Publications

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Peer-Reviewed Journal Articles  (* Corresponding Author)

  1. Muhammad Fulki Fadhillah, Wahyu Luqmanul Hakim, Seul-ki Lee, Kwang-Jae Lee, Seung-Jae Lee, Sung-Ho Chae, Hoonyol Lee, and Chang-Wook Lee*, 2024. Multitemporal analysis of land subsidence induced by open-pit mining activity using improved combined scatterer interferometry with deep learning algorithm, Scientific Reports, vol. 14, p. 6311, https://doi.org/10.1038/s41598-024-56347-0, March 15.

  2. Ãß¿ëÀç, ÀÌÈÆ¿­*, 2023. Á¶¼±ÁöÇüµµ¿Í SRTM ¹× Copernicus ±Û·Î¹ú ¼öÄ¡ÁöÇü¸ðµ¨À» ÀÌ¿ëÇÑ ºÏÇÑ ¹«»ê±¤»êÀÇ Ã¤±¤·® ¹× Æó¼® ÀûÄ¡·® ÃßÁ¤, ´ëÇÑ¿ø°ÝŽ»çÇÐȸÁö, 39±Ç 5-1È£, pp. 495~505, https://doi.org/10.7780/kjrs.2023.39.5.1.3, 10¿ù.

  3. Youngnam Shin and Hoonyol Lee*, 2023. Subsidence of a Coal Ash Landfill in a Power Plant Observed by Applying PSInSAR to Sentinel-1 SAR Data, Remote Sensing, vol. 15, no. 17, paper no. 4127. https://doi.org/10.3390/rs15174127, Aug. 23.

  4. ÃÖÀºÃ¶, ¹®ÁöÇö, °­Å¹Î, ÀÌÈÆ¿­*, 2022. ¼öÄ¡Ç¥°í¸ðµ¨ ¹× PSInSAR ±â¹ýÀ» ÀÌ¿ëÇÑ °­¿øµµ Źé½Ã À强µ¿ Æó¼®ÀûÄ¡ÀåÀÇ ÀûÄ¡·®°ú ħÇÏ°üÃø, ´ëÇÑ¿ø°ÝŽ»çÇÐȸÁö, 38±Ç 6-1È£, pp. 1371~1383, https://doi.org/10.7780/kjrs.2022.38.6.1.29, 12¿ù.

  5. Hoseung Lee, Jihyun Moon, and Hoonyol Lee*, 2022. Activity of Okgye Limestone Mine in South Korea Observed by InSAR Coherence and PSInSAR Techniques, Remote Sensing, vol. 14, no. 24, paper no. 6261. https://doi.org/10.3390/rs14246261, Dec. 10.

  6. Jihyun Moon, Hoseung Lee, and Hoonyol Lee*, 2022. Elevation Change of CookE2 Subglacial Lake in East Antarctica Observed by DInSAR and Time-Segmented PSInSAR. Remote Sensing. vol. 14, no. 18, paper no. 4616. https://doi.org/10.3390/rs14184616, Sep. 15.

  7. Yongjae Chu and Hoonyol Lee*, 2022. Performance of Random Forest Classifier for Flood Mapping Using Sentinel-1 SAR Images, Korean Journal of Remote Sensing, vol. 38, no. 4, pp. 375~386, https://doi.org/10.7780/kjrs.2022.38.4.5, August.

  8. Da-woon Jung and Hoonyol Lee*, 2022. Activity of the Fushun West Open-pit Mine in China Observed by Sentinel-1 InSAR Coherence Images, Korean Journal of Remote Sensing, vol. 38, no. 4, pp. 365 ~ 374, https://doi.org/10.7780/kjrs.2022.38.4.4, August.

  9. Hoonyol Lee* and Jihyun Moon, 2021. Indoor Experiments of Bistatic/Multistatic GB-SAR with One-Stationary and One-Moving Antennae, Remote Sensing, vol. 13, no. 18, paper no. 3733, https://doi.org/10.3390/rs13183733, Sep. 17.

  10. Hoonyol Lee, Heejeong Seo, Hyangsun Han*, Hyeontae Ju, and Joohan Lee, 2021. Velocity Anomaly of Campbell Glacier, East Antarctica, Observed by Double-Differential Interferometric SAR and Ice Penetrating Radar, Remote Sensing, vol. 13, no. 14, paper no. 2691, https://doi.org/10.3390/rs13142691, July 8.

  11. ¹®ÁöÇö, ±è±Ù¿µ, ÀÌÈÆ¿­*, 2021. Sentinel-1 InSAR ±ä¹Ðµµ ¿µ»óÀ» ÀÌ¿ëÇÑ 3¿ù5ÀÏû³â±¤»êÀÇ ÁöÇ¥ º¯È­ ŽÁö, ´ëÇÑ¿ø°ÝŽ»çÇÐȸÁö, 37±Ç, 3È£, pp. 531~542, https://doi.org/10.7780/kjrs.2021.37.3.13, 6¿ù.

  12. Jihyun Moon and Hoonyol Lee*, 2021. Analysis of Activity in an Open-Pit Mine by Using InSAR Coherence-Based Normalized Difference Activity Index, Remote Sensing, vol. 13, no. 9, paper no. 1861, https://doi.org/10.3390/rs13091861, May 10.

  13. Jisang Yoon, Hoonyol Lee*, Jung-Ho Park, Changsoo Cho, Geunyoung Kim, and Hyun-Moo Cho, 2021. Surface deformation and landslides caused by the 6th nuclear test of North Korea on September 3, 2017 detected by satellite SAR and InSAR techniques, Geosciences Journal, vol. 25, no. 2, pp. 255~266, https://doi.org/10.1007/s12303-020-0057-0, April.

  14. Jihyun Moon, Yuri Cho, and Hoonyol Lee*, 2021. Flow Velocity Change of David Glacier, East Antarctica, from 2016 to 2020 Observed by Sentinel-1A SAR Offset Tracking Method, Korean Journal of Remote Sensing, vol. 37, no. 1, pp. 1~11, https://doi.org/10.7780/kjrs.2021.37.1.1, Feb.

  15. Hoonyol Lee* and Jihyun Moon, 2021. Analysis of a Bistatic Ground-Based Synthetic Aperture Radar System and Indoor Experiments, Remote Sensing, vol. 13, no. 1, paper no. 63, https://doi.org/10.3390/rs13010063, Dec. 26, 2020.

  16. Guo-Hui Yao, Chang-Qing Ke*, Xiaobing Zhou, Hoonyol Lee, Xiaoyi Shen, and Yu Cai, 2020. Identification of alpine glaciers in the central Himalayas using fully polarimetric L-band SAR data, IEEE Transactions on Geoscience and Remote Sensing, vol. 58, no. 1, pp. 691-703,  https://doi.org/10.1109/TGRS.2019.2939430, Jan.

  17. ÇѼöÁ¤, ÇÑÇâ¼±, ÀÌÈÆ¿­*, 2019. DDInSAR ¿µ»óÀ» ÀÌ¿ëÇÑ ³²±Ø ·Î½º ºùºØÀÇ Á¶À§º¯Çü°ú ¹°¼º ºÐ¼®, ´ëÇÑ¿ø°ÝŽ»çÇÐȸÁö, 35±Ç, 6-1È£, pp. 933~944, https://doi.org/10.7780/kjrs.2019.35.6.1.5, 12¿ù. 

  18. Chang-Qing Ke*, Hoonyol Lee, and Yan-Fei Han, 2019. Glacier Change in the Yigong Zangbo Basin, Tibetan Plateau, China, Korean Journal of Remote Sensing, vol. 35, no. 4, pp. 491~502, https://doi.org/10.7780/kjrs.2019.35.4.1, August.

  19. Hyung-Sup Jung, Joo-Hyung Ryu*, Sang-Eun Park, Hoonyol Lee and No-Wook Park, 2019. Special Issue on Selected Papers from the "International Symposium on Remote Sensing 2018", Remote Sensing, vol. 11, no. 12, paper number 1439, https://doi.org/10.3390/rs11121439, June.

  20. Jin-Hyuck Choi, Kyoungtae Ko, Yong Sik Gihm, Chang Soo Cho, Hoonyol Lee, Seok Goo Song, Eun-Seok Bang, Hong-Jin Lee, Han-Kyung Bae, Sung Won Kim, Sung-Ja Choi, Sung Soon Lee, and Seung Ryeol Lee*, 2019. Surface deformations and rupture processes associated with the 2017 MW 5.4 Pohang, Korea, earthquake, Bulletin of the Seismological Society of America, vol. 109, no. 2, pp. 756~769, https://doi.org/10.1785/0120180167, April.

  21. Guohui Yao, Chang‑Qing Ke*, Jinhua Zhang, Yanyan Lu, Jiaman Zhao, and Hoonyol Lee, 2019. Surface deformation monitoring of Shanghai based on ENVISAT ASAR and Sentinel-1A data, Environmental Earth Sciences, vol. 78, paper no. 225 (13 pages), https://doi.org/10.1007/s12665-019-8226-z, March.    

  22. Chang-Qing Ke*, Hoonyol Lee and Lan-Yu Li, 2019. InSAR-based Glacier Velocity Mapping in the Parlung Zangbo River Basin, Tibetan Plateau, China, Korean Journal of Remote Sensing, vol. 35, no. 1, pp. 15~28, Feb.

  23. Yu Cai, Chang-Qing Ke, Xingong Li, Guoqing Zhang, Zheng Duan, and Hoonyol Lee, 2019. Variations of Lake Ice Phenology on the Tibetan Plateau from 2001 to 2017 Based on MODIS Data, Journal of Geophysical Research: Atmospheres, vol. 124, issue 2, pp. 825~843, https://doi.org/10.1029/2018JD028993, January 29.

  24. Seok Goo Song and Hoonyol Lee*, 2019. Static Slip Model of the 2017 Mw 5.4 Pohang, South Korea, Earthquake Constrained by the InSAR Data, Seismological Research Letters, vol. 90, no. 1, pp. 140~148, https://doi.org/10.1785/0220180156, Jan.

  25. ±èÇöö, È«»óÈÆ, ¹Ú»óÀº, ÀÌÈÆ¿­*, 2018. Çѱ¹ÀÇ ±ØÁö ¿ø°ÝŽ»ç, ´ëÇÑ¿ø°ÝŽ»çÇÐȸÁö, 34±Ç, 6-2È£, pp. 1155~1163, https://doi.org/10.7780/kjrs.2018.34.6.2.1. 12¿ù.

  26. Hyangsun Han and Hoonyol Lee*, 2018. Glacial and tidal strain of landfast sea ice in Terra Nova Bay, East Antarctica, observed by interferometric SAR techniques, Remote Sensing of Environment, vol. 209, pp. 41~51, https://doi.org/10.1016/j.rse.2018.02.033, May.

  27. Soojeong Han, Hyangsun Han, and Hoonyol Lee*, 2018. Grounding Line Change of Ronne Ice Shelf, West Antarctica, from 1996 to 2015 Observed by using DDInSAR, Korean Journal of Remote Sensing, vol. 34, no. 1, pp. 17~24, Feb.

  28. ÀÌÈÆ¿­*, 2017. SNAP ¼ÒÇÁÆ®¿þ¾î¸¦ ÀÌ¿ëÇÑ KOMPSAT-5 SAR °£¼·±â¹ý ±¸Çö, ´ëÇÑ¿ø°ÝŽ»çÇÐȸÁö, 33±Ç, 6-3È£, pp. 1215~1221, 12¿ù.

  29. ±è½Å¿±, ÀÌ¿ì±Õ, ±è»ó¿Ï, À±Á¤È£, ÀÌÈÆ¿­*, ¹Ú³ë¿í*,  2017. 2017 'öÑȯ°æµµ¿ì¹Ì' ȯ°æ°ø°£Á¤º¸ ¿ì¼ö³í¹® °ø¸ðÀü, ´ëÇÑ¿ø°ÝŽ»çÇÐȸÁö, 33±Ç, 6-2È£, pp. 1041~1046, 12¿ù.

  30. Bum-Jun Kim, Sungsoon Lee, and Hoonyol Lee*, 2017. Spectral Reflectance of Mongsanpo Tidal Flat, Korea, by using Spectroradiometer Experiments and Landsat Data, Korean Journal of Remote Sensing, vol. 33, no. 4, pp. 411~422, August.

  31. Hyangsun Han and Hoonyol Lee*, 2017. Surface strain rates and crevassing of Campbell Glacier Tongue in East Antarctica analysed by tide-corrected DInSAR, Remote Sensing Letters, vol. 8, no. 4, pp. 330~339, April.

  32. Hoonyol Lee, Younghun Ji, and Hyangsun Han*, 2016. Experiments on a Ground-Based Tomographic Synthetic Aperture Radar, Remote Sensing, vol. 8, issue 8, paper number 667, https://doi.org/10.3390/rs8080667, August.

  33. ÇÑÇâ¼±, ±è¿¬Ãá, ÁøÈ¿¸², ÀÌÈÆ¿­*, 2015. InSAR ±ä¹Ðµµ ¿µ»óÀ» ÀÌ¿ëÇÑ ³²±Ø À庸°í±âÁö Àα٠Á¤ÂøÇغùÀÇ ¿¬°£ º¯È­ ºÐ¼®, ´ëÇÑ¿ø°ÝŽ»çÇÐȸÁö, 31±Ç, 6È£, pp. 501~512, 12¿ù.

  34. Hyangsun Han and Hoonyol Lee*, 2015. Tide-corrected flow velocity and mass balance of Campbell Glacier Tongue, East Antarctica, derived from interferometric SAR, Remote Sensing of Environment, vol. 160, pp. 180~192, April.

  35. ±è¿¬Ãá, Áö¿µÈÆ, ÇÑÇâ¼±, ÀÌÁÖÇÑ, ÀÌÈÆ¿­*, 2014. ¼öµ¿ ¸¶ÀÌÅ©·ÎÆÄ Çغù ¸éÀûºñ ÀڷḦ ÀÌ¿ëÇÑ ³²±Ø À庸°í °úÇбâÁö·ÎÀÇ Ç×ÇØ°æ·Î ºÐ¼®, ´ëÇÑ¿ø°ÝŽ»çÇÐȸÁö, 30±Ç 5È£, pp. 677~686, 10¿ù.

