Lecture notes on computer science 3314 <; & gt,
Khomeimei Xia Ling
2. Cell-level simulation study on electrophysiological-mechanical composite model of ventricular myocytes; Electro-mechanical modeling and simulation of heart failure.
China Journal of Biomedical Engineering 26
Yu zhang, Xia Ling and others.
3. Using dyadic Green's function/moment method to calculate the RF field excited by MRI coil in multilayer spherical head model-Dyadic Green's function moment method to solve the RF field excited by MRI coil in multilayer spherical head model.
Journal of Zhejiang University (Engineering Edition) 4 1
Xia Ling et al.
4. Parallel FDTD scheme for MRI A parallel FDTD scheme for MRI.
The concept of magnetic resonance part b 31<; & gt,
Wang Hua, Adnan Trakic, Xia Ling, etc.
5. Analysis of ventricular wall motion based on electromechanical biventricular model.
Cardiology IEEE computer < >,
Khomeimei Xia Ling
6. Cell modeling and simulation of short QT syndrome
Dynamics of continuous, discrete and impulsive systems. & gt, 200709 10
Yu zhang, Xia Ling and others.
7. Three-dimensional electromechanical model of dog heart
Dynamics of continuous, discrete and impulsive systems. & gt, 200709 10
Sinus, sinus, etc.
8. An effective numerical method for solving membrane equation of human ventricular cell model.
Journal of computational and theoretical nanoscience & lt& gt, 200709 10/0
Yu zhang, Xia Ling and others.
9. Using the optimization algorithm based on the total least squares theory to solve the inverse problem of ECG.
ICNC07 & lt& gt, 2007090 1
Shou Guofa,, et al.
10. Simulation analysis of mechanical characteristics of canine bundle branch block heart based on three-dimensional electromechanical model
Computers in cardiology. & gt, 2007090 1
Xia Ling et al.
1 1. Combine the regularization framework used to solve the inverse problem of electrocardiogram.
ICIC07 & lt& gt, 2007080 1
Jiang mingfeng, et al
12. Application of efficient numerical method in solving ordinary differential equation model
ICIC07 & lt& gt, 2007080
Yu zhang, Xia Ling and others.
13. Parallel solution in anisotropic propagation simulation of cardiac excitation Parallel solution in anisotropic propagation simulation of cardiac excitation
LNCS4466 & lt& gt, 2007060
Yu zhang, Xia Ling and others.
14. Non-invasive ECG imaging: the application of hybrid method in solving the inverse problem of ECG
LNCS4466 & lt& gt, 2007060 1
Jiang mingfeng, et al
15. the combination of lsqr method and genetic algorithm for solving the inverse problem of ECG.
Physical medicine. Biology & lt& gt, 200702 10/0
Jiang mingfeng, et al
16. Direct and inverse solutions of ECG problems by adaptive boundary element method
LNCS4466 & lt& gt, 2007020 1
Shou Guofa,, et al.
17. Three-dimensional motion analysis of right ventricle based on electrophysiological-mechanical compound heart model.
Journal of Biomedical Engineering 24. , 2007020 1
Xia Ling et al.
18. the application of genetic algorithm in solving the inverse problem of electrocardiogram
Proceedings of the 28th IEEE EMBS Annual International Conference & lt& gt, 2006 100 1
Jiang Mingfeng, Shou Guofa
19. Parallel FDTD Scheme for Electromagnetic Analysis and Design of MRI System-Parallel FDTD Scheme for Electromagnetic Analysis and Design of MRI System
Proceedings of the 28th IEEE EMBS Annual International Conference & lt& gt, 2006 100 1
Hua Wang, Adnan Trakic, Xia Ling, Stuart crozet, Feng Liu and marek Birkoff.
20. Comparison of different choices of regularization parameters in inverse electrocardiogram.
Proceedings of the 28th IEEE EMBS Annual International Conference & lt& gt, 2006 100 1
Shou Guofa, Jiang Mingfeng,,, Liu Feng and Stuart crozet
2 1. Electric heart model construction and ECG simulation Electric heart model construction and ECG simulation
Information methods in medicine. 5 & gt, 2006 100 1
Length Xia, Huo, Wei Qingqun, Liu Fangfang, Shi Zhengrong.
