CNF Example Meshes

From crtc.cs.odu.edu
Revision as of 18:44, 18 November 2019 by Spyridon97 (talk | contribs) (phase_space_000)
Jump to: navigation, search

2D Example Meshes

3D Example Meshes

CFF_14052019

GPDGK16Numerical_140519: Input Image Output Mesh

docker run -v $(pwd):/data/ cnf_tools tessellate3d --input ./CNF_SHARE/CFF_14052019/GPDGK16Numerical_140519.nrrd --delta 5 --weight-limit 0.1 --min-edge 1 --output ./GPDGK16Numerical_140519,d=5,wl=0.1,me=1.vtk

GPDGK16Numerical_140519,d=5,wl=0.1,me=1

GPDMMS13_140519: Input Image Output Mesh

docker run -v $(pwd):/data/ cnf_tools tessellate3d --input ./CNF_SHARE/CFF_14052019/GPDMMS13_140519.nrrd --delta 5 --weight-limit 0.05 --min-edge 1 --output ./GPDMMS13_140519,d=5,wl=0.05,me=1.vtk

GPDMMS13_140519,d=5,wl=0.05,me=1

GPDVGG99_140519: Input Image Output Mesh

docker run -v $(pwd):/data/ cnf_tools tessellate3d --input ./CNF_SHARE/CFF_14052019/GPDVGG99_140519.nrrd --delta 5 --weight-limit 0.05 --min-edge 1 --output ./GPDVGG99_140519,d=5,wl=0.05,me=1.vtk

GPDVGG99_140519,d=5,wl=0.05,me=1

NT_140519: Input Image Output Mesh

docker run -v $(pwd):/data/ cnf_tools tessellate3d --input ./CNF_SHARE/CFF_14052019/NT_140519.nrrd --delta 5 --weight-limit 0.07 --min-edge 1 --output ./NT_140519,d=5,wl=0.07,me=1.vtk

NT_140519,d=5,wl=0.07,me=1

OBS_ALU_140519: Input Image Output Mesh

docker run -v $(pwd):/data/ cnf_tools tessellate3d --input ./CNF_SHARE/CFF_14052019/OBS_ALU_140519.nrrd --delta 5 --weight-limit 0.13 --min-edge 1 --output ./OBS_ALU_140519,d=5,wl=0.13,me=1.vtk

OBS_ALU_140519,d=5,wl=0.13,me=1

OBS_CS_140519: Input Image Output Mesh

docker run -v $(pwd):/data/ cnf_tools tessellate3d --input ./CNF_SHARE/CFF_14052019/OBS_CS_140519.nrrd --delta 5 --weight-limit 0.01 --min-edge 1 --output ./OBS_CS_140519,d=5,wl=0.01,me=1.vtk

OBS_CS_140519,d=5,wl=0.01,me=1

CFF_DATA

cff_E.data_IM: Input Image https://odu.app.box.com/file/560455612588 Output Mesh]

docker run -v $(pwd):/data/ cnf_tools tessellate3d --input ./CNF_SHARE/CFF_DATA/cff_E.data_IM.nrrd --delta 10 --weight-limit 0.01 --min-edge 1 --output ./cff_E.data_IM,d=10,wl=0.01,me=1.vtk

cff_E.data_IM,d=10,wl=0.01,me=1

cff_E.data_REAL: Input Image Output Mesh

docker run -v $(pwd):/data/ cnf_tools tessellate3d --input ./CNF_SHARE/CFF_DATA/cff_E.data_REAL.nrrd --delta 10 --weight-limit 0.1 --min-edge 1 --output ./cff_E.data_REAL,d=10,wl=0.1,me=1.vtk

cff_E.data_REAL,d=10,wl=0.1,me=1

cff_H.data_IM: Input Image Output Mesh

docker run -v $(pwd):/data/ cnf_tools tessellate3d --input ./CNF_SHARE/CFF_DATA/cff_H.data_IM.nrrd --delta 10 --weight-limit 0.05 --min-edge 1 --output ./cff_H.data_IM,d=10,wl=0.05,me=1.vtk

cff_H.data_IM,d=10,wl=0.05,me=1

cff_H.data_REAL: Input Image Output Mesh

docker run -v $(pwd):/data/ cnf_tools tessellate3d --input ./CNF_SHARE/CFF_DATA/cff_H.data_REAL.nrrd --delta 10 --weight-limit 0.1 --min-edge 1 --output ./cff_H.data_REAL,d=10,wl=0.1,me=1.vtk