  36. ÇÑÇâ¼±, Áö¿µÈÆ, ±è¿¬Ãá, ÀÌÈÆ¿­*, 2014. MODIS ¿µ»óÀ» ÀÌ¿ëÇÑ ºùÇÏÀÇ Á¤±ÔûºùÁö¼ö(NDBI) °³¹ß ¹× º¯È­¿äÀÎ ºÐ¼®, ´ëÇÑ¿ø°ÝŽ»çÇÐȸÁö, 30±Ç 4È£, pp. 481~491, 8¿ù.

  37. Hoonyol Lee, Jae-Hee Lee, Kwang-Eun Kim, Nak-Hoon Sung, and Seong-Jun Cho, 2014. Development of a Truck-mounted Arc-scanning Synthetic Aperture Radar, IEEE Transactions on Geoscience and Remote Sensing, vol. 52, no. 5, pp. 2773-2779, May.

  38. Áö¿µÈÆ, ÀÌÈÆ¿­*, 2014. ±³À°¿ë ·¹ÀÌ´Ù ½Ã½ºÅÛÀÇ Á¦ÀÛ ¹× ½ÇÇè, ´ëÇÑ¿ø°ÝŽ»çÇÐȸÁö, 30±Ç 2È£, pp. 293~302, 4¿ù.

  39. Hyangsun Han and Hoonyol Lee*, 2014. Tide deflection of Campbell Glacier Tongue, Antarctica, analyzed by double-differential SAR interferometry and finite element method, Remote Sensing of Environment, vol. 141, pp. 201-213, Feb.

  40. ÇÑÇâ¼±, ÀÌÁÖÇÑ, ÀÌÈÆ¿­*, 2013. DDInSAR ±â¹ÝÀÇ ºùÇÏ¿¬±¸¸¦ À§ÇÑ µ¿³²±Ø Å׶ó³ë¹Ù ¸¸ÀÇ Á¶À§¸ðµ¨ Á¤¹Ðµµ Æò°¡, ´ëÇÑ¿ø°ÝŽ»çÇÐȸÁö, 29±Ç 4È£, pp. 375~387. 8¿ù.

  41. Yihyun Kim, Thomas Jackson*, Rajat Bindlish, Hoonyol Lee, and Sukyoung Hong, 2013. Monitoring soybean growth using L, C, X-band scatterometer data, International Journal of Remote Sensing, vol. 34, no. 11, pp. 4069-4082, https://doi.org/10.1080/01431161.2013.772309.

  42. Yihyun Kim, Hoonyol Lee* and Sukyoung Hong, 2013. Continuous Monitoring of Rice Growth with a Stable Ground-Based Scatterometer System, IEEE Geoscience and Remote Sensing Letters, vol. 10, no. 4, pp. 831~835, July.

  43. Hyangsun Han and Hoonyol Lee*, 2013. Radar Backscattering of Lake Ice During Freezing and Thawing Stages Estimated by Ground-based Scatterometer Experiment and Inversion from Genetic Algorithm, IEEE Transactions on Geoscience and Remote Sensing, vol. 51, no. 5, pp. 3089~3096, May.

  44. ÇÑÇâ¼±, Áö¿µÈÆ, ÀÌÈÆ¿­*, 2013. COSMO-SkyMed SAR ¿µ»óÀ» ÀÌ¿ëÇÑ µ¿³²±Ø Campbell ºùÇÏÀÇ ¿¬°£ ¸éÀûº¯È­ ¹× À¯¼Ó ÃßÁ¤, ´ëÇÑ¿ø°ÝŽ»çÇÐȸÁö, 29±Ç 1È£, pp. 45~55, 2¿ù.

  45. ±èÀÌÇö, È«¼®¿µ*, ÀÌ°æµµ, Àå¼Ò¿µ, ÀÌÈÆ¿­, ¿ÀÀ̼®, 2013. COSMO-SkyMed SAR ¿µ»óÀ» ÀÌ¿ëÇÑ ¹Ð »ýÀ° ¸ð´ÏÅ͸µ, ´ëÇÑ¿ø°ÝŽ»çÇÐȸÁö, 29±Ç 1È£, pp. 35~43, 2¿ù.

  46. S. Jeong, S. Kang, K. Jang, H. Lee, S. Hong, and D. Ko, 2012. Development of Variable Threshold Models for detection of irrigated paddy rice fields and irrigation timing in heterogeneous land cover, Agricultural Water Management, vol. 115, pp. 83~91, December.

  47. ±èÀÌÇö, È«¼®¿µ, ÀÌÈÆ¿­, ÀÌÀçÀº, ÀÌ°æµµ, 2012. ¸¶ÀÌÅ©·ÎÆÄ »ê¶õ°è¸¦ ÀÌ¿ëÇÑ º­, Äá »ýÀ°´Ü°è ÃßÁ¤, Çѱ¹Åä¾çºñ·áÇÐȸÁö, 45±Ç 4È£, pp. 503~510, 8¿ù.

  48. Yihyun Kim, Thomas Jackson, Rajat Bindlish, Hoonyol Lee, and Sukyoung Hong, 2012. Radar vegetation index for estimating the vegetation water content of rice and soybean, IEEE Geoscience and Remote Sensing Letters, vol. 9, no. 4, pp. 564~568, July. 

  49. Hyangsun Han and Hoonyol Lee*, 2012. Inter-satellite atmospheric and radiometric correction for the retrieval of Landsat sea surface temperature by using Terra MODIS data, Geosciences Journal, vol. 16, no. 2, pp. 171-180, June.

  50. Hoonyol Lee*, 2012. Opposite-side radargrammetry of Magellan synthetic aperture radar on Venus, Geosciences Journal, vol. 16, no. 2, pp. 165~170, June.

  51. ÀÌÀçÈñ, ±è±¤Àº*, Á¶¼ºÁØ, ¼º³«ÈÆ, ÀÌÈÆ¿­, 2012. ´ë±â ±¼Àý·üÀ» ÀÌ¿ëÇÑ ¿øÇü·¹ÀÏ ±â¹Ý Áö»ó SAR ÀÚ·áÀÇ ´ë±âº¸Á¤, ´ëÇÑ¿ø°ÝŽ»çÇÐȸÁö, 28±Ç 2È£, pp. 237~243, 4¿ù.

  52. ÇÑÇâ¼±, ±è¹üÁØ, ÀÌÈÆ¿­*, 2012. X-band »ê¶õ°è¸¦ ÀÌ¿ëÇÑ ÇÏõ ¾óÀ½ µÎ²² ÃøÁ¤¿¡ °üÇÑ ¿¬±¸, Áö±¸¹°¸®¿Í ¹°¸®Å½»ç, 15±Ç 1È£, pp. 16~22, 2¿ù.

  53. ÀÌÈÆ¿­, 2011. SAR ¿µ»óÀÇ È°¿ë. Çѱ¹ÀüÀÚÆÄÇÐȸÁö(ÀüÀÚÆıâ¼ú), 22±Ç 6È£, pp. 55~67, 11¿ù.

  54. ÇÑÇâ¼±, ÀÌÈÆ¿­*, 2011. AMSR-E NASA Team2 ¾Ë°í¸®Áò¿¡¼­ ºùÇϺùÀÇ ¸¶ÀÌÅ©·ÎÆÄ º¹»çƯ¼º. ´ëÇÑ¿ø°ÝŽ»çÇÐȸÁö, 27±Ç 5È£, pp. 543~553, 10¿ù.

  55. ÇÑÇâ¼±, ÀÌÈÆ¿­*, 2011. 4-pass DInSAR ±â¹ýÀ» ÀÌ¿ëÇÑ ¼­³²±Ø Canisteo ¹Ýµµ ÁÖº¯ ºùÇÏ¿Í ÇغùÀÇ Ç¥¸é º¯À§ Çؼ®. ´ëÇÑ¿ø°ÝŽ»çÇÐȸÁö, 27±Ç 5È£, pp. 535~542, 10¿ù.

  56. Hoonyol Lee, Heesam Chae, and Seong-Jun Cho, 2011. Radar Backscattering of Intertidal Mudflats Observed by Radarsat-1 SAR Images and Ground-Based Scatterometer Experiments, IEEE Transactions on Geoscience and Remote Sensing, vol. 49, no. 5, pp. 1701~1711, May.

  57. ÀÌÀçÈñ, ÀÌÈÆ¿­*, Á¶¼ºÁØ, ¼º³«ÈÆ, ±è±¤Àº, 2011. GB-SAR °£¼·±â¹ýÀ¸·Î ÃøÁ¤µÈ X-¹êµå ´ë±â ±¼Àý·üÀÇ »ó´ë½Àµµ, ±â¿Â ¹× ±â¾Ð¿¡ µû¸¥ º¯È­, ´ëÇÑ¿ø°ÝŽ»çÇÐȸÁö, 27±Ç 2È£, pp. 163~170, 4¿ù.

  58. ±èÀÌÇö, È«¼®¿µ*, ÀÌÈÆ¿­, ÀÌÀçÀº, 2011. L, C, X-¹êµå ·¹ÀÌ´õ »ê¶õ°è ÀÚµ¿ÃøÁ¤½Ã½ºÅÛÀ» ÀÌ¿ëÇÑ Äá »ýÀ° ¸ð´ÏÅ͸µ, ´ëÇÑ¿ø°ÝŽ»çÇÐȸÁö, 27±Ç 2È£, pp. 191~201, 4¿ù.

  59. Moon-Kyung Kang, Kwang-Eun Kim*, Seong-Jun Cho, Hoonyol Lee, and Jae-Hee Lee, 2010. Filtering Effect in Supervised Classification of Polarimetric Ground Based SAR Images, Korean Journal of Remote Sensing, vol. 26, no. 6, pp. 705~719, December.

  60. ±èÀÌÇö, È«¼®¿µ, ÀÌÈÆ¿­*, 2010. X-¹êµå ·¹ÀÌ´õ »ê¶õ°è ÀÚµ¿ ÃøÁ¤½Ã½ºÅÛ ±¸Ãà°ú º­ »ýÀ° ¸ð´ÏÅ͸µ, Çѱ¹Åä¾çºñ·áÇÐȸÁö 43±Ç 3È£, pp. 374~383, 6¿ù.

  61. Àå¼Ò¿µ, ÇÑÇâ¼±, ÀÌÈÆ¿­*, 2010. ÀΰøÀ§¼º SAR ¿µ»óÀ» ÀÌ¿ëÇÑ ¸ù»êÆ÷ Á¶°£´ëÀÇ Ridge-Runnel ¹× ¿¬Èç °üÂû, ´ëÇÑ¿ø°ÝŽ»çÇÐȸÁö, 26±Ç 2È£, pp. 115 ~ 122, 4¿ù.

  62. ÀÌÀçÈñ, ÀÌÈÆ¿­*, Á¶¼ºÁØ, ¼º³«ÈÆ, ±èÁ¤È£, 2010. GB-SAR °£¼·±â¹ýÀ» ÀÌ¿ëÇÑ ¹Ý»çüÀÇ ÀÎÀ§Àû º¯À§Å½Áö ¹× ´ë±â½Àµµº¸Á¤, ´ëÇÑ¿ø°ÝŽ»çÇÐȸÁö, 26±Ç, 2È£, pp. 123 ~ 131, 4¿ù.

  63. Moon-Kyung Kang, Kwang-Eun Kim*, Hoonyol Lee, Seong-Jun Cho, and Jae-Hee Lee, 2009. Preliminary Results of Polarimetric Characteristics for C-band Quad-Polarization GB-SAR Images Using H/A/a Polarimetric Decomposition Theorem, Korean Journal of Remote Sensing, vol. 25, no. 6, pp. 531~546, December.

  64. ±è±¤Àº*, Á¶¼ºÁØ, ÀÌÈÆ¿­, 2009. ¿øÇü·¹ÀÏ ±â¹ÝÀÇ Áö»ó SAR ½Ã½ºÅÛ ½Ã¹Ä·¹ÀÌ¼Ç ±â¹ý °³¹ß, ´ëÇÑ¿ø°ÝŽ»çÇÐȸÁö, 25±Ç, 2È£, pp. 107 ~ 112, 4¿ù.

  65. ±èÀÌÇö, È«¼®¿µ, ÀÌÈÆ¿­*, 2009. L, C, X-¹êµå ´ÙÆíÆÄ ·¹ÀÌ´õ »ê¶õ°è¸¦ ÀÌ¿ëÇÑ ³í º­ »ýÀ°ÀÎÀÚ ÃßÁ¤, ´ëÇÑ¿ø°ÝŽ»çÇÐȸÁö, 25±Ç, 1È£, pp. 31-44, 2¿ù.

  66. Hoonyol Lee, 2008. Mapping deforestation and age of evergreen trees by applying a binary coding method to time-series Landsat November images, IEEE Transactions on Geoscience and Remote Sensing, vol. 46, no. 11, pp. 3926 ~ 3936, Nov.

  67. ÀÌÈÆ¿­*, Àå¼Ò¿µ, 2008. ·¹ÀÌ´õ Ãø·®±â¹ý Àû¿ëÀ» À§ÇÑ ´Ù¸ñÀû½Ç¿ëÀ§¼º 5È£ ±Ëµµ ºÐ¼®, ´ëÇÑ¿ø°ÝŽ»çÇÐȸÁö, 24±Ç, 4È£, pp. 351-358, 8¿ù.

  68. Hoonyol Lee and Hyangsun Han, 2008. Evaluation of SSM/I and AMSR-E Sea Ice Concentration in the Antarctic Spring using KOMPSAT-1 EOC Images, IEEE Transactions on Geoscience and Remote Sensing, vol. 46, no. 7, pp. 1905~1912, July.

  69. ÇÑÇâ¼±, ÀÌÈÆ¿­*, 2007. ºÏ±ØÀÇ KOMPSAT-1 EOC ¿µ»ó°ú SSM/I NASA Team Çغù ¸éÀûºñÀÇ ºñ±³ ¿¬±¸, ´ëÇÑ¿ø°ÝŽ»çÇÐȸÁö, 23±Ç, 6È£, pp. 507~520, 12¿ù.

