Reception pattern influence on magnetoacoustic tomography with magnetic induction
Based on the acoustic radiation theory of a dipole source, the influence of the transducer reception pattern is studied for magnetoacoustic tomography with magnetic induction(MAT-MI). Numerical studies are conducted to simulate acoustic pressures, waveforms, and reconstructed images with unidirectio...
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| Published in | Chinese physics B Vol. 24; no. 1; pp. 329 - 337 |
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| Main Author | |
| Format | Journal Article |
| Language | English |
| Published |
2015
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| Subjects | |
| Online Access | Get full text |
| ISSN | 1674-1056 2058-3834 1741-4199 |
| DOI | 10.1088/1674-1056/24/1/014302 |
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| Abstract | Based on the acoustic radiation theory of a dipole source, the influence of the transducer reception pattern is studied for magnetoacoustic tomography with magnetic induction(MAT-MI). Numerical studies are conducted to simulate acoustic pressures, waveforms, and reconstructed images with unidirectional, omnidirectional, and strong directional transducers.With the analyses of equivalent and projection sources, the influences of the model dimension and the layer effect are qualitatively analyzed to evaluate the performance of MAT-MI. Three-dimensional simulation studies show that the strong directional transducer with a large radius can reduce the influences of equivalent sources, projection sources, and the layer effect effectively, resulting in enhanced pressure and improved image contrast, which is beneficial for boundary pressure extraction in conductivity reconstruction. The reconstructed conductivity contrast images present the conductivity boundaries as stripes with different contrasts and polarities, representing the values and directions of the conductivity changes of the scanned layer. The favorable results provide solid evidence for transducer selection and suggest potential practical applications of MAT-MI in biomedical imaging. |
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| AbstractList | Based on the acoustic radiation theory of a dipole source, the influence of the transducer reception pattern is studied for magnetoacoustic tomography with magnetic induction (MAT-MI). Numerical studies are conducted to simulate acoustic pressures, waveforms, and reconstructed images with unidirectional, omnidirectional, and strong directional transducers. With the analyses of equivalent and projection sources, the influences of the model dimension and the layer effect are qualitatively analyzed to evaluate the performance of MAT-MI. Three-dimensional simulation studies show that the strong directional transducer with a large radius can reduce the influences of equivalent sources, projection sources, and the layer effect effectively, resulting in enhanced pressure and improved image contrast, which is beneficial for boundary pressure extraction in conductivity reconstruction. The reconstructed conductivity contrast images present the conductivity boundaries as stripes with different contrasts and polarities, representing the values and directions of the conductivity changes of the scanned layer. The favorable results provide solid evidence for transducer selection and suggest potential practical applications of MAT-MI in biomedical imaging. Based on the acoustic radiation theory of a dipole source, the influence of the transducer reception pattern is studied for magnetoacoustic tomography with magnetic induction(MAT-MI). Numerical studies are conducted to simulate acoustic pressures, waveforms, and reconstructed images with unidirectional, omnidirectional, and strong directional transducers.With the analyses of equivalent and projection sources, the influences of the model dimension and the layer effect are qualitatively analyzed to evaluate the performance of MAT-MI. Three-dimensional simulation studies show that the strong directional transducer with a large radius can reduce the influences of equivalent sources, projection sources, and the layer effect effectively, resulting in enhanced pressure and improved image contrast, which is beneficial for boundary pressure extraction in conductivity reconstruction. The reconstructed conductivity contrast images present the conductivity boundaries as stripes with different contrasts and polarities, representing the values and directions of the conductivity changes of the scanned layer. The favorable results provide solid evidence for transducer selection and suggest potential practical applications of MAT-MI in biomedical imaging. |
| Author | 孙晓冬 王欣 周雨琦 马青玉 章东 |
| AuthorAffiliation | Key Laboratory of Optoelectronics of Jiangsu Province, School of Physics and Technology, Nanjing Normal University, Nanjing 210023, China Laboratory of Modem Acoustics of MOE, Institute of Acoustics, Nanjing University, Nanjing 210093, China |
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| Cites_doi | 10.1118/1.4800639 10.1088/0031-9155/52/16/025 10.1063/1.2772763 10.1063/1.3675457 10.1109/TBME.2007.912674 10.1371/journal.pone.0023421 10.1118/1.4862836 10.1063/1.3676446 10.1063/1.3486685 10.1109/TMI.2013.2239656 10.1063/1.3526001 10.1109/TMI.2010.2072514 10.1155/2013/161357 10.1088/0031-9155/50/21/015 10.7498/aps.58.6596 10.1109/BMEI.2009.5305122 10.1109/TBME.2006.883827 10.7498/aps.62.084301 10.1103/PhysRevLett.92.033902 10.1016/j.pacs.2013.11.001 |
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| Notes | Based on the acoustic radiation theory of a dipole source, the influence of the transducer reception pattern is studied for magnetoacoustic tomography with magnetic induction(MAT-MI). Numerical studies are conducted to simulate acoustic pressures, waveforms, and reconstructed images with unidirectional, omnidirectional, and strong directional transducers.With the analyses of equivalent and projection sources, the influences of the model dimension and the layer effect are qualitatively analyzed to evaluate the performance of MAT-MI. Three-dimensional simulation studies show that the strong directional transducer with a large radius can reduce the influences of equivalent sources, projection sources, and the layer effect effectively, resulting in enhanced pressure and improved image contrast, which is beneficial for boundary pressure extraction in conductivity reconstruction. The reconstructed conductivity contrast images present the conductivity boundaries as stripes with different contrasts and polarities, representing the values and directions of the conductivity changes of the scanned layer. The favorable results provide solid evidence for transducer selection and suggest potential practical applications of MAT-MI in biomedical imaging. magnetoacoustic tomography with magnetic induction(MAT-MI); reception pattern; projection source and equivalent source; layer effects 11-5639/O4 Sun Xiao-Dong,Wang Xin,Zhou Yu-Qi,Ma Qing-Yu,Zhang Dong(1.Key Laboratory of Optoelectronics of Jiangsu Province, School of Physics and Technology, Nanjing Normal University, Nanjing 210023, China ;2. Laboratory of Modern Acoustics of MOE, Institute of Acoustics, Nanjing University, Nanjing 210093, China) ObjectType-Article-1 SourceType-Scholarly Journals-1 ObjectType-Feature-2 content type line 23 |
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| References | 11 22 12 23 24 15 16 17 18 Xu Y (1) 2005; 50 Kinsler L E (19) 2000 2 Ma Q Y (10) 2007; 52 3 4 5 6 7 8 Li Y L (13) 2011; 20 9 Li Y L (14) 2010; 27 Morse P M (20) 1953 21 |
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| SubjectTerms | Boundaries Computer simulation Image contrast Image reconstruction Magnetic induction Mathematical models Projection Transducers 三维模拟 换能器 接收模式 断层摄影 生物医学成像 磁感应 辐射理论 重建图像 |
| Title | Reception pattern influence on magnetoacoustic tomography with magnetic induction |
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