Optical coherence elastography based on inverse compositional Gauss-Newton digital volume correlation with second-order shape function
A digital volume correlation (DVC)-based optical coherence elastography (OCE) method with inverse compositional Gauss-Newton (IC-GN) algorithm and second-order shape function is presented in this study. The systematic measurement errors of displacement and strain from our OCE method were less than 0...
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| Veröffentlicht in: | Optics express Jg. 30; H. 23; S. 41954 |
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| Hauptverfasser: | , , , , |
| Format: | Journal Article |
| Sprache: | Englisch |
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07.11.2022
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| ISSN: | 1094-4087, 1094-4087 |
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| Abstract | A digital volume correlation (DVC)-based optical coherence elastography (OCE) method with inverse compositional Gauss-Newton (IC-GN) algorithm and second-order shape function is presented in this study. The systematic measurement errors of displacement and strain from our OCE method were less than 0.2 voxel and 4 × 10
−4
, respectively. Second-order shape function could better match complex deformation and decrease speckle rigidity-induced error. Compared to conventional methods, our OCE method could track a larger strain range up to 0.095 and reduce relative error by 30-50%. This OCE method has the potential to become an effective tool in characterising mechanical properties of biological tissue. |
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| AbstractList | A digital volume correlation (DVC)-based optical coherence elastography (OCE) method with inverse compositional Gauss-Newton (IC-GN) algorithm and second-order shape function is presented in this study. The systematic measurement errors of displacement and strain from our OCE method were less than 0.2 voxel and 4 × 10-4, respectively. Second-order shape function could better match complex deformation and decrease speckle rigidity-induced error. Compared to conventional methods, our OCE method could track a larger strain range up to 0.095 and reduce relative error by 30-50%. This OCE method has the potential to become an effective tool in characterising mechanical properties of biological tissue.A digital volume correlation (DVC)-based optical coherence elastography (OCE) method with inverse compositional Gauss-Newton (IC-GN) algorithm and second-order shape function is presented in this study. The systematic measurement errors of displacement and strain from our OCE method were less than 0.2 voxel and 4 × 10-4, respectively. Second-order shape function could better match complex deformation and decrease speckle rigidity-induced error. Compared to conventional methods, our OCE method could track a larger strain range up to 0.095 and reduce relative error by 30-50%. This OCE method has the potential to become an effective tool in characterising mechanical properties of biological tissue. A digital volume correlation (DVC)-based optical coherence elastography (OCE) method with inverse compositional Gauss-Newton (IC-GN) algorithm and second-order shape function is presented in this study. The systematic measurement errors of displacement and strain from our OCE method were less than 0.2 voxel and 4 × 10 −4 , respectively. Second-order shape function could better match complex deformation and decrease speckle rigidity-induced error. Compared to conventional methods, our OCE method could track a larger strain range up to 0.095 and reduce relative error by 30-50%. This OCE method has the potential to become an effective tool in characterising mechanical properties of biological tissue. |
| Author | Sun, Cuiru Wu, Hao Wang, Jiaqiu Amaya Catano, Jorge Alberto Li, Zhiyong |
| Author_xml | – sequence: 1 givenname: Hao surname: Wu fullname: Wu, Hao – sequence: 2 givenname: Jiaqiu orcidid: 0000-0001-7710-3508 surname: Wang fullname: Wang, Jiaqiu – sequence: 3 givenname: Jorge Alberto surname: Amaya Catano fullname: Amaya Catano, Jorge Alberto – sequence: 4 givenname: Cuiru orcidid: 0000-0001-9253-3733 surname: Sun fullname: Sun, Cuiru – sequence: 5 givenname: Zhiyong orcidid: 0000-0002-6814-9165 surname: Li fullname: Li, Zhiyong |
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| CitedBy_id | crossref_primary_10_1016_j_jbiomech_2024_112354 crossref_primary_10_1002_jbio_202300094 crossref_primary_10_1016_j_optlaseng_2025_109097 crossref_primary_10_1109_ACCESS_2024_3398786 crossref_primary_10_1016_j_compositesb_2025_112818 crossref_primary_10_1002_jbio_202500252 crossref_primary_10_1007_s11082_024_06823_8 crossref_primary_10_1002_jbio_202500299 crossref_primary_10_1016_j_cmpb_2023_107975 crossref_primary_10_1016_j_ijpvp_2024_105136 crossref_primary_10_1007_s10409_024_24216_x |
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