  70. Moon-Kyung Kang and Hoonyol Lee*, 2007. Estimation of ocean current velocity near Incheon using Radarsat-1 SAR and HF-radar data, Korean Journal of Remote Sensing, vol. 23, no. 5, pp. 421~430.

  71. ÀÌÈÆ¿­, Á¶¼ºÁØ*, ¼º³«ÈÆ, ±èÁ¤È£, 2007. GB-SARÀÇ °³¹ß (I) : ½Ã½ºÅÛ ±¸¼º°ú °£¼·±â¹ý, ´ëÇÑ¿ø°ÝŽ»çÇÐȸÁö, 23±Ç, 4È£, pp. 237~245, 8¿ù.

  72. ÀÌÈÆ¿­, Á¶¼ºÁØ*, ¼º³«ÈÆ, ±èÁ¤È£, 2007. GB-SARÀÇ °³¹ß (II) : ¿µ»óÈ­ ±â¹ý. ´ëÇÑ¿ø°ÝŽ»çÇÐȸÁö, 23±Ç, 4È£, pp. 247~256, 8¿ù.

  73. ¹Ú³ë¿í, ÀÌÈÆ¿­*, Áö±¤ÈÆ, 2007. SAR ÀÚ·á¿¡¼­ ÃßÃâÇÑ Æ¯Â¡µé°ú ÅäÁö ÇǺ¹ Ç׸ñ »çÀÌÀÇ ¿¬°ü¼º ºÐ¼®, ´ëÇÑ¿ø°ÝŽ»çÇÐȸÁö, 23±Ç, 4È£, pp. 257~272, 8¿ù.

  74. °­¹®°æ, ¹Ú¿ë¿í, À̹®Áø, ÀÌÈÆ¿­*, 2007. SAR¸¦ ÀÌ¿ëÇÑ ÇØdz, ÆĶû, ÇØ·ù ÃßÃâ ±â¹ý ¿¬±¸, Çѱ¹Ç×ÇØÇ׸¸ÇÐȸÁö, 31±Ç 1È£, pp. 35~42, 2¿ù.

  75. ÀÌÈÆ¿­*, 2006. SAR °ü·Ã ³í¹® Åë°è ºÐ¼®¿¡ ÀÇÇÑ SAR ½Ã½ºÅÛ, ±â¼ú, È°¿ëºÐ¾ß °íÂû, ´ëÇÑ¿ø°ÝŽ»çÇÐȸÁö, 22±Ç, 2È£, pp. 153~174, 4¿ù.

  76. ÀÌÈÆ¿­*,ÇÑÇâ¼±, 2005. Landsat ½Ã°è¿­ ¿µ»óÀ» ÀÌ¿ëÇÑ ÇÑ°­ ¼ö°è È£¼ö ¼ö¿Â°ú °èÀýÀû ¼ºÃþ Çö»ó ºÐ¼®, ´ëÇÑ¿ø°ÝŽ»çÇÐȸÁö, 21±Ç, 4È£, pp. 253~271, 8¿ù. 

  77. ÀÌÈÆ¿­, 2005. ±³À°¿ë ÇÕ¼º±¸°æ·¹ÀÌ´õ ÇÁ·Î¼¼¼­(eSAR Processor)ÀÇ °³¹ß°ú °ø°³, ´ëÇÑ¿ø°ÝŽ»çÇÐȸÁö, 21±Ç, 2È£, pp. 163~171, 4¿ù.

  78. ¹Ú³ë¿í, ÀÌÈÆ¿­, Áö±¤ÈÆ, 2005. ´ÙÁß ½Ã±â SAR ÀڷḦ ÀÌ¿ëÇÑ ÅäÁö ÇǺ¹ ±¸ºÐÀ» À§ÇÑ Æ¯Â¡ ÃßÃâ°ú À¶ÇÕ, ´ëÇÑ¿ø°ÝŽ»çÇÐȸÁö, 21±Ç, 2È£, pp. 145~162, 4¿ù.

  79. Jian Guo Liu, Philippa Mason, Fiona Hilton, and Hoonyol Lee, 2004. Detection of rapid erosion in SE Spain: A GIS approach based on ERS SAR coherence imagery, Photogrammetric Engineering and Remote Sensing, vol. 70, no. 10, pp. 1179~1185.

  80. Jian Guo Liu, Anna Black, Hoonyol Lee, Hiroshi Hanaizumi, and John McM Moore, 2001. Land surface change detection in a desert area in Algeria using multi-temporal ERS SAR coherence images, International Journal of Remote Sensing, vol. 22, no. 13, pp. 2463~2477.

  81. Hoonyol Lee and Jian Guo Liu, 2001. Analysis of topographic decorrelation in SAR interferometry using ratio coherence imagery, IEEE Transactions on Geoscience and Remote Sensing, vol. 39, no. 2, pp. 223~232.

¡¡

Conference Papers

  1. ½Å¿µ³², ÀÌÈÆ¿­, 2023. Sentinel-1 SAR À§¼º¿µ»ó ¹× PSInSAR ±â¹ýÀ» ÀÌ¿ëÇÑ ¼®ÅºÀç ÀûÄ¡Àå Áö¹ÝħÇÏ ºÐ¼®, 2023 ´ëÇÑ¿ø°ÝŽ»çÇÐȸ Ãß°èÇмú´ëȸ, 11¿ù 15-17ÀÏ, °æÁÖÈ­¹éÄÁº¥¼Ç¼¾ÅÍ.

  2. Ãß¿ëÀç, ÀÌÈÆ¿­, 2023. TS-PSInSAR ±â¹ýÀ» ÀÌ¿ëÇÑ ºÏÇÑ ¹«»ê ±¤»êÀÇ 2Â÷¿ø ÁöÇ¥ º¯À§ µµÃâ, 2023 ´ëÇÑ¿ø°ÝŽ»çÇÐȸ Ãß°èÇмú´ëȸ, 11¿ù 15-17ÀÏ, °æÁÖÈ­¹éÄÁº¥¼Ç¼¾ÅÍ.

  3. Yongjae Chu and Hoonyol Lee, 2023. Surface Displacement of Musan Open Pit Mine Based on The PSInSAR Technique Using Sentinel-1 Images, Fringe 2023, September 11-15, University of Leeds, UK.

  4. Youngnam Shin and Hoonyol Lee, 2023. Monitoring of ground subsidence in Orlando coal ash landfills using Sentinel-1 PSInSAR, EGU 2023, April 23-28, Vienna, Austria.

  5. Da-woon Jung and Hoonyol Lee, 2023. Analysis of Surface Displacement Before and After the 2017 Pohang Earthquake using Sentinel-1 PSInSAR Technique, EGU 2023, April 23-28, Vienna, Austria.

  6. Euncheol Choi and and Hoonyol Lee, 2023. Co-seismic displacement of Mw 6.0 Antelope valley eqrthquake, California in 2021 obtained by PSInSAR and GNSS data, ISRS 2023 & UAV-g 2023, April 19-21, ICC Jeju.

  7. Yongjae Chu and Hoonyol Lee, 2023. Surface displacement of the Musan open-pit mine obtained by PSInSAR technique, ISRS 2023 & UAV-g 2023, April 19-21, ICC Jeju.

  8. Da-Woon Jung and Hoonyol Lee, 2023. Analysis of time-series surface displacements in Pohang, South Korea, using Sentinel-1 PSInSAR technique, ISRS 2023 & UAV-g 2023, April 19-21, ICC Jeju.

  9. Youngnam Shin and Hoonyol Lee, 2023. Ground subsidence observations of coal ash landfill in Orlando, Florida using PSInSAR method, ISRS 2023 & UAV-g 2023, April 19-21, ICC Jeju.

  10. ÀÌÈ£½Â, ÀÌÈÆ¿­, 2022. ¿Á°è ¼®È¸¼® ±¤»êÀÇ È°µ¿¼º ¹× »ç¸é¿¡ µû¸¥ Áö¹Ý º¯À§ °üÃø, 2022 ´ëÇÑ¿ø°ÝŽ»çÇÐȸ Ãß°èÇмú´ëȸ ³í¹®Áý, pp. 318-321, 11¿ù 7-9ÀÏ, ºÎ»ê BEXCO.

  11. Ãß¿ëÀç, ÀÌÈÆ¿­, 2022. PSInSAR ±â¹ýÀ» È°¿ëÇÑ ¹«»ê±¤»êÀÇ ÁöÇ¥ º¯À§ ºÐ¼®, 2022 ´ëÇÑ¿ø°ÝŽ»çÇÐȸ Ãß°èÇмú´ëȸ ³í¹®Áý, p. 248, 11¿ù 7-9ÀÏ, ºÎ»ê BEXCO.

  12. ¹®ÁöÇö, ÀÌÈÆ¿­, 2022. ºùÀúÈ£ Ç¥¸é º¯À§ ÃøÁ¤À» À§ÇÑ ½Ã°è¿­ InSAR ±â¹ý Æò°¡, 2022 ´ëÇÑ¿ø°ÝŽ»çÇÐȸ Ãß°èÇмú´ëȸ ³í¹®Áý, p. 247, 11¿ù 7-9ÀÏ, ºÎ»ê BEXCO.

  13. ÃÖÀºÃ¶, ÀÌÈÆ¿­, 2022. PSInSAR ±â¹ýÀ» ÀÌ¿ëÇÑ ¼®Åº Æó¼® ÀûÄ¡Àå¿¡¼­ÀÇ Ä§ÇÏ °üÃø, 2022 ´ëÇÑ¿ø°ÝŽ»çÇÐȸ Ãß°èÇмú´ëȸ ³í¹®Áý, p. 246, 11¿ù 7-9ÀÏ, ºÎ»ê BEXCO.

  14. Á¤´Ù¿î, ÀÌÈÆ¿­, 2022. Sentinel-1 PSInSAR¸¦ ÀÌ¿ëÇÑ 2017³â Æ÷Ç×ÁöÁø ÀüÈÄ ÁöÇ¥ º¯À§ ºÐ¼®, 2022 ´ëÇÑ¿ø°ÝŽ»çÇÐȸ Ãß°èÇмú´ëȸ ³í¹®Áý, p. 202, 11¿ù 7-9ÀÏ, ºÎ»ê BEXCO.

  15. Yongjae Chu and Hoonyol Lee, 2022. Analysis of the performance of classification in flood mapping using Sentinel-1B SAR images, ISRS2022, 16-18 May, Japan (Online). Student Paper Award $300

  16. Hoseung Lee and Hoonyol Lee, 2022. Activities of an open-pit mine and its ground subsidence analyzed by InSAR coherence and PSInSAR techniques ISRS2022, 16-18 May, Japan (Online).

  17. Jihyun Moon and Hoonyol Lee, 2022. Observation of surface displacement of a subglacial lake in Antarctica using PSInSAR technique, ISRS2022, 16-18 May, Japan (Online).

  18. Da-woon Jung and Hoonyol Lee, 2022. Time-series analysis of the surface displacement before and after the 2017 Pohang earthquake, South Korea, using Sentinel-1 PSInSAR Technique, ISRS2022, 16-18 May, Japan (Online).

  19. ¹®ÁöÇö, ÀÌÈ£½Â, ¼º¿ìÁø, Á¤´Ù¿î, ÀÌÈÆ¿­, 2021. DInSAR ¹× PSInSAR¸¦ ÀÌ¿ëÇÑ ³²±Ø ºùÀúÈ£ CookE2ÀÇ Ç¥¸éº¯À§ °üÂû, ´ëÇÑ¿ø°ÝŽ»çÇÐȸ Ãß°èÇмú´ëȸ, 10¿ù 20~22ÀÏ, ¿Â¶óÀÎ. Çлý³í¹®¹ßÇ¥»ó ¼ö»ó

  20. ¼º¿ìÁø, ÀÌÈ£½Â, Á¤´Ù¿î, ¹®ÁöÇö, ÀÌÈÆ¿­, 2021. Sentinel-1 PSInSAR ±â¹ýÀ» ÀÌ¿ëÇÑ ¹Ì±¹ Ç÷θ®´Ù Orlando Áö¿ªÀÇ ¾²·¹±â ¸Å¸³Áö Áö¹ÝħÇÏ ºÐ¼®, ´ëÇÑ¿ø°ÝŽ»çÇÐȸ Ãß°èÇмú´ëȸ, 10¿ù 20~22ÀÏ, ¿Â¶óÀÎ.

  21. ÀÌÈ£½Â, ¹®ÁöÇö, ¼º¿ìÁø, Á¤´Ù¿î, ÀÌÈÆ¿­, 2021. Sentinel-1 SAR ¿µ»óÀ» ÀÌ¿ëÇÑ °­¿øµµ Źé½Ã À强µ¿ ¼®Åº±¤ Æó¼®ÀûÄ¡ÀåÀÇ È°µ¿¼º ¹× Áö¹ÝħÇÏ ºÐ¼®, ´ëÇÑ¿ø°ÝŽ»çÇÐȸ Ãß°èÇмú´ëȸ, 10¿ù 20~22ÀÏ, ¿Â¶óÀÎ.

  22. Á¤´Ù¿î, ¹®ÁöÇö, ¼º¿ìÁø, ÀÌÈ£½Â, ÀÌÈÆ¿­, 2021. Sentinel-1 InSAR Coherence¸¦ ÀÌ¿ëÇÑ Áß±¹ Ǫ¼ø ³ëõ±¤»êÀÇ ½Ã°è¿­ È°µ¿ºÐ¼®, ´ëÇÑ¿ø°ÝŽ»çÇÐȸ Ãß°èÇмú´ëȸ, 10¿ù 20~22ÀÏ, ¿Â¶óÀÎ.

  23. Jihyun Moon and Hoonyol Lee, 2021. Observation of an open-pit copper mine using InSAR coherence-based Normalized Difference Activity Index (NDAI), IGARSS2021, 12-16 July, Brussels, Belgium (Online).

