIPML-2': {'pml': gprMax.PMLProps(formulation='MRIPML', thickness=10),
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# Parameters from http://dx.doi.org/10.1109/TAP.2018.2823864
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'pml_cfs': [gprMax.PMLCFS(alphascalingprofile='quadratic',
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alphascalingdirection='reverse',
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alphamin=0, alphamax=0.15,
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kappascalingprofile='quartic',
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kappascalingdirection='forward',
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kappamin=1, kappamax=12,
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sigmascalingprofile='quartic',
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sigmascalingdirection='forward',
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sigmamin=0,
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sigmamax=0.65 * ((4 + 1) / (150 * np.pi * dl))),
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gprMax.PMLCFS(alphascalingprofile='linear',
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alphascalingdirection='reverse',
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alphamin=0.07, alphamax=0.8,
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kappascalingprofile='constant',
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kappascalingdirection='forward',
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kappamin=0, kappamax=0,
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sigmascalingprofile='quadratic',
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sigmascalingdirection='forward',
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sigmamin=0,
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sigmamax=0.65 * ((2 + 1) / (150 * np.pi * dl)))]}
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}
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scenes = []
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@@ -131,9 +131,7 @@ for k, v in pmls.items():
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# scene.add(gv1)
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# scene.add(gv2)
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pml_cells = gprMax.PMLCells(thickness=10)
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scene.add(pml_cells)
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scene.add(v['pml_type'])
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scene.add(v['pml'])
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for pml_cfs in v['pml_cfs']:
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scene.add(pml_cfs)
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@@ -34,8 +34,7 @@ gv1 = gprMax.GeometryView(p1=(0, 0, 0), p2=(x, y, z), dl=(dl, dl, dl),
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gv2 = gprMax.GeometryView(p1=(0, 0, 0), p2=(x, y, z), dl=(dl, dl, dl),
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filename=Path(*parts[:-1], parts[-1] + '_f'), output_type='f')
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pml_type = gprMax.PMLFormulation(pml='HORIPML')
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pml_cells = gprMax.PMLCells(thickness=10)
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pml = gprMax.PMLProps(formulation='HORIPML', thickness=10)
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# Parameters from http://dx.doi.org/10.1109/TAP.2018.2823864
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pml_cfs = gprMax.PMLCFS(alphascalingprofile='constant',
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@@ -62,8 +61,7 @@ scene.add(rx)
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# scene.add(gv1)
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# scene.add(gv2)
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scene.add(pml_cells)
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scene.add(pml_type)
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scene.add(pml)
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scene.add(pml_cfs)
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# Run model
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@@ -34,7 +34,7 @@ cases = {'off': {'x0': 0, 'y0': 0, 'z0': 0, 'xmax': 0, 'ymax': 0, 'zmax':0},
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'zmax': {'x0': 0, 'y0': 0, 'z0': 0, 'xmax': 0, 'ymax': 0, 'zmax': thick}}
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# PML formulation
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pml_type = gprMax.PMLFormulation(pml='HORIPML')
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pml_type = gprMax.PMLProps(formulation='HORIPML')
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## Built-in 1st order PML
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pml_cfs = gprMax.PMLCFS(alphascalingprofile='constant',
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@@ -102,9 +102,8 @@ for k, v in cases.items():
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scene.add(hertzian_dipole)
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scene.add(rx)
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pml_cells = gprMax.PMLCells(**v)
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scene.add(pml_cells)
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scene.add(pml_type)
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pml = gprMax.PMLProps(formulation='HORIPML', **v)
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scene.add(pml)
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scene.add(pml_cfs)
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scenes.append(scene)
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