cff_H.data_REAL,d=10,wl=0.1,me=1

cff_Ht.data_IM: Input Image Output Mesh

docker run -v $(pwd):/data/ cnf_tools tessellate3d --input ./CNF_SHARE/CFF_DATA/cff_Ht.data_IM.nrrd --delta 10 --weight-limit 0.1 --min-edge 1 --output ./cff_Ht.data_IM,d=10,wl=0.1,me=1.vtk

cff_Ht.data_IM,d=10,wl=0.1,me=1

cff_Ht.data_REAL: Input Image Output Mesh

docker run -v $(pwd):/data/ cnf_tools tessellate3d --input ./CNF_SHARE/CFF_DATA/cff_Ht.data_REAL.nrrd --delta 10 --weight-limit 0.1 --min-edge 1 --output ./cff_Ht.data_REAL,d=10,wl=0.1,me=1.vtk

cff_Ht.data_REAL,d=10,wl=0.1,me=1

DATA_04252019

CFF_E_im: Input Image Output Mesh

docker run -v $(pwd):/data/ cnf_tools tessellate3d --input ./CNF_SHARE/DATA_04252019/CFF_E_im.nrrd --delta 5 --weight-limit 0.04 --min-edge 1 --output ./CFF_E_im,d=5,wl=0.04,me=1.vtk

CFF_E_im,d=5,wl=0.04,me=1

CFF_E_re: Input Image Output Mesh

docker run -v $(pwd):/data/ cnf_tools tessellate3d --input ./CNF_SHARE/DATA_04252019/CFF_E_re.nrrd --delta 5 --weight-limit 0.08 --min-edge 1 --output ./CFF_E_re,d=5,wl=0.08,me=1.vtk

CFF_E_re,d=5,wl=0.08,me=1

CFF_H_im: Input Image Output Mesh

docker run -v $(pwd):/data/ cnf_tools tessellate3d --input ./CNF_SHARE/DATA_04252019/CFF_H_im.nrrd --delta 5 --weight-limit 0.06 --min-edge 1 --output ./CFF_H_im,d=5,wl=0.06,me=1.vtk

CFF_H_im,d=5,wl=0.06,me=1

CFF_H_re: Input Image Output Mesh

docker run -v $(pwd):/data/ cnf_tools tessellate3d --input ./CNF_SHARE/DATA_04252019/CFF_H_re.nrrd --delta 5 --weight-limit 0.13 --min-edge 1 --output ./CFF_H_re,d=5,wl=0.13,me=1.vtk

CFF_H_re,d=5,wl=0.13,me=1

GPD_H_down: Input Image Output Mesh

docker run -v $(pwd):/data/ cnf_tools tessellate3d --input ./CNF_SHARE/DATA_04252019/GPD_H_down.nrrd --delta 5 --weight-limit 0.1 --min-edge 1 --output ./GPD_H_down,d=5,wl=0.1,me=1.vtk

GPD_H_down,d=5,wl=0.1,me=1

GPD_H_up: Input Image Output Mesh

docker run -v $(pwd):/data/ cnf_tools tessellate3d --input ./CNF_SHARE/DATA_04252019/GPD_H_up.nrrd --delta 5 --weight-limit 0.1 --min-edge 1 --output ./GPD_H_up,d=5,wl=0.1,me=1.vtk

GPD_H_up,d=5,wl=0.1,me=1

OBS_ALU: Input Image Output Mesh

docker run -v $(pwd):/data/ cnf_tools tessellate3d --input ./CNF_SHARE/DATA_04252019/OBS_ALU.nrrd --delta 5 --background-value 0 --weight-limit 0.07 --min-edge 1 --output ./OBS_ALU,d=5,bg=0,wl=0.07,me=1.vtk

OBS_ALU,d=5,bg=0,wl=0.07,me=1

OBS_ALU: Input Image Output Mesh

docker run -v $(pwd):/data/ cnf_tools tessellate3d --input ./CNF_SHARE/DATA_04252019/OBS_ALU.nrrd --delta 2 --background-value 0 --uniform --output ./OBS_ALU,d=5,bg=0,uniform.vtk

OBS_ALU,d=2,bg=0,uniform

phase_space_000

phase_space_000: Input Image [phase_space_000,d=1.5,wl=0.005,me=1 Output Mesh]

docker run -v $(pwd):/data/ cnf_tools tessellate3d --input ./CNF_SHARE/phase_space_000/phase_space_000.nrrd --delta 1.5 --weight-limit 0.005 --min-edge 1 --output ./phase_space_000,d=1.5,wl=0.005,me=1.vt

phase_space_000,d=1.5,wl=0.005,me=1