  24. Jihyun Moon and Hoonyol Lee, 2021. Observation of Activities in Musan Open-Pit Mine, North Korea, using Sentinel-1 InSAR Coherence Images, ISRS2021, 26-28 May, Korea (Online).

  25. Hyunsoo Kim, Jong Ik Lee, Joohan Lee, Hoonyol Lee, and Hyangsun Han, 2021. Observation of Subglacial Lakes in David Glacier, East Antarctica, using DDInSAR and Altimetry, ISRS2021, 26-28 May, Korea (Online).

  26. ÇÑÇâ¼±, ÀÌÈÆ¿­, ÀÌÁÖÇÑ, ÀÌÁ¾ÀÍ, 2020. Sentinel-1 ·¹ÀÌ´õ ÀÌÁß À§»óÂ÷ºÐ°£¼·±â¹ýÀ¸·Î °üÃøµÈ David ºùÇÏ ºùÀúÈ£ÀÇ Ç¥¸éº¯À§, ´ëÇÑ¿ø°ÝŽ»çÇÐȸ Ãß°èÇмú´ëȸ, 11¿ù 4~6ÀÏ, ¿Â¶óÀÎ.

  27. Á¶À¯¸®, ÀÌÈÆ¿­, 2020. Sentinel-1A SAR ¿µ»óÀ» È°¿ëÇÑ ³²±Ø David ºùÇÏ À¯¼ÓÀÇ º¯È­ °üÂû, ´ëÇÑ¿ø°ÝŽ»çÇÐȸ Ãß°èÇмú´ëȸ, 11¿ù 4~6ÀÏ, ¿Â¶óÀÎ.

  28. Jihyun Moon and Hoonyol Lee, 2019. Analysis of open-pit mining activities using sentinel-1A/B coherence imagery, ACRS 2019, 14-18 October, Daejeon Convention Center, Korea. (Best Paper Award, $200)

  29. Heejeong Seo and Hoonyol Lee, 2019. Analysis of local velocity anomalies of David Glacier, East Antarctica, by using double-differential InSAR, ACRS 2019, 14-18 October, Daejeon Convention Center, Korea.

  30. Heejeong Seo, Hyangsun Han and Hoonyol Lee, 2019. Velocity anomaly of David Glacier, East Antarctica, observed by double-differential InSAR, IGARSS 2019, 28 July ~ 2 Aug., Yokohama, Japan.

  31. Jisang Yoon and Hoonyol Lee, 2019. Surface Chagne of the 6th nuclear test of North Korea on 3 September 2017 detected by using SAR images, IGARSS 2019, 28 July 28 ~ 2 Aug., Yokohama, Japan.

  32. Heejeong Seo, Hyangsun Han, and Hoonyol Lee, 2019. Analysis of seasonal and regional variation of the flow velocity on Campbell Glacier and David Glacier, East Antarctica, by using DDInSAR technique, ISRS2019, 17-19 April, Taipei, Taiwan.

  33. Heejeong Seo, Hyangsun Han, and Hoonyol Lee, 2018. Analysis of Seasonal and Regional Variation of the Flow Velocity on Campbell Glacier, East Antarctica, by using DDInSAR Technique, AGU Fall Meeting, 10-14 Dec. Washington D.C., USA.

  34. Jisang Yoon and Hoonyol Lee, 2018. Surface Change Detection of the 6th Nuclear Test of North Korea on 3 September 2017 using SAR and InSAR Techniques, AGU Fall Meeting, 10-14 Dec. Washington D.C., USA.

  35. Jin-Hyuck Choi, et al., 2018. Surface deformation related to the 2017 Pohang earthquake, AGU Fall Meeting, 10-14 Dec. Washington D.C., USA.

  36. À±Áö»ó, ÀÌÈÆ¿­, 2018. SAR ¿µ»óÀ» ÀÌ¿ëÇÑ 2017³â 9¿ù 3ÀÏ ºÏÇÑÀÇ Á¦6Â÷ ÇÙ½ÇÇè¿¡ ÀÇÇÑ ÁöÇ¥¸é º¯È­¾ç»ó ŽÁö, ´ëÇÑ¿ø°ÝŽ»çÇÐȸ Ãß°èÇмú´ëȸ, 10¿ù 24-26ÀÏ, ¹«ÁÖ¸®Á¶Æ®. (Çлý³í¹®¹ßÇ¥»ó ¼ö»ó, »óÀå°ú »ó±Ý30¸¸¿ø)

  37. ¼­ÈñÁ¤, ÇÑÇâ¼±, ÀÌÈÆ¿­, 2018. DDInSAR ±â¹ýÀ» ÀÌ¿ëÇÑ µ¿³²±Ø Campbell ºùÇÏÀÇ °èÀýÀû, Áö¿ªÀû ¼Óµµº¯È­ °üÂû, ´ëÇÑ¿ø°ÝŽ»çÇÐȸ Ãß°èÇмú´ëȸ, 10¿ù 24-26ÀÏ, ¹«ÁÖ¸®Á¶Æ®.

  38. ¼Û¼®±¸, ÀÌÈÆ¿­, 2018. InSAR ÀÚ·á ¿ª»êÀ» ÀÌ¿ëÇÑ 2017 Æ÷Ç×ÁöÁø À¯ÇÑ´ÜÃþ ÁöÁø¿ø ¸ðµ¨ °áÁ¤, Ãß°èÁöÁú°úÇп¬ÇÕÇмú´ëȸ, 10¿ù 24-27ÀÏ, °æÁÖ È­¹éÄÁº¥¼Ç¼¾ÅÍ.

  39. Jinhyuck Choi, Changsoo Cho, Hoonyol Lee, Seokgoo Song, 2018. Surface deformations associated with the 2017 Pohang earthquake, Korea: implications for coseismic rupture propagation, Ãß°èÁöÁú°úÇп¬ÇÕÇмú´ëȸ, 10¿ù 24-27ÀÏ, °æÁÖ È­¹éÄÁº¥¼Ç¼¾ÅÍ.

  40. Hoonyol Lee, Seok Goo Song, and Jung-Ho Park, 2018. Mw 5.4 Pohang Earthquake on 15 November 2017 Observed by Sentinel-1A/B SAR Interferometry, ISRS 2018, 9-11 May, Pyeong Chang, Korea

  41. Hoonyol Lee, Soojeong Han and Hyangsun Han, 2018. Young's modulus of Antarctic ice shelves derived by double-differential interferometric SAR, EGU 2018, 9-13 April, Vienna, Austria.

  42. Seok Goo Song and Hoonyol Lee, 2018. Static slip model of the 2017 Mw 5.4 Pohang, South Korea, earthquake, constrained by InSAR data, EGU 2018, 9-13 April, Vienna, Austria.

  43. ÀÌÈÆ¿­, 2017. SNAP ¼ÒÇÁÆ®¿þ¾î¸¦ ÀÌ¿ëÇÑ Kompsat-5 °£¼·±â¹ý ±¸Çö, ´ëÇÑ¿ø°ÝŽ»çÇÐȸ Ãß°èÇмú´ëȸ, 11¿ù 2~3ÀÏ, Ãæ³² ¿¹»ê ¸®¼Ø½ºÆÄij½½.

  44. ÇѼöÁ¤, ÇÑÇâ¼±, ÀÌÈÆ¿­, 2017. DDInSAR ±â¹ýÀ¸·Î ÃßÃâÇÑ Ross ºùºØÀÇ hinge zone ºÐ¼®, ´ëÇÑ¿ø°ÝŽ»çÇÐȸ Ãß°èÇмú´ëȸ, 11¿ù 2~3ÀÏ, Ãæ³² ¿¹»ê ¸®¼Ø½ºÆÄij½½.

  45. ¹ÚÁöÈ£, ÀÌ´ë¶ó, À̱Çö, ÀÌÈÆ¿­, 2017. Sentinel-1A/B À§¼ºÀÇ SAR °£¼·¿µ»óÀ» È°¿ëÇÑ ÁöÁø º¯À§ ºÐ¼®, Ãß°èÁöÁú°úÇп¬ÇÕÇмú´ëȸ, 10¿ù 25-28ÀÏ, Á¦ÁÖ±¹Á¦ÄÁº¥¼Ç¼¾ÅÍ, p. 409.   

  46. Hoonyol Lee, Soojeong Han, Hyorim Jin, Hyangsun Han, 2017. Tidal deflection of Ross Ice Shelf, Antarctica, observed by Sentinel-1A double-differential interferometric SAR, IGARSS 2017, 23-28 July, 2017, Fort Worth, Texas, USA.

  47. Hyangsun Han and Hoonyol Lee, 2017. Strain of Landfast Sea Ice around Campbell Glacier Tongue in East Antarctica Revealed by InSAR, Fringe 2017, 5~9 June 2017, Aalto University, Helsinki, Finland.

  48. Hoonyol Lee, Hyorim Jin, Soojeong Han, and Hyangsun Han, 2017. Grounding line and hinge zone of Ross Ice Shelf, Antarctica, observed by DDInSAR, ISRS 2017, 17~19 May 2017, Nagoya, Japan.

  49. Hoonyol Lee and Hyangsun Han, 2016. Tide-corrected strain rate and crevasses of Campbell Glacier Tongue in East Antarctica measured by SAR interferometry, AGU 2016, 12-16 Dec., San Francisco, CA, USA.

  50. ÇѼöÁ¤, ÁøÈ¿¸², ÇÑÇâ¼±, ÀÌÈÆ¿­, 2016. Sentinel-1A DDInSAR ¿µ»óÀ¸·Î °üÂûµÈ ³²±Ø Ross ºùºØÀÇ Á¶¼®º¯À§, ´ëÇÑ¿ø°ÝŽ»çÇÐȸ Ãß°èÇмú´ëȸ, 11¿ù 3~4ÀÏ, ÃæÁÖ Ä˽ÌÅϸ®Á¶Æ®, pp. 33-36.

  51. Hoonyol Lee and Hyangsun Han, 2016. Tide-free flow velocity and strain rate of Campbell Glacier Tongue, east Antarctica, measured by InSAR, ISRS 2016, 20~22 April, Jeju ICC, Korea.

  52. Hoonyol Lee and Hyangsun Han, 2015. Dynamics of landfast sea ice near Jangbogo Antarctic Research Station observed by SAR interferometry, AGU 2015, 13-18 Dec., San Francisco, CA, USA.

  53. Hoonyol Lee and Hyangsun Han, 2015. Seasonal variation and dynamics of landfast sea ice near Jangbogo Antarctic Station observed by InSAR, ´ëÇÑÁöÁúÇÐȸ Ãß°èÇмú´ëȸ, 10¿ù 28~29ÀÏ, Á¦ÁÖ ¶ó¸¶´ÙÈ£ÅÚ.

  54. Hoonyol Lee and Hyangsun Han, 2015. Strain over landfast sea ice near Jangbogo Antarctic Station observed by InSAR, ´ëÇÑ¿ø°ÝŽ»çÇÐȸ Ãß°èÇмú´ëȸ, 10¿ù 15~16ÀÏ, ±¤ÁÖ ±è´ëÁßÄÁº¥¼Ç¼¾ÅÍ.

  55. Hoonyol Lee, Yeonchun Kim, Hyangsun Han, and Yeonghun Ji, 2015. Variation of landfast sea ice in Terra Nova Bay, East Antarctica, observed by SAR interferometry, IGARSS 2015, 26-31, July, Milan, Italy.

  56. Younghun Ji, Hyangsun Han and Hoonyol Lee, 2014. Land Surface Properties near Terra Nova Bay, East Antarctica, Analyzed by Time-series Height, Coherence and Amplitude Maps Derived from COSMO-SkyMed One-day Tandem Pairs, AGU Fall Meeting, 15~19 December, San Francisco, CA, USA.

  57. Áö¿µÈÆ, ÇÑÇâ¼±, ÀÌÈÆ¿­, 2014. ½Ã°è¿­Àû COSMO-SkyMed one-day tandem °£¼·¿µ»óÀ» ÀÌ¿ëÇÑ µ¿³²±Ø Terra Nova Bay ÁÖº¯ÀÇ ÁöÇ¥ Ư¼º ºÐ¼®, ´ëÇÑ¿ø°ÝŽ»çÇÐȸ Ãß°èÇмú´ëȸ, pp. 391~394, 10¿ù 16-17ÀÏ, Á¦ÁÖ KAL È£ÅÚ.

  58. ±è¿¬Ãá, ÇÑÇâ¼±, Áö¿µÈÆ, ÀÌÈÆ¿­, 2014. COSMO-SkyMed SAR °£¼·¿µ»óÀ» ÀÌ¿ëÇÑ µ¿³²±Ø Å׶ó³ë¹Ù¸¸ÀÇ Á¤Âøºù ºÐ¼®, ´ëÇÑ¿ø°ÝŽ»çÇÐȸ Ãß°èÇмú´ëȸ, pp. 395~398, 10¿ù 16-17ÀÏ, Á¦ÁÖ KAL È£ÅÚ.

  59. ±è¿¬Ãá, Áö¿µÈÆ, ÇÑÇâ¼±, ÀÌÈÆ¿­, 2014. SSM/I ¹× SSMIS Çغù ¸éÀûºñ ÀڷḦ ÀÌ¿ëÇÑ ¾Æ¶ó¿ÂÈ£ÀÇ Ç×ÇØ °æ·Î ºÐ¼®, ´ëÇÑ¿ø°ÝŽ»çÇÐȸ Ãß°èÇмú´ëȸ, pp. 62~65, 10¿ù 16-17ÀÏ, Á¦ÁÖ KAL È£ÅÚ.

  60. ÀÌ°æµµ, È«¼®¿µ, ±èÀÌÇö, ÀÌÈÆ¿­, 2014. ·¹ÀÌ´õ ÀڷḦ ÀÌ¿ëÇÑ ³ó¾÷ȯ°æ ¹× ÀÛ¹° »ýÀ° Æò°¡, ´ëÇÑ¿ø°ÝŽ»çÇÐȸ Ãß°èÇмú´ëȸ, pp. 464~467, 10¿ù 16-17ÀÏ, Á¦ÁÖ KAL È£ÅÚ.