22. Simulation of Brugada syndrome with cell and three-dimensional whole heart modeling method; Simulation of Brugada syndrome with cell and three-dimensional whole heart modeling method
Physiological measurement < >, 20060918
Yu zhang, Zhang Henggui, Wei Qing, Liu Feng and Stuart crozet.
23. Effective solution of two-region equation in anisotropic propagation simulation of cardiac excitation.
Lecture notes on computer science 4115 <; & gt, 200608 10
, Xia Ling, Hou Guanghuan
24. Effective solution of two-region equation in anisotropic propagation simulation of cardiac excitation.
Lecture notes on computer science 4115 <; & gt, 20060728
Yu zhang, Xia Ling, He Guanghuan
25. Electrophysiological simulation study on the substitution of ECG T wave caused by ultra-high static magnetic field: Preliminary electrophysiological simulation study on the change of ECG T wave caused by ultra-high static magnetic field.
International Journal of Biomedical Engineering 29
Luo Ruyi,, Zhu
26. The influence of heart movement on surface ECG potential: a simulation study based on MRI.
Medical and biophysics 51<; & gt, 2006062
Wei Qing, Feng Liu, Ben appleton, Xia Ling and others.
27. Simulation study of body surface electrocardiogram based on dynamic heart model.
China Journal of Biomedical Engineering 25
, Ye, Huo Meimei, Liu Feng
28. Progress in modeling and simulation of myocardial cells based on ion channels.
Foreign Medical Biomedical Engineering Volume 28
Lu Xiaohua, Xia Ling
29. Modeling and simulation of electromechanical characteristics of transmural cells in heart failure.
IEEE Computer of Cardiology < >, 20050924
Zhang Yu, Shou Guofa, Huang Ran, Xia Ling.
30. Cellular modeling and simulation of Brugada syndrome.
IEEE Computer of Cardiology < >, 20050924
Xia Ling, Zhang Yu, Lu Xiaohua
3 1. honeycomb? Modeling? And then what? Simulation? Yes? Brugada? Syndrome cells? Modeling? And then what? Simulation? Yes? Brugada? symptomes complice
32 & lt& gt, 2005090 1
32. Electronic heart model combining real geometry and motion.
& lt& gt, 2005090 1
Ben appleton, Liu Nianjun, Stuart crozet and Stephen Wilson.
33. Simulation study on electrical characteristics of transmural cells in heart failure.
& lt& gt, 2005090
Zhang Yu, Shou Guofa, Xia Ling
34. Study on electrophysiological model of ECG T wave changes caused by ultra-high static magnetic field.
& lt& gt, 2005090 1
Luo Ruyi, Zhang Yu, Xia Ling
35. Cellular electromechanical modeling and simulation of heart failure
& lt& gt, 2005090 1
Huang Ran, Zhang Yu, Xia Ling
36. Analysis of ventricular wall motion based on three-dimensional electromechanical biventricular model
Medical and biological physics & gt, 20050421
Xia Ling, Huo Meimei, Wei Qing, Feng Liu, Stuart crozet.
37. analysis Yes? Heart? Ventricular? Wall? Exercise? Foundation? Open? Answer? Three-dimensional Electromechanical? Biventricular? Model analysis? Yes? Heart? Ventricular? Wall? Exercise? Foundation? Open? Answer? Three-dimensional Electromechanical? Biventricular? model
50 & lt& gt, 2005040 1
38. Simulation study on cardiac stimulation by magnetic resonance imaging model Simulation study on the influence of electromagnetic field on human heart in electromagnetic field magnetic resonance imaging.
