基于激光散斑干涉的生物活性骨骼应变检测方法
钟平, 潘少慧, 李志松, 赵凌波, 何卓昆. 基于激光散斑干涉的生物活性骨骼应变检测方法[J]. 应用激光, 2018, 38(6): 987.
Zhong Ping, Pan Shaohui, Li Zhisong, Zhao Lingbo, He Zhuokun. Detection of Bioactive Skeletal Strain Based on Laser Speckle Interferometry[J]. APPLIED LASER, 2018, 38(6): 987.
[1] 张良清,苏沂峰,杨万章,等.多功能上肢假肢的研究进展[J].国际生物医学工程杂志,2013,36(5): 311-316.
[2] RI S,FUKAMI Y,WANG Q,et al.Accurate strain distribution measurement based on the sampling moiré method[J].Conference Proceedings of the Society for Experimental Mechanics Series,2017(3): 243-249.
[3] SIM S,HADJAB I,GARON M,et al.Development of an electromechanical grade to assess human knee articular cartilage quality[J].Annals of Biomedical Engineering,2017,45(10): 2410-2421.
[4] HAMADA S,FUJISAWA T,KOYAMA M,et al.Strain mapping with high spatial resolution across a wide observation range by digital image correlation on plastic replicas[J].Materials Characterization,2014(8): 140-146.
[5] SHEN H T,JIANG Z X,WANG B K,et al.Full field strain measurement in split Hopkinson tension bar experiments by using ultra-high-speed camera with digital image correlation[J].Explosion and Shock Waves,2017,37(1): 15-20.
[6] KUMAR M,SHAKHER C.Measurement of hygroscopic strain in deodar wood during convective drying using lensless Fourier transform digial holography[J].Proceedings of SPIE, 2016(9890): 1-9.
[7] PANTELIC D V,GRUJIC D Z,VASILJEVIC D M.Single-beam,dual-view digital holographic interferometry for biomechanical strain measurements of biological objects[J].Journal of Biomedical Optics,2014,19(12): 127005.
[8] LI L,SYTNIK I D,GUBAREV F A,et al.Evaluation of blood plasma coagulability by laser speckle correlation[J].Biomedical Engineering,2018,2(3): 77-180.
[9] MASHIWA N,FURUSHIMA T,MANABE K.Novel non-contact evaluation of strain distribution using digital image correlation with laser speckle pattern of low carbon steel sheet[J].Procedia Engineering,2017(84): 6-21.
[10] MAO L T,CHIANG F P.3D strain mapping in rocks using digital volumetric speckle photography technique[J].Acta Mechanica,2016,227(11): 3069-3085.
[11] GU G Q,XU G Z,XU B.Synchronous measurement of out of plane displacement and slopes by triple-optical-path digital speckle pattern interferometry[J].Metrology and Measurement Systems,2018,25(1): 3-14.
[12] GAO X Y,WANG Y H,LI J R.Spatial carrier color digital speckle pattern interferometry for absolute three dimensional deformation measurement[J].Optical Engineering,2017,56(6): 207-214.
[13] KUMAR M,AGARWAL R,BHUTANI R,et al.Measurement of strain distribution in cortical bone around miniscrew implants used for orthodontic anchorage using digital speckle pattern interferometry[J].Optical Engineering,2016,55(5): 054101.
[14] SRIPRATEEP K,BOHEZ E.CAD/CAE for stress-strain properties of multifilament twisted yarns[J].Textile Research Journal,2017,87(6): 657-668.
[15] CHITSAZAN A,HERZOG W,ROUHI G,et al.Alteration of strain distribution in distal tibia after triple arthrodesis: experimental and finite element investigations[J].Journal of Medical and Biological Engineering,2018,38(3): 469-481.
[16] JAFAROV A,ALI-ZADEH C,ZER Z,et al.Stress distribution of a new type of perforated implants in femur neck fracture: finite element model[J].Journal of Physics,2018,1045(1): 1-5.
[17] 陈教豆.基于双目高速成像与数字散斑相关方法的全场离面振动测量方法研究[D].广州: 华南理工大学,2015.
[18] 刘凯,吴思进,高新亚,等.空间载波数字散斑干涉光路关键参数研究[J].自动化仪表,2015,36(9): 38-40.
[19] 王佳.激光散斑衬比成像方法改进研究[D].武汉: 华中科技大学,2013.
[20] GOODMAN J W.Speckle phenomena in optics[M].Berlin: Roberts and Company,2006: 1-281.
钟平, 潘少慧, 李志松, 赵凌波, 何卓昆. 基于激光散斑干涉的生物活性骨骼应变检测方法[J]. 应用激光, 2018, 38(6): 987. Zhong Ping, Pan Shaohui, Li Zhisong, Zhao Lingbo, He Zhuokun. Detection of Bioactive Skeletal Strain Based on Laser Speckle Interferometry[J]. APPLIED LASER, 2018, 38(6): 987.