  61. Younghun Ji, Hyangsun Han and Hoonyol Lee, 2014. Construction and application of tomographic SAR system based on GB-SAR system, IGARSS 2014, 13~18 July, Quebec City, Canada.

  62. Hyangsun Han and Hoonyol Lee, 2014. Mass balance of Campbell Glacier, East Antarctica, derived from COSMO-SkyMed interferometric SAR images, IGARSS 2014, 13-18 July, Quebec City, Canada.

  63. Younghun Ji, Hyangsun Han and Hoonyol Lee, 2014. Development of a ground-based tomographic SAR system, ISRS 2014, 16-18 April, Pusan, Korea.

  64. Hyangsun Han and Hoonyol Lee, 2014. Strain rate fields over Campbell glacier in east Antarctica observed by COSMO-SkyMed differential SAR interferometry, ISRS 2014, 16-18 April, Pusan, Korea.

  65. Hyangsun Han and Hoonyol Lee, 2013. Ice Flow and Strain Rate over Campbell Glacier in East Antarctica Observed from COSMO-SkyMed InSAR Images, AGU Fall Meeting, 8~13 Dec., San Francisco, USA.

  66. Áö¿µÈÆ, ÀÌÈÆ¿­, 2013. MIT Cantenna ±â¹ÝÀÇ S-¹êµå ·¹ÀÌ´Ù ½Ã½ºÅÛÀÇ Á¦ÀÛ ¹× ÀÀ¿ë, ´ëÇÑ¿ø°ÝŽ»çÇÐȸ Ãß°èÇмú´ëȸ, 10¿ù 10~11ÀÏ, õ¾È »ó·Ï¸®Á¶Æ®.

  67. ÇÑÇâ¼±, ÀÌÈÆ¿­, 2013. COSMO-SkyMed ·¹ÀÌ´Ù °£¼·¿µ»óÀ¸·Î ÃøÁ¤µÈ µ¿³²±Ø Campbell ºùÇÏÀÇ È帧 ¼Óµµ¿Í º¯Çü·ü,  ´ëÇÑ¿ø°ÝŽ»çÇÐȸ Ãß°èÇмú´ëȸ, 10¿ù 10~11ÀÏ, õ¾È »ó·Ï¸®Á¶Æ®.

  68. ±è¹üÁØ, À̼º¼ø, ÀÌÈÆ¿­, 2013. ¿©·¯ ȯ°æ ÀÎÀÚ¿¡ ÀÇÇÑ °¹¹ú°ú È­°­¾ÏÀÇ ºÐ±¤¹Ý»çµµ Ư¼º ºÐ¼®, ´ëÇÑ¿ø°ÝŽ»çÇÐȸ Ãß°èÇмú´ëȸ, 10¿ù 10~11ÀÏ, õ¾È »ó·Ï¸®Á¶Æ®.

  69. Hyangsun Han and Hoonyol Lee, 2013. Tidal deflection of Campbell Glacier Tongue analyzed by COSMO-SkyMed double-differential interferometric SAR images, ISRS'2013, 15-17 May, Makuhari Seminar House, Chiba, Japan.

  70. ÇÑÇâ¼±, ÀÌÈÆ¿­, 2013. ÀΰøÀ§¼º ·¹ÀÌ´õ °£¼·¿µ»ó°ú À¯ÇÑ¿ä¼ÒÇؼ®À» ÀÌ¿ëÇÑ Campbell ºùÇÏÀÇ Á¶À§º¯Çü Ư¼º ¿¬±¸, 2013³â Ãá°è ÁöÁú°úÇбâ¼ú °øµ¿Çмú´ëȸ, 4¿ù 24-26ÀÏ, â¿ø ÄÁº¥¼Ç¼¾ÅÍ.

  71. Hyangsun Han and Hoonyol Lee, 2012. Tidal flexural characteristics of Campbell Glacier, East Antarctica, analyzed by COSMO-SkyMed double-differential SAR interferometry, KSEG International Symposium on "Geophysics for Discovery and Exploration", 19-21 September, Jeju, Korea.

  72. Hyangsun Han and Hoonyol Lee, 2012. COSMO-SKYMed AO Projects - Tidal deflection characteristics of Campbell Glacier, East Antarctica, observed by double-differential SAR interferometry, IGARSS'2012, 22~27 July, Munich, Germany.

  73. ÀÌÈÆ¿­, ÇÑÇâ¼±, 2012. Tidal flexure of Campbell Glacier, Antarctica, observed by double-differential SAR interferometry, The 52nd Spring Conference of the Remote Sensing Society of Japan, 22~24 May, University of Tokyo, Tokyo, Japan.

  74. ÇÑÇâ¼±, ÀÌÈÆ¿­, 2012. ÀΰøÀ§¼º ·¹ÀÌ´õ °£¼·±â¹ýÀ» ÀÌ¿ëÇÑ µ¿³²±Ø Campbell ºùÇÏÀÇ Á¶À§¿¡ ÀÇÇÑ °Åµ¿Æ¯¼º ¿¬±¸, 2012³â Ãá°è ÁöÁú°úÇбâ¼ú °øµ¿Çмú´ëȸ, 4¿ù 18~20ÀÏ.

  75. ÇÑÇâ¼±, ÀÌÈÆ¿­, 2012. ÀÌÁß À§»óÂ÷ºÐ°£¼·±â¹ý°ú º¸ ¸ðµ¨À» ÀÌ¿ëÇÑ Campbell ºùÇÏÀÇ Á¶À§¿¡ ÀÇÇÑ º¯À§ ºÐ¼®, ´ëÇÑ¿ø°ÝŽ»çÇÐȸ Ãá°èÇмú´ëȸ, pp. 97~102, 3¿ù 29~30ÀÏ, ¹«ÁÖ ´öÀ¯»ê¸®Á¶Æ®.

  76. ±è¹üÁØ, ÀÌÈÆ¿­, 2012. X-¹êµå ¸¶ÀÌÅ©·ÎÆÄ »ê¶õ°è¸¦ ÀÌ¿ëÇÑ ÇÏõÀÇ ¾óÀ½ µÎ²² ÃøÁ¤, ´ëÇÑ¿ø°ÝŽ»çÇÐȸ Ãá°èÇмú´ëȸ, pp. 382~386, 3¿ù 29~30ÀÏ, ¹«ÁÖ ´öÀ¯»ê¸®Á¶Æ®.(Çлý³í¹®¹ßÇ¥»ó ¼ö»ó. »óÀå°ú »ó±Ý 50¸¸¿ø)

  77. ÀÌÀçÈñ, ±è±¤Àº, Á¶¼ºÁØ, ¼º³«ÈÆ, ÀÌÈÆ¿­, 2012. ´ë±â±¼Àý·üÀ» ÀÌ¿ëÇÑ Arc-SAR ½Ã½ºÅÛÀÇ À§»óº¸Á¤, ´ëÇÑ¿ø°ÝŽ»çÇÐȸ Ãá°èÇмú´ëȸ, pp. 92~96, 3¿ù 29~30ÀÏ, ¹«ÁÖ ´öÀ¯»ê¸®Á¶Æ®.

  78. ÀÌÀçÈñ, ±è±¤Àº, Á¶¼ºÁØ, ¼º³«ÈÆ, ÀÌÈÆ¿­, 2012. Arc-SAR ½Ã½ºÅÛ °³¹ß ¹× °á°ú¿µ»ó, ´ëÇÑ¿ø°ÝŽ»çÇÐȸ Ãá°èÇмú´ëȸ, pp. 79~83, 3¿ù 29~30ÀÏ, ¹«ÁÖ ´öÀ¯»ê¸®Á¶Æ®.

  79. Hyangsun Han and Hoonyol Lee, 2011. Motion of David Glacier in east Antarctica observed by COSMO-SkyMed differential SAR interferometry, American Geophysical Union Fall Meeting, 5-9 Dec., San Francisco, CA, USA.

  80. Hyangsun Han and Hoonyol Lee, 2011. Motion of Campbell glacier, east Antarctica, observed by satellite and ground-based interferometric synthetic aperture radar, APSAR2011, 26~30 Sep., Seoul, Korea.

  81. Yihyun Kim, S. Hong, Hoonyol Lee, 2011. Analysis of polarimetric scattering in a paddy rice canopy using an automatic radar scatterometer system, APSAR2011, 26~30 Sep., Seoul, Korea.

  82. Hyangsun Han and Hoonyol Lee, 2011. Distinctive characteristics of glacial ice in the PR-GR scatter plots of AMSR-E NASA Team2 sea ice algorithm, IGARSS2011, 24~29 July, Vancouver, Canada.

  83. Taerim Kim, J. Park, and Hoonyol Lee, 2011. Tidal current convergence zones appeared on SAR images, IGARSS2011, 24~29 July, Vancouver, Canada.

  84. Moon-Kyung Kang, K. E. Kim, S. J. Cho, Hoonyol Lee, and Jae-Hee Lee, 2011. Wishart supervised classification results of C-band polarimetric GB-SAR image data, IGARSS2011, 24~29 July, Vancouver, Canada.

  85. Taerim Kim, J. Park and Hoonyol Lee, 2011. Spatial Variation of Coastal Sand Ridge Features appeared on SAR Images. Journal of Coastal Research, SI 64, pp. 1687 - 1691.

  86. ÇÑÇâ¼±, ÀÌÈÆ¿­, 2011. SAR¸¦ ÀÌ¿ëÇÑ ³²±Ø À庸°í °úÇбâÁö °Ç¼³Áö ÁÖº¯ ºùÇÏÀÇ º¯È­ °üÃø, 2011³â Ãá°è ÁöÁú°úÇбâ¼ú °øµ¿Çмú´ëȸ ³í¹®Áý, pp. 70~71, 4¿ù 27~29ÀÏ, ¸ñÆ÷ ½Å¾ÈºñÄ¡È£ÅÚ. 

  87. °­¹®°æ, ±è±¤Àº, Á¶¼ºÁØ, ÀÌÈÆ¿­, ÀÌÀçÈñ, 2011. C-¹êµå ´ÙÆíÆÄ Áö»ó SAR ¿µ»óÀÇ ºÐ·ù°á°ú, ´ëÇÑ¿ø°ÝŽ»çÇÐȸ Ãá°èÇмú´ëȸ, pp. 239~243, 3¿ù 24~25ÀÏ, °æÁÖ±³À°¹®È­È¸°ü.

  88. ÇÑÇâ¼±, ÀÌÈÆ¿­, 2011. ¸¶ÀÌÅ©·ÎÆÄ »ê¶õ°è¿Í À¯ÀüÀÚ ¾Ë°í¸®ÁòÀ» ÀÌ¿ëÇÑ È£¼ö ¾óÀ½ÀÇ ¹°¼º ¸ðµ¨¸µ, ´ëÇÑ¿ø°ÝŽ»çÇÐȸ Ãá°èÇмú´ëȸ, pp. 18~22, 3¿ù 24~25ÀÏ, °æÁÖ±³À°¹®È­È¸°ü.

  89. Hyangsun Han and Hoonyol Lee, 2010. Microwave radiation characteristics of glacial ice observed by AMSR-E, International Symposium on Remote Sensing, 27~29 October, Jeju, Korea.

  90. ÇÑÇâ¼±, ÀÌÈÆ¿­, 2010. È£¼ö ¾óÀ½ÀÇ »óº¯È­¿¡ µû¸¥ ¸¶ÀÌÅ©·ÎÆÄ »ê¶õƯ¼º ¿¬±¸, 2010 Çѱ¹Áö±¸¹°¸®¹°¸®Å½»çÇÐȸ Çмú´ëȸ ÃÊ·ÏÁý, pp. 53~54, 10¿ù 7~8ÀÏ, °­¿ø´ëÇб³, Ãáõ.

  91. Hoonyol Lee, Seong-Jun Cho and Kwang-Eun Kim, 2010. A ground-based arc-scanning synthetic aperture radar (ArcSAR) system and focusing algorithms, IGARSS2010, Honolulu, Hawaii, USA, July 25-30. 

  92. Hoonyol Lee, 2010. Radargrammetry of high resolution synthetic aperture radar onboard KOMPSAT-5, IGARSS'2010, Honolulu, Hawaii, USA, July 25-30. 

  93. YiHyun Kim, SukYoung Hong, Eunyoung Choe, Hoonyol Lee, 2010. Estimating rice growth parameters using X-band scatterometer data, IGARSS2010, Honolulu, Hawaii, USA, July 25-30.

  94. Moon-Kyung Kang, Kwang-Eun Kim, Hoonyol Lee, Seong-Jun Cho, Jae-Hee Lee, 2010. Preliminary result of polarization property analysis using fully polarimetric GB-SAR images, IGARSS2010, Honolulu, Hawaii, USA, July 25-30.

  95. Àå¼Ò¿µ, ÇÑÇâ¼±, ÀÌÈÆ¿­, 2010. SAR ¿µ»ó°ú ÇöÀåÁ¶»ç ÀÚ·á¿¡ ÀÇÇÑ ¸ù»êÆ÷ Á¶°£´ëÀÇ ÅðÀû±¸Á¶ °üÂû, 2010³â Ãá°è ÁöÁú°úÇбâ¼ú °øµ¿Çмú´ëȸ ³í¹®Áý, p. 69, 4¿ù 28ÀÏ ~ 30ÀÏ, ´ë±¸ ¿¢½ºÆ÷.

  96. Àå¼Ò¿µ, ÇÑÇâ¼±, ÀÌÈÆ¿­, 2010. SAR ¿µ»ó°ú ÇöÀåÁ¶»ç ÀÚ·á¿¡ ÀÇÇÑ ¸ù»êÆ÷ Á¶°£´ëÀÇ Ridge-Runnel ¹× ¿¬Èç °üÂû, ´ëÇÑ¿ø°ÝŽ»çÇÐȸ Ãá°èÇмú´ëȸ ³í¹®Áý, pp. 44 ~ 49, 3¿ù 26ÀÏ, ÀÎÇÏ´ëÇб³, ÀÎõ.(Çлý³í¹®¹ßÇ¥»ó ¼ö»ó. »óÀå°ú »ó±Ý 50¸¸¿ø)

  97. ÇÑÇâ¼±, ÀÌÈÆ¿­, 2010. DInSAR ±â¹ýÀ¸·Î °üÃøµÈ º¯À§¸¦ ÀÌ¿ëÇÑ ºùÇÏÀÇ ¼Óµµ, µÎ²², Àü´ÜÀÀ·Â ÃßÁ¤, ´ëÇÑ¿ø°ÝŽ»çÇÐȸ Ãá°èÇмú´ëȸ ³í¹®Áý, pp. 67 ~ 72, 3¿ù 26ÀÏ, ÀÎÇÏ´ëÇб³, ÀÎõ.