Foreign Medical Biomedical Engineering Volume 28
Tao Guisheng, Xia Ling, He Chaoming
39. Progress in modeling and simulation of myocardial cells based on ion channels.
Foreign Medical Biomedical Engineering Volume 28
40. Honeycomb? Modeling? And then what? Simulation? Yes? Brugada? symptomes complice
IEEE? Computer? Are you online? Cardiology & gt, 2005-09-01
4 1. Simulation? Study? Yes? Across the wall? Honeycomb? Electrical? Attribute? Are you online? Failure? Humans? heart
27 & lt& gt,2005-09-0 1
42. Electrophysiology? Modeling? Study? Yes? Electrocardiogram T wave? Alternating? Caused it? By who? Super high? Static electricity Magnetic? Field (plural); Field; Domain; field
27 & lt& gt, 2005-09-0
43. Odelin? And then what? Simulation? Yes? Across the wall? Honeycomb? Electromechanical? Attribute? Are you online? Heart? fail
IEEE? Computer? Are you online? Cardiology & gt, 2005-09-01
44. Honeycomb? Level? Electromechanical? Models? And then what? Simulation? Yes? Heart? fail
27 & lt& gt,2005-09-0 1
45. analysis? Yes? Heart? Ventricular? Wall? Exercise? Foundation? Open? Answer? Three-dimensional Electromechanical? Biventricular? model
Physics? Are you online? Medicine? And then what? Biology & gt, 2005-04-01
46. Model simulation study on the influence of electromagnetic field on human heart in magnetic resonance imaging.
Foreign Medical Biomedical Engineering Volume 28
47. Object-oriented finite difference time domain simulator for electromagnetic analysis and design of MRI —— Application in strong field analysis.
Journal of Magnetic Resonance172 <; & gt, 2004 120 1
Wei Qing, Liu Feng, Xia Ling, crozet
48. Three-dimensional? Exercise? Analysis? Yes? That? Right? Ventricular? Use? Ann? Electromechanical? Biventricular? Three-dimensional model? Exercise? Analysis? Yes? That? Right? Ventricular? Use? Ann? Electromechanical? Biventricular? model
33 14 & lt; & gt, 2004 120 1
4. Modeling and simulation of beating heart.
IEEE Computer for Cardiology 31<; & gt, 200409
Xia Ling, Ke Meimei, Zhang Xin
50. Object-oriented electromagnetic analysis and design finite difference time domain simulator.
& lt& gt, 2004090 1
Wei Qing, crozet, Xia Ling, Liu Feng
5 1. analysis of right ventricular wall motion based on electromechanical biventricular model
& lt& gt, 2004090
Xia Ling, Khomeimei, Liu Feng
52.? Object oriented? Designed? Finite difference? Time domain? Simulator? For what? Electromagnetic? Analysis? And then what? Design? Are you online? Magnetic resonance imaging-application? Where to? Tall? Field? analyse
Diary? Yes? Magnetic? Resonance172 <; & gt,2004- 12-0 1
53. Three-dimensional? Exercise? Analysis? Yes? That? Right? Ventricular? Use? Ann? Electromechanical? Biventricular? model
Lecture? Notes? Are you online? Computer? science 33 14 & lt; & gt,2004- 12-0 1
54. The influence of magnetically induced electric field on cardiac electrical activity in magnetic resonance imaging: a model study.
Magnetic resonance in medicine & lt6>, 2003 120 1
Liu Feng, Xia Ling, Stuart crozet
55. Research progress of cardiac modeling and simulation.
Foreign Medical Biomedical Engineering Volume 26
Xia Ling Khomeimei
56. The electromechanical heart model is used to analyze the influence of electrical asynchrony on the local mechanics of infarcted left ventricle.
JSME International Magazine, A46 Series & lt1> , 20030 1
Liu Feng, Xia Ling, Zhang Xin
57. Mechanical response analysis of human left ventricle under main force ECG excitation.
Journal of Computational Mechanics 19
Xia Ling, Liu Feng.
58. Simulation study on the influence of electrical asynchrony on the local mechanics of ischemic ventricle using electromechanical heart model
IEEE Computer of Cardiology < >, 20020924
Xia Ling, Khomeimei, Liu Feng
59. Simulation study on the potential danger of cardiac stimulation
IEEE Computer of Cardiology < >, 20020924
Xia Ling, Liu Feng, Zhao Huawei
60. Research progress of nerve and heart stimulation by electromagnetic field in magnetic resonance imaging.
Journal of biophysics 18
Xia Ling, He Chaoming
6 1. Establishment of a composite finite element mechanical model of human left ventricle.
