A new medical image fusion technique is presented.The method is based on three-dimensional reconstruction.After reconstruction,the three-dimensional volume data is normalized by three-dimensional coordinate conversion...A new medical image fusion technique is presented.The method is based on three-dimensional reconstruction.After reconstruction,the three-dimensional volume data is normalized by three-dimensional coordinate conversion in the same way and intercepted through setting up cutting plane including anatomical structure,as a result two images in entire registration on space and geometry are obtained and the images are fused at last.Compared with traditional two-dimensional fusion technique,three-dimensional fusion technique can not only resolve the different problems existed in the two kinds of images,but also avoid the registration error of the two kinds of images when they have different scan and imaging parameter.The research proves this fusion technique is more exact and has no registration,so it is more adapt to arbitrary medical image fusion with different equipments.展开更多
Segmentation of three-dimensional(3D) complicated structures is of great importance for many real applications.In this work we combine graph cut minimization method with a variant of the level set idea for 3D segmenta...Segmentation of three-dimensional(3D) complicated structures is of great importance for many real applications.In this work we combine graph cut minimization method with a variant of the level set idea for 3D segmentation based on the Mumford-Shah model.Compared with the traditional approach for solving the Euler-Lagrange equation we do not need to solve any partial differential equations.Instead,the minimum cut on a special designed graph need to be computed.The method is tested on data with complicated structures.It is rather stable with respect to initial value and the algorithm is nearly parameter free.Experiments show that it can solve large problems much faster than traditional approaches.展开更多
The mathematical model on the temperature of the waved-edge is constructedaccording to Jaeger's theory of moving solid and based on the used temperature model of the flatinsert. It is possible to forecast the mill...The mathematical model on the temperature of the waved-edge is constructedaccording to Jaeger's theory of moving solid and based on the used temperature model of the flatinsert. It is possible to forecast the milling temperature through programming. The comparableexperiments have been done between the two new three-dimension groove inserts (waved-edge insert,great edge insert) and flat fake insert. The theoretic forecast is in good agreement with theexperimental result. According to the cutting conditions, the boundary condition of finite elementanalysis on cutting temperature field is established, and the three-dimensional temperature fieldsof inserts with grooves are analyzed by FEM, so as to offer a reference basis for the design andoptimization of insert grooves.展开更多
The paper introduces a method to get three-dimensional reproduction of log shape by adopting Spline Function in fitting the curve of the finite log data. The method has ad-vantages of higher accuracy, less acquired da...The paper introduces a method to get three-dimensional reproduction of log shape by adopting Spline Function in fitting the curve of the finite log data. The method has ad-vantages of higher accuracy, less acquired data, easier to use, etc. Making use of high-precision drawing function of computer, the graphs of log geometric shape in different visual angles can be achieved easily with this method. It also provided a firm foundation for the determination of optimum saw cutting scheme.展开更多
Over the past three decades,the numerical manifold method(NMM)has attracted many researchers from geotechnical community because it unifies the solutions of continuous and discontinuous problems in the same framework....Over the past three decades,the numerical manifold method(NMM)has attracted many researchers from geotechnical community because it unifies the solutions of continuous and discontinuous problems in the same framework.However,due to the lack of ready-made preprocessing tools,the development of three dimensional NMM(3DNMM)is still limited.A practical strategy to generate the discretized models for a 3DNMM analysis is proposed.In the proposed strategy,regular hexahedral meshes are uniformly deployed to construct the mathematical cover system.The physical meshes including the joints,material interfaces,and problem domain boundaries are adopted to cut the mathematical cover system into physical cover system and manifold elements(MEs).To improve the efficiency of the proposed strategy,the Intel threading building blocks(TBB)parallel library for CPU paralleling is adopted.Several typical examples are adopted to validate the proposed strategy.The results show that the proposed strategy can effectively generate the discretized 3D models of some geotechnical problems for 3DNMM calculations.The proposed strategy deserves a further investigation.展开更多
文摘A new medical image fusion technique is presented.The method is based on three-dimensional reconstruction.After reconstruction,the three-dimensional volume data is normalized by three-dimensional coordinate conversion in the same way and intercepted through setting up cutting plane including anatomical structure,as a result two images in entire registration on space and geometry are obtained and the images are fused at last.Compared with traditional two-dimensional fusion technique,three-dimensional fusion technique can not only resolve the different problems existed in the two kinds of images,but also avoid the registration error of the two kinds of images when they have different scan and imaging parameter.The research proves this fusion technique is more exact and has no registration,so it is more adapt to arbitrary medical image fusion with different equipments.
基金support from the Centre for Integrated Petroleum Research(CIPR),University of Bergen, Norway,and Singapore MOE Grant T207B2202NRF2007IDMIDM002-010
文摘Segmentation of three-dimensional(3D) complicated structures is of great importance for many real applications.In this work we combine graph cut minimization method with a variant of the level set idea for 3D segmentation based on the Mumford-Shah model.Compared with the traditional approach for solving the Euler-Lagrange equation we do not need to solve any partial differential equations.Instead,the minimum cut on a special designed graph need to be computed.The method is tested on data with complicated structures.It is rather stable with respect to initial value and the algorithm is nearly parameter free.Experiments show that it can solve large problems much faster than traditional approaches.
基金National Natural Science Foundation of China(No.50075021)
文摘The mathematical model on the temperature of the waved-edge is constructedaccording to Jaeger's theory of moving solid and based on the used temperature model of the flatinsert. It is possible to forecast the milling temperature through programming. The comparableexperiments have been done between the two new three-dimension groove inserts (waved-edge insert,great edge insert) and flat fake insert. The theoretic forecast is in good agreement with theexperimental result. According to the cutting conditions, the boundary condition of finite elementanalysis on cutting temperature field is established, and the three-dimensional temperature fieldsof inserts with grooves are analyzed by FEM, so as to offer a reference basis for the design andoptimization of insert grooves.
文摘The paper introduces a method to get three-dimensional reproduction of log shape by adopting Spline Function in fitting the curve of the finite log data. The method has ad-vantages of higher accuracy, less acquired data, easier to use, etc. Making use of high-precision drawing function of computer, the graphs of log geometric shape in different visual angles can be achieved easily with this method. It also provided a firm foundation for the determination of optimum saw cutting scheme.
基金supported by the Youth Innovation Promotion Association CAS(Grant No.2020327)the Young Top-notch Talent Cultivation Program of Hubei Provincethe National Natural Science Foundation of China(Grant No.12072357)。
文摘Over the past three decades,the numerical manifold method(NMM)has attracted many researchers from geotechnical community because it unifies the solutions of continuous and discontinuous problems in the same framework.However,due to the lack of ready-made preprocessing tools,the development of three dimensional NMM(3DNMM)is still limited.A practical strategy to generate the discretized models for a 3DNMM analysis is proposed.In the proposed strategy,regular hexahedral meshes are uniformly deployed to construct the mathematical cover system.The physical meshes including the joints,material interfaces,and problem domain boundaries are adopted to cut the mathematical cover system into physical cover system and manifold elements(MEs).To improve the efficiency of the proposed strategy,the Intel threading building blocks(TBB)parallel library for CPU paralleling is adopted.Several typical examples are adopted to validate the proposed strategy.The results show that the proposed strategy can effectively generate the discretized 3D models of some geotechnical problems for 3DNMM calculations.The proposed strategy deserves a further investigation.