  98. Hoonyol Lee, Seong-Jun Cho and Kwang-Eun Kim, 2009. Development of focusing algorithms for arc-scanning ground-based synthetic aperture radar, International Symposium on Remote Sensing, 28~30 Oct., Busan, Korea.

  99. Yihyun Kim, Sukyoung Hong, Eunyoung Choe and Hoonyol Lee, 2009. Prediction of growth parameters in paddy rice using L, C, X-band automatic scatterometer system, International Symposium on Remote Sensing, 28~30 Oct., Busan, Korea.

  100. Moon-Kyung Kang, Kwang-Eun Kim, Hoonyol Lee, Seong-Jun Cho and Jae-Hee Lee, 2009. Polarimetric characteristics of fully polarization SAR image observed by ground-based SAR system, International Symposium on Remote Sensing, 28~30 Oct., Busan, Korea.

  101. Yihyun Kim, S. Young Hong, Eunyoung Choe and Hoonyol Lee, 2009. Monitoring of rice growth using polarimetric scatterometer system, 46th Annual Meeting of the Remote Sensing Society of Japan, 21-22 May. University of Tokyo, Tokyo, Japan.

  102. ±èÀÌÇö, È«¼®¿µ, ÃÖÀº¿µ, Àå¿ë¼±, ÀÌÈÆ¿­, 2009. ·¹ÀÌ´õÆĸ¦ ÀÌ¿ëÇÑ º­ »ýÀ° ÃøÁ¤, Çѱ¹Åä¾çºñ·áÇÐȸ 2009 Ãá°èÇмú´ëȸ, 5¿ù 14ÀÏ, ¼­¿ï.  

  103. Á¶¼ºÁØ, ±è±¤Àº, ¼º³«ÈÆ, ÀÌÈÆ¿­, ÀÌÀçÈñ, 2009. ¿øÇü·¹ÀÏ ±â¹Ý Áö»ó SAR ½ÃÇèÀÚ·á ȹµæ, Çѱ¹Áö±¸½Ã½ºÅÛ°øÇÐȸ Ãá°èÇмú´ëȸ ³í¹®Áý, 5¿ù 6ÀÏ, ¼­¿ï.

  104. ÀÌÀçÈñ, ÀÌÈÆ¿­, Á¶¼ºÁØ, ¼º³«ÈÆ, 2009. ½Àµµº¯È­¿¡ µû¸¥ X-band GB-SAR ½Ã½ºÅÛÀÇ À§»óÁö¿¬, ´ëÇÑ¿ø°ÝŽ»çÇÐȸ Ãá°èÇмú´ëȸ ³í¹®Áý, pp. 202-206, 3¿ù 26-27ÀÏ, ¼­¿ï. (Çлý³í¹®¹ßÇ¥ ¿ì¼ö»ó ¼ö»ó. »óÀå°ú »ó±Ý 50¸¸¿ø)

  105. Á¶¼ºÁØ, ÀÌÈÆ¿­, ±è±¤Àº, ÀÌÀçÈñ, ¼º³«ÈÆ, 2009. ArcSAR ½Ã½ºÅÛ ¼³°è ¹× Á¦ÀÛ, ´ëÇÑ¿ø°ÝŽ»çÇÐȸ Ãá°èÇмú´ëȸ ³í¹®Áý, pp. 78 ~ 81, 3¿ù 26-27ÀÏ, ¼­¿ï.

  106. ÇÑÇâ¼±, ÀÌÈÆ¿­, 2009. 4-Pass DInSAR¸¦ ÀÌ¿ëÇÑ ¼­³²±Ø Canisteo ¹Ýµµ ÁÖº¯ ºùÇÏ, Çغù, ºùºØÀÇ Ç¥¸é º¯À§ °üÃø, ´ëÇÑ¿ø°ÝŽ»çÇÐȸ Ãá°èÇмú´ëȸ ³í¹®Áý, pp. 190~195, 3¿ù 26-27ÀÏ, ¼­¿ï.

  107. ±èÀÌÇö, È«¼®¿µ, ÃÖÀº¿µ, ÀÌÈÆ¿­, 2009. X-band ÀÚµ¿°üÃø½Ã½ºÅÛÀ» ÀÌ¿ëÇÑ º­ »ýÀ°ÀÎÀÚ ÃßÁ¤, ´ëÇÑ¿ø°ÝŽ»çÇÐȸ Ãá°èÇмú´ëȸ ³í¹®Áý, pp. 40-45, 3¿ù 26-27ÀÏ, ¼­¿ï.
  108. Hyangsun Han and Hoonyol Lee, 2008. Motion of glaciers, sea ice, and ice shelves in Canisteo Peninsula, west Antarctica observed by 4-pass differential interferometric SAR technique, ISRS'08, 29~31 Oct., Daejeon, Korea,

  109. Yi-hyun Kim, S. Young Hong and Hoonyol Lee, 2008. Estimation of rice growth parameters by X-band radar backscattering data, ISRS'08, 29~31 Oct., Daejeon, Korea,

  110. Hoonyol Lee, Jae-Hee Lee, Seong-Jun Cho, Nak-Hoon Sung and Jung-Ho Kim, 2008. An experiment of GB-SAR interferometric measurement of target displacement and atmospheric correction, IGARSS'08, Boston, MA, 7-11 July, CD-ROM.

  111. Yi-hyun Kim, Suk-young Hong and Hoonyol Lee, 2008. Radar backscattering measurements of paddy rice field using multifrequency (L, C and X) and full polarization, IGARSS'08, Boston, MA, 7-11 July, CD-ROM.

  112. Moon-Kyung Kang, Hoonyol Lee, Chan-Su Yang, and Wang-Jung Yoon, 2008. Estimation of ocean current velocity in coastal area using Radarsat-1 SAR images and HF-radar data, IGARSS'08, Boston, MA, 7-11 July, CD-ROM.

  113. ±èÀÌÇö, È«¼®¿µ, ÀÌÈÆ¿­, 2008. ´ÙÆíÆÄ ·¹ÀÌ´Ù »ê¶õ°è(X, C, L-band)¸¦ ÀÌ¿ëÇÑ º­ ±º¶ôÀÇ »ê¶õƯ¼º ÃøÁ¤, Çѱ¹Åä¾çºñ·áÇÐȸ 2008 Ãá°èÇмú´ëȸ, 5¿ù 22ÀÏ - 24ÀÏ °­¿ø·£µå.

  114. Á¶¼ºÁØ, ÀÌÈÆ¿­, ±è±¤Àº, 2008. Â÷·® žÀçÇü Arc-SAR ½Ã½ºÅÛ °³³ä ¼³°è, ´ëÇÑ¿ø°ÝŽ»çÇÐȸ Ãá°èÇмú´ëȸ ³í¹®Áý, pp. 3-6, 3¿ù 20-21ÀÏ, ¼­¿ï.

  115. ÀÌÀçÈñ, ÀÌÈÆ¿­, Á¶¼ºÁØ, ¼º³«ÈÆ, ±èÁ¤È£, 2008. GB-SARÀÇ °£¼·±â¹ýÀ» ÅëÇÑ ¹°Ã¼ÀÇ º¯À§ ÃøÁ¤ ¹× ´ë±âº¸Á¤, ´ëÇÑ¿ø°ÝŽ»çÇÐȸ Ãá°èÇмú´ëȸ ³í¹®Áý, pp. 25-28, 3¿ù 20-21ÀÏ, ¼­¿ï.

  116. Àå¼Ò¿µ, ÀÌÈÆ¿­, 2008. Radargrammetry Àû¿ëÀ» À§ÇÑ À§µµ¿¡ µû¸¥ KOMPSAT-5 ±Ëµµ ºÐ¼®, ´ëÇÑ¿ø°ÝŽ»çÇÐȸ Ãá°èÇмú´ëȸ ³í¹®Áý, pp. 63-66, 3¿ù 20-21ÀÏ, ¼­¿ï.

  117. Hoonyol Lee and Hyangsun Han, 2007. Evaluation of Passive Microwave Sea Ice Concentration in Arctic Summer and Antarctic Spring by using KOMPSAT-1 EOC, American Geophysical Union Fall Meeting, 10-14 December, San Francisco, CA, USA.

  118. Yihyun Kim, Sukyong Hong, Jisung Park, Eunsun Lee and Hoonyol Lee, 2007. Radar backscattering measurements of paddy rice field using L, C, and X-band polarimetric scatterometer, Proceedings of the International Symposium on Remote Sensing (ISRS) 2007, Jeju, Korea, 31 Oct. ~ 2 Nov., CD-ROM.

  119. Hoonyol Lee, 2007. Radargrammetry of high resolution synthetic aperture radar - A theoretical study, Proceedings of the International Symposium on Remote Sensing (ISRS) 2007, Jeju, Korea, 31 Oct. ~ 2 Nov., CD-ROM.

  120. ÀÌÀçÈñ, ÀÌÈÆ¿­, Á¶¼ºÁØ, ¼º³«ÈÆ, ±èÁ¤È£, 2007. GB-SARÀÇ °£¼·±â¹ýÀ» ÀÌ¿ëÇÑ »ê¶õü º¯À§ ¹× °íµµ ÃøÁ¤, 2007³âµµ Ãß°è ÁöÁú°úÇп¬ÇÕÇмú´ëȸ, °­¿ø´ëÇб³, Ãáõ, °­¿øµµ, 10¿ù 25-26ÀÏ.  

  121. Hoonyol Lee, Seong-Jun Cho, Nak-Hoon Sung and Jung-Ho Kim, 2007. Development of a Ground-based Synthetic Aperture Radar System for Highly Repeatable Measurements, The 9th Workshop on Subsurface Electromagnetic Measurement, KIST, Seoul, 25 October. (printed in IEICE Technical Report SANE2007-62)

  122. Hyangsun Han and Hoonyol Lee, 2007. Comparative study of sea ice concentration by using DMSP SSM/I, Aqua AMSR-E and Kompsat-1 EOC, IGARSS'07, Barcelona, Spain, 23-27 July.

  123. Moon-Kyung Kang, Hoonyol Lee, Moonjin Lee, Yong-Wook Park and Wang-Jung Yoon, 2007. The extraction of ocean wind, wave, and current parameters using SAR imagery, IGARSS'07, Barcelona, Spain, 23-27 July.

  124. ÀÌÈÆ¿­, Á¶¼ºÁØ, ¼º³«ÈÆ, ±èÁ¤È£, 2007. GB-SAR ½Ã½ºÅÛÀÇ ¿µ»óÈ­ ¹× °£¼·±â¹ý, Çѱ¹¹°¸®Å½»çÇÐȸ ´ëÇÑÁö±¸¹°¸®ÇÐȸ °øµ¿Çмú´ëȸ ³í¹®Áý, pp. 163~168, 6¿ù 7-8ÀÏ, ´ëÀü.  

  125. Á¶¼ºÁØ, ÀÌÈÆ¿­, ¼º³«ÈÆ, ±èÁ¤È£, 2007. Áö¹Ý º¯Çü ¸ð´ÏÅ͸µÀ» À§ÇÑ Ground Based-SAR ½Ã½ºÅÛ °³¹ß, Áö±¸½Ã½ºÅÛ°øÇÐȸ Ãá°èÇмú¹ßǥȸ, 4¿ù 19ÀÏ, ´ëÀü.

  126. ÇÑÇâ¼±, ÀÌÈÆ¿­, 2007. Kompsat-1 EOC ¿µ»óÀ» ÀÌ¿ëÇÑ ³²±ØÀÇ SSM/I¿Í AMSR-E Çغù ¸éÀûºñ ºñ±³ ºÐ¼®, ´ëÇÑ¿ø°ÝŽ»çÇÐȸ Ãá°èÇмú´ëȸ ³í¹®Áý, pp.198~203, ´ëÀü, 3¿ù 30ÀÏ. (Çлý³í¹®¹ßÇ¥ ¿ì¼ö»ó ¼ö»ó. »óÀå°ú »ó±Ý 50¸¸¿ø)

  127. °­¹®°æ, ¹Ú¿ë¿í, ÀÌÈÆ¿­, À̹®Áø, 2007. SAR ¿µ»óÀڷḦ ÀÌ¿ëÇÑ Çؾç ÆĶó¹ÌÅÍ ÃßÃâ ±â¹ý ¿¬±¸, ´ëÇÑ¿ø°ÝŽ»çÇÐȸ Ãá°èÇмú´ëȸ ³í¹®Áý, pp. 8~13, ´ëÀü, 3¿ù 30ÀÏ .

  128. ÀÌÈÆ¿­, Á¶¼ºÁØ, ¼º³«ÈÆ, 2007. GB-SAR ½Ã½ºÅÛÀÇ °³¹ß°ú ÀÀ¿ë, ´ëÇÑ¿ø°ÝŽ»çÇÐȸ Ãá°èÇмú´ëȸ ³í¹®Áý, pp. 134~137, ´ëÀü, 3¿ù 30ÀÏ.

  129. °­¹®°æ, ¹Ú¿ë¿í, ÀÌÈÆ¿­, À̹®Áø, 2006. SAR¸¦ ÀÌ¿ëÇÑ ÇØdz, ÆĶû, ÇØ·ù ÃßÃâ ±â¹ý ¿¬±¸, Çѱ¹Ç×ÇØÇ׸¸ÇÐȸ 2006 Ãß°èÇмú´ëȸ,  ¼øõ, 12¿ù 08ÀÏ.

