Identification of emission sources of umbral flashes using phase congruency
The emission sources of umbral flashes (UFs) are believed to be closely related to running umbral and penumbral waves, and are concluded to be associated with umbral dots in the solar photosphere. Accurate identification of emission sources of UFs is crucial for investigating these physical phenomen...
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| Published in | Research in astronomy and astrophysics Vol. 14; no. 8; pp. 1001 - 1010 |
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| Main Authors | , , , |
| Format | Journal Article |
| Language | English |
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01.08.2014
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| Abstract | The emission sources of umbral flashes (UFs) are believed to be closely related to running umbral and penumbral waves, and are concluded to be associated with umbral dots in the solar photosphere. Accurate identification of emission sources of UFs is crucial for investigating these physical phenomena and their inherent relationships. A relatively novel model of shape perception, namely phase congruency (PC), uses phase information in the Fourier domain to identify the geometrical shape of the region of interest in different intensity levels, rather than intensity or gradient. Previous studies indicate that the model is suitable for identifying features with low contrast and low luminance. In the present paper, we applied the PC model to identify the emission sources of UFs and to locate their positions. For illustrating the high performance of our proposed method, two time sequences of Ca n H images derived from the Hinode/SOT on 2010 August 10 and 2013 August 20 were used. Furthermore, we also compared these results with the analysis results that are identified by the traditional/classical identification methods, including the gray-scale adjusted technique and the running difference technique. The result of our analysis demonstrates that our proposed method is more accurate and effective than the traditional identification methods when applied to identifying the emission sources of UFs and to locating their positions. |
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| AbstractList | The emission sources of umbral flashes (UFs) are believed to be closely related to running umbral and penumbral waves, and are concluded to be associated with umbral dots in the solar photosphere. Accurate identification of emission sources of UFs is crucial for investigating these physical phenomena and their inherent relationships. A relatively novel model of shape perception, namely phase congruency (PC), uses phase information in the Fourier domain to identify the geometrical shape of the region of interest in different intensity levels, rather than intensity or gradient. Previous studies indicate that the model is suitable for identifying features with low contrast and low luminance. In the present paper, we applied the PC model to identify the emission sources of UFs and to locate their positions. For illustrating the high performance of our proposed method, two time sequences of Ca n H images derived from the Hinode/SOT on 2010 August 10 and 2013 August 20 were used. Furthermore, we also compared these results with the analysis results that are identified by the traditional/classical identification methods, including the gray-scale adjusted technique and the running difference technique. The result of our analysis demonstrates that our proposed method is more accurate and effective than the traditional identification methods when applied to identifying the emission sources of UFs and to locating their positions. The emission sources of umbral flashes (UFs) are believed to be closely related to running umbral and penumbral waves, and are concluded to be associated with umbral dots in the solar photosphere. Accurate identification of emission sources of UFs is crucial for investigating these physical phenomena and their inherent relationships. A relatively novel model of shape perception, namely phase congruency (PC), uses phase information in the Fourier domain to identify the geometrical shape of the region of interest in different intensity levels, rather than intensity or gradient. Previous studies indicate that the model is suitable for identifying features with low contrast and low luminance. In the present paper, we applied the PC model to identify the emission sources of UFs and to locate their positions. For illustrating the high performance of our proposed method, two time sequences of Ca II H images derived from the Hinode/SOT on 2010 August 10 and 2013 August 20 were used. Furthermore, we also compared these results with the analysis results that are identified by the traditional/classical identification methods, including the gray-scale adjusted technique and the running difference technique. The result of our analysis demonstrates that our proposed method is more accurate and effective than the traditional identification methods when applied to identifying the emission sources of UFs and to locating their positions. |
| Author | Song Feng Lan Yu Yun-Fei Yang Kai-Fan Ji |
| AuthorAffiliation | Yunnan Key Laboratory of Computer Technology Application / Faculty of Information Engineering and Automation, Kunming University of Science and Technology, Kunming 650500, China Key Laboratory of Solar Activity, National Astronomical Observatories, Chinese Academy of Sciences, Beijing 100012, China Department of Information Engineering, Yunnan Land and Resources Vocational College, Kunming 650217, China |
| Author_xml | – sequence: 1 givenname: Song surname: Feng fullname: Feng, Song – sequence: 2 givenname: Lan surname: Yu fullname: Yu, Lan – sequence: 3 givenname: Yun-Fei surname: Yang fullname: Yang, Yun-Fei – sequence: 4 givenname: Kai-Fan surname: Ji fullname: Ji, Kai-Fan |
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| Cites_doi | 10.1016/j.newast.2011.06.006 10.1007/BF00152672 10.1007/s11207-008-9174-z 10.1007/BF00146140 10.1093/pasj/63.3.575 10.1007/s004260000024 10.1093/pasj/59.sp3.S631 10.1016/0167-8655(87)90013-4 10.1038/324250a0 10.1088/0004-637X/696/2/1683 10.1051/0004-6361:20030237 10.1007/BF00146141 10.1007/s11207-005-5005-7 10.1086/303818 10.1051/0004-6361:20066412 10.1051/0004-6361/201220777 |
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| DocumentTitleAlternate | Identification of emission sources of umbral flashes using phase congruency |
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| Notes | 11-5721/P techniques; image processing -- Sun; chromosphere -- Sun; photo- sphere -- sunspots -- convection The emission sources of umbral flashes (UFs) are believed to be closely related to running umbral and penumbral waves, and are concluded to be associated with umbral dots in the solar photosphere. Accurate identification of emission sources of UFs is crucial for investigating these physical phenomena and their inherent relationships. A relatively novel model of shape perception, namely phase congruency (PC), uses phase information in the Fourier domain to identify the geometrical shape of the region of interest in different intensity levels, rather than intensity or gradient. Previous studies indicate that the model is suitable for identifying features with low contrast and low luminance. In the present paper, we applied the PC model to identify the emission sources of UFs and to locate their positions. For illustrating the high performance of our proposed method, two time sequences of Ca n H images derived from the Hinode/SOT on 2010 August 10 and 2013 August 20 were used. Furthermore, we also compared these results with the analysis results that are identified by the traditional/classical identification methods, including the gray-scale adjusted technique and the running difference technique. The result of our analysis demonstrates that our proposed method is more accurate and effective than the traditional identification methods when applied to identifying the emission sources of UFs and to locating their positions. ObjectType-Article-1 SourceType-Scholarly Journals-1 ObjectType-Feature-2 content type line 23 |
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| References | 11 12 Oppenheim (13) 1981; 69 14 Kneer (4) 1981; 102 17 18 19 Kovesi (5) 1999; 1 Brisken (3) 1997; 478 1 2 6 7 Spruit (16) 1981 8 9 20 10 Socas-Navarro (15) 2009; 696 |
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| Snippet | The emission sources of umbral flashes (UFs) are believed to be closely related to running umbral and penumbral waves, and are concluded to be associated with... The emission sources of umbral flashes (UFs) are believed to be closely related to running umbral and penumbral waves, and are concluded to be associated with... |
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| SubjectTerms | Astronomy Emission Emission analysis Fourier analysis Identification methods Perception Pollution sources Running 排放源 本影 校正技术 电脑模型 相位一致性 鉴别 鉴定方法 闪烁 |
| Title | Identification of emission sources of umbral flashes using phase congruency |
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