China Journal of Biomedical Engineering 21; , 2002060 1
, Liu Feng,, Lu
62. Construction of ECG simulation model of beating heart.
Journal of biophysics 17
Zhang,,
63. The construction of three-dimensional composite finite element mechanical model of human left ventricle.
JSME international magazine, C44 series & lt& gt, 200 1020 1
Liu Feng, Lu,,,.
64. A new method of ECG detection-study on external surface potential-a new method of detecting ECG activity.
China Journal of Biomedical Engineering 20
Wu Guohua, Xia Ling
65. Construction of three-dimensional mechanical model of human left ventricle
& lt& gt, 2000 100 1
Wu Guohua, Liu Feng, Xia Ling
66. Simulation study of myocardial infarction based on heart model.
Progress of natural science 10
Liu Feng, Xiao Guozhen, Liu Yaqun, Lu
67. Theoretical basis and calculation of body surface Laplacian electrocardiogram Theoretical basis and calculation of body surface Laplacian diagram based on equivalent cardiac power supply.
Journal of Zhejiang University 34
Zhang, Lu
68. The contribution of body surface mapping to the location of myocardial infarction and its value in determining the area of myocardial infarction.
China Journal of Biomedical Engineering19; , 2000020 1
, Xia Ling, Lv Weixue
69. The theoretical basis of Laplace ECG based on real heart-trunk model.
China Journal of Biomedical Engineering18; , 1999060 1
Zhang, Zhang, Lu
70. Study on coronary artery stenosis by heart trunk model.
20 & lt& gt, 1998 100 1
, Xia Ling, Lv Weixue
7 1. Simulation of His bundle electrogram in computerized three-dimensional heart model
20 & lt& gt, 1998 100 1
Sun Yajie, Lu
72. Multichannel CCD cold-rolled sheet width measuring instrument Multichannel CCD cold-rolled sheet online width measuring instrument.
No.33 steel
, Xia Ling, Lv Weixue
73. Quantitative simulation study on the influence of ECG parameters on ECG rhythm: quantitative simulation study on the influence of myocardial electrical characteristics parameters on ECG rhythm.
China Journal of Biomedical Engineering17; , 1998030 1
Duan Yunsuo, Lu
74. Solving the inverse problem of ECG based on virtual heart.
China Journal of Biomedical Engineering17; , 1998030 1
, Lu
75. Study on the mechanism of reentry: A simulation study on the mechanism of reentry.
Journal of biophysics 13
, Zhang, Duan Yunsuo, Lu
76. Study on the optimal location of ventricular pre-excitation accessory pathway by heart model parameters.
IEEE Computer for Cardiology & lt>,19971001
, Xia Ling, Lv Weixue
77. Extraction of hidden information in biological signals
Medical information method & lt>,19971001
Lu, Xia Ling
78. Research progress of bioelectromagnetism: research trend.
Journal of biophysics 13
, Xiao Guozhen, Lu
79. Study on Location of Ventricular Preexcitation Bypass Based on Virtual Heart Model Parametric Solution of Inverse ECG Problem The parametric solution of Virtual Heart Model is used to locate ventricular Preexcitation Bypass.
Journal of biophysics 13
, Xia Ling, Lv Weixue
80. Microcomputer arrhythmia simulation model
34(Suppl . 1)& lt; & gt, 1996060 1
, Lu, Duan Yunsuo
8 1. A New Method of Inverse ECG Problem
Medical and health care. Bioengineering and bioengineering. Calculate 34 (Suppl.1) < & gt, 1996060
Lu, Wei Daming
82. Simulation study of epicardial potential.
China Journal of Biomedical Engineering15; , 1996030 1
Lu, Xia Ling
83. Computer simulation of epicardial potential using a heart trunk model with real geometry.
IEEE journal of biomedical engineering & lt& gt, 1996030 1
Lv Weixue Xia Ling
84. Simulation study on the influence of myocardial electrical excitation conduction velocity on arrhythmia: Simulation study on the influence of myocardial electrical excitation conduction velocity on arrhythmia.
Journal of biophysics 12
Duan Yunsuo, Lu
85. Three-dimensional simulation of epicardial potential using microcomputer-based heart trunk model Three-dimensional simulation of epicardial potential using microcomputer-based heart trunk model
Medical engineering and medicine. Physics17 <; & gt, 00000000