  130. Junsoo Kim, Hyangsun Han and Hoonyol Lee, 2006. Atmospheric Correction of Landsat Sea Surface Temperature by using Terra MODIS. Proceedings of the International Symposium on Remote Sensing(ISRS) 2006 , Busan, Korea, 2~4 Nov., CD-ROM.

  131. Hoonyol Lee, Heesam Chae and Seong-Jun Cho, 2006. Measurement of Land Subsidence and Microwave Penetration of Drying Mudflat by using Radarsat-1 DInSAR and PolScat Laboratory Experiment, IGARSS'06, Denver, Colorado, USA, 31 July - 4 August.  

  132. Heesam Chae, Hoonyol Lee, Seong-Jun Cho, and No-Wook Park, 2006. Variation of Radar Backscattering Coefficient of Tidal Mudflat Observed by Radarsat-1 SAR and Polarimetric Scatterometer, IGARSS'06, Denver, Colorado, USA, 31 July - 4 August.

  133. Hyangsun Han and Hoonyol Lee, 2006. Comparison of SSM/I Sea Ice Concentration with Kompsat-1 EOC Images of the Arctic and Antarctic, IGARSS'06, Denver, Colorado, USA, 31 July - 4 August.

  134. ÇÑÇâ¼±, ÀÌÈÆ¿­, 2006. ºÏ±Ø°ú ³²±ØÀÇ SSM/I Sea Ice Concentration°ú Kompsat-1 EOC ¿µ»óÀÇ ºñ±³, ´ëÇÑ¿ø°ÝŽ»çÇÐȸ Ãá°èÇмú´ëȸ ³í¹®Áý, ´ëÀü, 3¿ù 31ÀÏ, pp. 153~156. (Çлý³í¹®¹ßÇ¥ ¿ì¼ö»ó ¼ö»ó. »óÀå°ú »ó±Ý 50¸¸¿ø)

  135. Àü°æ¹Ì, ÀÌÈÆ¿­, 2006. ´ÙÁ߽ñâ 11¿ù Landsat ¿µ»óÀ» ÀÌ¿ëÇÑ °­¿øµµ ÀÏ´ë ÀÓ»óÀÇ º¯È­°üÂû ¹× »ó·Ï¼ö ¿µ±ÞÀÇ ±¸ºÐ, ´ëÇÑ¿ø°ÝŽ»çÇÐȸ Ãá°èÇмú´ëȸ ³í¹®Áý, ´ëÀü, 3¿ù 31ÀÏ, pp. 210-213.

  136. äÈñ»ï, ÀÌÈÆ¿­, Á¶¼ºÁØ, ¹Ú³ë¿í, 2006. Radarsat-1 SAR ¿µ»ó°ú »ê¶õ°è ½Ç³» ½ÇÇèÀ» ÅëÇØ °üÂûµÈ Á¶°£´ë °¹¹ú °ÇÁ¶½Ã ·¹ÀÌ´õ ÈĹæ»ê¶õ°è¼öÀÇ MÇü º¯È­, ´ëÇÑ¿ø°ÝŽ»çÇÐȸ Ãá°èÇмú´ëȸ ³í¹®Áý, ´ëÀü, 3¿ù 31ÀÏ, pp. 75-78.

  137. ÀÌÈÆ¿­, äÈñ»ï, Á¶¼ºÁØ, 2006. ´ÙÆí±¤ »ê¶õ°è ½ÇÇèÀ» ÅëÇÑ °³ÆÞ °ÇÁ¶½ÃÀÇ Áö¹Ý ħÇÏ¿Í ¸¶ÀÌÅ©·ÎÆÄ Ä§Åõ ºÐ¼®, ´ëÇÑ¿ø°ÝŽ»çÇÐȸ Ãá°èÇмú´ëȸ ³í¹®Áý, ´ëÀü, 3¿ù 31ÀÏ, pp. 145-148.

  138. ÀÌÈÆ¿­, äÈñ»ï, Á¶¼ºÁØ, 2005. ´ÙÆí±¤ »ê¶õ°è¸¦ ÀÌ¿ëÇÑ °³ÆÞ °ÇÁ¶ ½ÇÇè - Áö¹Ý ħÇÏ¿Í ¸¶ÀÌÅ©·ÎÆÄ Ä§Åõ, Áö¹Ý ħÇÏ Á¶»ç, ¼³°è, ½Ã°ø¿¡ °üÇÑ ½ÉÆ÷Áö¾ö ³í¹®Áý, Çѱ¹ÁöÁúÀÚ¿ø¿¬±¸¿ø, 15 Dec., pp. 87~96.

  139. Hoonyol Lee, 2005. SAR application policy study: Analysis of SAR-related journal papers, Proceedings of the International Symposium on Remote Sensing 2005, Jeju, Korea, 12 Oct., CD-ROM.

  140. Hyangsun Han and Hoonyol Lee, 2005. Statistical atmospheric correction of lake surface temperature from Landsat thermal images, Proceedings of the International Symposium on Remote Sensing 2005, Jeju, Korea, 12 Oct., CD-ROM.

  141. Kyongmi Jeon and Hoonyol Lee, 2005. Change of tree types and estimation of tree ages in a research forest from two-decade archive of Landsat images, Proceedings of International Symposium on Remote Sensing 2005, Jeju, Korea, 12 Oct., CD-ROM.

  142. Youngjin Ahn and Hoonyol Lee, 2005. Urban growth of Chuncheon city observed by Landsat satellite images, Proceedings of the International Symposium on Remote Sensing 2005, Jeju, Korea, 12 Oct., CD-ROM.

  143. ÀÌÈÆ¿­, ÇÑÇâ¼±, 2005. ½Ã°è¿­Àû Landsat ¿µ»ó¿¡ ÀÇÇÑ È£¼öÀÇ Ç¥¸é¼ö¿Â°ú °èÀýÀû ¼öÁ÷ ¿Âµµ±¸¹è Çö»ó ºÐ¼®, 2005³âµµ ´ëÇÑ¿ø°ÝŽ»çÇÐȸ Ãá°èÇмú´ëȸ ³í¹®Áý, ¼­¿ï, 3¿ù 25ÀÏ, pp. 70~73.

  144. ¹Ú³ë¿í, ÀÌÈÆ¿­, Áö±¤ÈÆ, 2005. ´ÙÁß ½Ã±â SAR ÀÚ·áÀÇ ºÐ·ù¸¦ À§ÇÑ ÇÇÃÄ ÃßÃâ°ú Á¤º¸ À¶ÇÕ, 2005³âµµ ´ëÇÑ¿ø°ÝŽ»çÇÐȸ Ãá°èÇмú´ëȸ ³í¹®Áý, ¼­¿ï, 3¿ù 25ÀÏ, pp. 49~52.

  145. H. Lee and K. H. Chi, 2004. Contraction of a newly reclaimed mudflat detected by differential SAR interferometry, Proceedings of the International Symposium on Remote Sensing 2004, Jeju, Korea, 27~19 Oct., CD-ROM

  146.  ÀÌÈÆ¿­ 2004. "±³À°¿ë ÀΰøÀ§¼º ¿µ»ó·¹ÀÌ´õ ÀÚ·áó¸® °ø°³ ÇÁ·Î±×·¥ (eSAR Processor)ÀÇ °³¹ß", 2004³âµµ ´ëÇÑÁö±¸¹°¸®ÇÐȸ Çѱ¹¹°¸®Å½»çÇÐȸ °øµ¿Çмú´ëȸ ÃÊ·ÏÁý, ¾È»ê, 6¿ù 10-11ÀÏ, pp. 43~47.

  147. H. Lee, J. V. Morgan and M. R. Warner, 2003. Radargrammetry of opposite-side stereo Magellan synthetic aperture radar on Venus, IGARSS¡¯03, Toulouse, France, July.

  148. H. Lee and J. V. Morgan, 2002. Extracting topography of Venus from single orbit Magellan SAR data by using sub-aperture interferometry, 33rd Lunar and Planetary Science Conference, Houston, Texas, USA, 11-15 March.

  149. J. G. Liu, H. Fiona, M. Philippa and H. Lee, 2000. A RS/GIS study of rapid erosion in SE Spain using ERS SAR multi-temporal interferometric coherence imagery.  Proceedings of SPIE, Barcelona, Spain, 25-27 Sep., vol. 4171, pp. 367-375. 

  150. H. Lee and J. G. Liu, 2000. Topographic phase corrected coherence estimation using multi-pass differential SAR interferometry: differential coherence, IGARSS2000, Honolulu, Hawaii, USA, 24 ~ 28 July, vol. II, pp. 776 ~ 778. 

  151. Y. Ito, M. Hosokawa, H. Lee, and J. G. Liu, 2000. Extraction of damaged regions using SAR data and neural networks, XIXth Congress of ISPRS, Amsterdam, The Netherlands, 16-23 July, vol. 33.

  152. J. G. Liu, A. Black, H. Lee, H. Hanaizumi, and J. McM. Moore, 1999. Change detection and interpretation in a desert area using multi-temporal ERS SAR coherence images, Proceedings of the 13th International Conference and Workshop on Applied geologic Remote Sensing (ERIM Conference), Vancouver, Canada, 1-3 Mar., vol. 2, pp. 263-270.

  153. H. Lee and J. G. Liu, 1999. Spatial decorrelation due to the topography in the interferometric SAR coherence image, IGARSS'99, Hamburg, Germany, 28 June ~ 2 July, vol. 1,  pp. 485~487. (IGARSS'99 Interactive Session Prize Paper Award, IGARSS'00 Hawaii, USA)

  154. J. G. Liu, H. Lee, and T. Pearson, 1999. Detection of rapid erosion in SE Spain using interferometric coherence SAR imagery, The EOS/SPIE Symposium on Remote Sensing, Florence, Italy, 20 ~ 24 Sep., vol. 3868, ch. 66, pp. 525-535.

  155. J. G. Liu, H. Lee, and T. Pearson, 1999. Erosion and landuse change detection using ERS SAR interferometric coherence imagery (ESA ERS AO3-113), Fringe99, Liege, Belgium, 10 ~ 12 Nov.

  156. J. G. Liu, H. Lee, G. Hu, and J. Chen, 1999. Land subsidence in Guanzhong basin, Shanxi, Chana - A SAR interferometric study, Proceedings of the International Symposium on Digital Earth, Beijing, China, 29 Nov. - 2 Dec., vol. 2, pp. 910 - 919.

  157. H. Hanaizumi, J. G. Liu, J. McM. Moore, and H. Lee, 1998. Change detection using multi-temporal INSAR coherence images", Proc. ISNIC 98, University of Tokyo, Japan, 10-12 Nov.

¡¡

Project Reports

  1. ÀÌÈÆ¿­, ÇÑÇâ¼±, Àå¼Ò¿µ, 2009. Â÷·®À» ÀÌ¿ëÇÑ ±¹Åä¸ð´ÏÅ͸µ±â¼ú °³¹ß, Çѱ¹ÁöÁúÀÚ¿ø¿¬±¸¿ø, 6¿ù.

  2. ÀÌÈÆ¿­, ±è»ó¿Ï, ÇÑÇâ¼±, Àå¼Ò¿µ, ÀÌÀçÈñ, ÀÌÀº¼±, ±ÇÀºÁø, ±èÇâ¼÷, ±è°è¸², Á¶¹ÎÁö, °­ÅÂÁ¤, 2009. °íÇØ»óµµ SAR ¿µ»óÀڷḦ ÀÌ¿ëÇÑ ÁÖÁ¦µµ Á¦ÀÛ±â¼ú °³¹ß, Çѱ¹Ç×°ø¿ìÁÖ¿¬±¸¿ø, 2¿ù.

  3. ÀÌÈÆ¿­, ÇÑÇâ¼±, ÀÌÀçÈñ, ÀÌÀº¼±, Àå¼Ò¿µ, ±ÇÀºÁø, ±èÇâ¼÷, 2008. GB-SAR ½Ã½ºÅÛ ¿µ»óÈ­ ±â¹ý °³¹ß III, Çѱ¹ÁöÁúÀÚ¿ø¿¬±¸¿ø, 10¿ù.

  4. ÀÌÈÆ¿­, ÇÑÇâ¼±, ÀÌÀçÈñ, ÀÌÀº¼±, Àå¼Ò¿µ, ±ÇÀºÁø, ±èÇâ¼÷, 2008. ArcSAR ¿µ»óÈ­ ¹× Çؼ® ¾Ë°í¸®Áò °³¹ß, Çѱ¹ÁöÁúÀÚ¿ø¿¬±¸¿ø, 8¿ù.

  5. ÀÌÈÆ¿­, ÇÑÇâ¼±, ÀÌÀçÈñ, ÀÌÀº¼±, Àå¼Ò¿µ, ±ÇÀºÁø, ±èÇâ¼÷, 2008. ³²±Ø ´ë·ú±âÁö ¿¹ºñÈĺ¸Áö ¼±Á¤À» À§ÇÑ À§¼º¿µ»ó ºÐ¼®, ±ØÁö¿¬±¸¼Ò, 3¿ù.

  6. ÀÌÈÆ¿­, ±è»ó¿Ï, ÇÑÇâ¼±, Á¤Çü¼·, ±è°è¸², 2008. °íÇØ»óµµ SAR ¿µ»óÀڷḦ ÀÌ¿ëÇÑ ÁÖÁ¦µµ Á¦ÀÛ±â¼ú °³¹ß, Çѱ¹Ç×°ø¿ìÁÖ¿¬±¸¿ø, 2¿ù.

  7. ÀÌÈÆ¿­, °­¹®°æ, °­ÁöÇý, Á¤¼öÁ¤, 2007. ÆĶûÁ¤º¸ ÃßÃâÀ» À§ÇÑ SAR ¿µ»ó 󸮱â¼ú °³¹ß II, Çؾç½Ã½ºÅÛ¾ÈÀü¿¬±¸¼Ò, 11¿ù.

  8. ÀÌÈÆ¿­, ÇÑÇâ¼±, ÀÌÀçÈñ, Àå¼Ò¿µ, ¹ÚÀº¼±, 2007. GB-SAR ½Ã½ºÅÛ ¿µ»óÈ­ ±â¹ý °³¹ß II, Çѱ¹ÁöÁúÀÚ¿ø¿¬±¸¿ø, 10¿ù.

  9. ÀÌÈÆ¿­, ÇÑÇâ¼±, äÈñ»ï, 2006. New Ice¿Í Young Ice¸¦ °í·ÁÇÑ SSM/I Çغù ¸éÀûºñ ÃßÃâ±â¹ý °Ëº¸Á¤, ±ØÁö¿¬±¸¼Ò, 12¿ù.

  10. ÀÌÈÆ¿­, äÈñ»ï, ÇÑÇâ¼±, 2006. GB-SAR ½Ã½ºÅÛ ¿µ»óÈ­ ±â¹ý °³¹ß, Çѱ¹ÁöÁúÀÚ¿ø¿¬±¸¿ø, 12¿ù.

  11. ÀÌÈÆ¿­, °­¹®°æ, ¹Ú¿ë¿í, ÇѽÂÇÏ, ±èÁؼö, 2006. SAR¸¦ ÀÌ¿ëÇÑ ÆĶûºÐ¼® ¿øõ±â¼ú °³¹ß, Çؾç½Ã½ºÅÛ¾ÈÀü¿¬±¸¼Ò, 11¿ù.

  12. ÀÌÈÆ¿­, äÈñ»ï, ÇÑÇâ¼±, Á¶¼ºÁØ, 2006. ¸¶ÀÌÅ©·ÎÆÄ »ê¶õ°è ÃøÁ¤ ¿ë¿ª, Çѱ¹Ç×°ø¿ìÁÖ¿¬±¸¿ø, 11¿ù.

  13. ÀÌÈÆ¿­, äÈñ»ï, ÇÑÇâ¼±, Àü°æ¹Ì, ¹Ú¿ë¿í, ÇѽÂÇÏ, ±èÁؼö, 2006. InSAR¸¦ ÀÌ¿ëÇÑ ±¤¿ª Áö¹ÝħÇÏ ¿ø°Ý°üÃø ±â¹ý¿¡ °üÇÑ ¿¬±¸ II, Çѱ¹ÁöÁúÀÚ¿ø¿¬±¸¿ø, 4¿ù.

  14. ÀÌÈÆ¿­, äÈñ»ï, ÇÑÇâ¼±, Àü°æ¹Ì, ¾È¿µÁø, 2005. SAR È°¿ë Á¤Ã¥ ¿¬±¸, °ø°ø±â¼ú¿¬±¸È¸(Çѱ¹Ç×°ø¿ìÁÖ¿¬±¸¿ø), 12¿ù.

  15. ÀÌÈÆ¿­, äÈñ»ï, ÇÑÇâ¼±, Àü°æ¹Ì, ¾È¿µÁø, 2005. ÀΰøÀ§¼ºÀ» ÀÌ¿ëÇÑ ±Øºù º¯È­ ¿¬±¸, °ø°ø±â¼ú¿¬±¸È¸(Çѱ¹Ç×°ø¿ìÁÖ¿¬±¸¿ø), 12¿ù.

  16. ÀÌÈÆ¿­, äÈñ»ï, ÇÑÇâ¼±, Àü°æ¹Ì, ¾È¿µÁø, 2005. InSAR¸¦ ÀÌ¿ëÇÑ ±¤¿ª Áö¹ÝħÇÏ ¿ø°Ý°üÃø ±â¹ý¿¡ °üÇÑ ¿¬±¸, Çѱ¹ÁöÁúÀÚ¿ø¿¬±¸¿ø, 10¿ù.

¡¡

Thesis

  1. Ãß¿ëÀç, 2024. PSInSAR ±â¹ýÀ» È°¿ëÇÑ ¹«»ê ±¤»ê ÁöÇ¥ º¯À§, °­¿ø´ëÇб³ Áö±¸¹°¸®Çаú ¼®»ç³í¹®, 2¿ù.

  2. Á¤´Ù¿î, 2023. PSInSAR ±â¹ýÀ» ÀÌ¿ëÇÑ 2017 ³â Æ÷Ç×ÁöÁø º¯À§ ¹× Áö¼ÓÀû Áö¹ÝħÇÏ ºÐ¼®, °­¿ø´ëÇб³ Áö±¸¹°¸®Çаú ¼®»ç³í¹®, 8¿ù.

  3. ÀÌÁ¾È£, ¹ÚÁ¾ÀÎ, ¹ÚÅÂÈñ, Á¤±¸Ã¶, 2023. DDInSAR ±â¹ýÀ» ÀÌ¿ëÇÑ µ¿³²±Ø Amery Ice Shelf Àα٠ºùÀúÈ£ ŽÁö, °­¿ø´ëÇб³ Áö±¸¹°¸®Çаú Çлç³í¹®, 2¿ù.

  4. °ø±âÀ±, ±èµÎÇö, Á¤¼ºÈ¯, ½Å¿µ³², Ãß¿ëÀç, 2022. Sentinel-1 SAR À§¼º ¿µ»óÀ» È°¿ëÇÑ È«¼ö Áö¿ªÀÇ °¨µ¶ ºÐ·ù Á¤È®¼º ºñ±³ ¿¬±¸, °­¿ø´ëÇб³ Áö±¸¹°¸®Çаú Çлç³í¹®, 2¿ù.

  5. ¹®ÁöÇö, 2021. SAR °£¼· ±â¹ýÀ» ÀÌ¿ëÇÑ ³ëõ±¤»êÀÇ È°µ¿¼º ºÐ¼®, °­¿ø´ëÇб³ Áö±¸¹°¸®Çаú ¼®»ç³í¹®, 2¿ù.

  6. ±èÇö¼ö, ±èÈ°¶õ, ±èÅ¿í, ¼º¿ìÁø, ¾ç½Âȯ, ¿øÀ¯Âù, Á¤´Ù¿î, 2021. Sentinel-1 SAR ±ä¹Ðµµ ¿µ»óÀ» ÀÌ¿ëÇÑ ³ëõ±¤»êÀÇ È°µ¿¼º ºÐ¼®, °­¿ø´ëÇб³ Áö±¸¹°¸®Çаú Çлç³í¹®, 2¿ù.

  7. ¼­ÈñÁ¤, 2020. SAR °£¼· ±â¹ýÀ» ÀÌ¿ëÇÑ µ¿³²±Ø ºùÇÏÀÇ À¯¼Ó º¯È­¿Í ºùÀúÈ£ ºÐ¼®, °­¿ø´ëÇб³ Áö±¸¹°¸®Çаú ¼®»ç³í¹®, 2¿ù.

  8. ±è´ÙÇý, ±èÇü¹Î, ¹ÚÁöÇý, Á¶À¯¸®, 2020. Sentinel-1A SAR ¿µ»óÀ» È°¿ëÇÑ ³²±Ø David ºùÇÏ À¯¼ÓÀÇ ½Ã°è¿­Àû º¯È­ °üÂû, 2¿ù. 

  9. À±Áö»ó, 2019. À§¼º SAR ¿µ»óÀ» ÀÌ¿ëÇÑ ÀΰøÁöÁø¿¡ ÀÇÇÑ ÁöÇ¥º¯À§ ¿¬±¸, °­¿ø´ëÇб³ Áö±¸¹°¸®Çаú ¼®»ç³í¹®, 8¿ù.

  10. À̵¿Èñ, 2019. Sentinel-1A/B À§¼ºÀÇ SAR ¿µ»óÀ» È°¿ëÇÑ Larsen C Ice Shelf ºÐ¸®ÀÇ ½Ã°è¿­Àû °üÂû, °­¿ø´ëÇб³ Áö±¸¹°¸®Çаú Çлç³í¹®, 2¿ù. (A68 iceberg movie)

  11. ÇѼöÁ¤, 2018. SAR ¿µ»óÀÇ ÀÌÁßÂ÷ºÐ°£¼·±â¹ýÀ» ÀÌ¿ëÇÑ ³²±Ø ºùºØÀÇ Á¶À§º¯Çü ºÐ¼®, °­¿ø´ëÇб³ Áö±¸¹°¸®Çаú ¼®»ç³í¹®, 2¿ù.

  12. ¹ÚÁöÈ£, À̱Çö, ÀÌ´ë¶ó, 2018. Sentinel-1A/B À§¼ºÀÇ SAR °£¼·¿µ»óÀ» È°¿ëÇÑ ÁöÁø º¯À§ ºÐ¼®, °­¿ø´ëÇб³ Áö±¸¹°¸®Çаú Çлç³í¹®, 2¿ù.

  13. ±ÝÀçÀ±, À±Áö»ó, ¼­ÈñÁ¤, À̼¼¿µ, 2017. SNAP ÇÁ·Î±×·¥À» ÀÌ¿ëÇÑ Sentinel-1A SAR °£¼·¿µ»ó ó¸®, °­¿ø´ëÇб³ Áö±¸¹°¸®Çаú Çлç³í¹®, 2¿ù.

  14. ±è¿¬Ãá, 2015. ³²±Ø À庸°í °úÇбâÁö ÁÖº¯ Çغù ºÐ¼®, °­¿ø´ëÇб³ Áö±¸¹°¸®Çаú ¼®»ç³í¹®, 2¿ù.

  15. Áö¿µÈÆ, 2015. ±³À°¿ë ·¹ÀÌ´õ ½Ã½ºÅÛÀÇ Á¦ÀÛ ¹× ½ÇÇè, °­¿ø´ëÇб³ Áö±¸¹°¸®Çаú ¼®»ç³í¹®, 2¿ù.

  16. ¹ÎÁö¿ø, ¹Ú½Å¿µ, ¼º½Ã¿Ï, Á¶¿µÈ­, ÇãÀç¿ø, 2015. MODIS NDVIÀÇ ½Ã°è¿­Àû ºÐ¼®À» ÅëÇÑ ÅäÁöÇǺ¹ ºÐ·ù, °­¿ø´ëÇб³ Áö±¸¹°¸®Çаú Çлç³í¹®, 2¿ù.

  17. ±è¹üÁØ, 2014. ºÐ±¤º¹»ç°è¿Í ´ÙºÐ±¤ ¿ø°ÝŽ»ç¸¦ ÀÌ¿ëÇÑ È­°­¾Ï°ú Á¶°£´ëÀÇ ºÐ±¤¹Ý»çÀ² Ư¼º ºÐ¼®, °­¿ø´ëÇб³ Áö±¸¹°¸®Çаú ¼®»ç³í¹®, 8¿ù.

  18. ±Ç±â¿À, Àå¼ö¿ë, 2014. MODIS ¿µ»óÀ» ÀÌ¿ëÇÑ ³²±Ø ¸Æ¸Óµµ ±âÁö ºÎ±ÙÀÇ Á¤±ÔûºùÁö¼ö ¿¬±¸, °­¿ø´ëÇб³ Áö±¸¹°¸®Çаú Çлç³í¹®, 2¿ù.

  19. ÇÑÇâ¼±, 2013. ¸¶ÀÌÅ©·ÎÆÄ ¿ø°ÝŽ»ç¸¦ ÀÌ¿ëÇÑ È£¼ö ¾óÀ½ÀÇ ÈĹæ»ê¶õ°ú ºùÇÏÀÇ Á¶À§º¯Çü ¹× º¹»ç Ư¼º ¿¬±¸, °­¿ø´ëÇб³ ÀÌÇÐ¹Ú»ç ³í¹®, 2¿ù.

  20. Áö¿µÈÆ, ¹é½Â¿ë, ±èÀçÀ±, Àå¹ÎÁÖ, ÇԾƸ§, 2013.  COSMO-SkyMed SAR ¿µ»óÀ» ÀÌ¿ëÇÑ Campbell ºùÇÏÀÇ ¸éÀûº¯È­¿Í À¯µ¿Æ¯¼º ¿¬±¸, °­¿ø´ëÇб³ Áö±¸¹°¸®Çаú Çлç³í¹®, 2¿ù.

  21. ±èÀÌÇö, 2012. ¸¶ÀÌÅ©·ÎÆÄ »ê¶õ°è ¹× ÇÕ¼º±¸°æ·¹ÀÌ´õ¸¦ ÀÌ¿ëÇÑ ÀÛ¹°»ýÀ° ¸ð´ÏÅ͸µ, °­¿ø´ëÇб³ ÀÌÇÐ¹Ú»ç ³í¹®, 8¿ù.

  22. ±è¹üÁØ, Á¶Çý·Ã, ÀåÈ¿¼±, 2012. X-¹êµå ¸¶ÀÌÅ©·ÎÆÄ »ê¶õ°è¸¦ ÀÌ¿ëÇÑ È£¼ö ¾óÀ½ µÎ²² ÃøÁ¤, °­¿ø´ëÇб³ Áö±¸¹°¸®Çаú Çлç³í¹®, 2¿ù.

  23. ±è¹Î¾Ö, ÀÌÀ¯¹Ì, ÀÌÈñ¿ø, 2011. MODIS Á¤±Ô½Ä»ýÁö¼ö ¿µ»óÀ» ÀÌ¿ëÇÑ Å¸Å¬¶ó¸¶Ä­ »ç¸·ÀÇ ½Ä»ýº¯È­ ŽÁö. °­¿ø´ëÇб³ Áö±¸¹°¸®Çаú Çлç³í¹®, 2¿ù.

  24. Àå¼Ò¿µ, 2010. ÀΰøÀ§¼º SAR ¿µ»óÀ» ÀÌ¿ëÇÑ ¸ù»êÆ÷ Á¶°£´ëÀÇ Ridge-Runnel ¹× ¿¬Èç °üÂû, °­¿ø´ëÇб³ Áö±¸¹°¸®Çаú ¼®»ç³í¹®, 8¿ù.

  25. ÀÌÀçÈñ, 2010. ´ë±âº¸Á¤À» ÅëÇÑ GB-SAR ½Ã½ºÅÛÀÇ º¯À§ÃøÁ¤ Á¤¹Ðµµ Çâ»ó, °­¿ø´ëÇб³ Áö±¸¹°¸®Çаú ¼®»ç³í¹®, 2¿ù.

  26. ±ÇÀºÁø, ±èÇâ¼÷, 2009. Ç×°ø»çÁø°ú KOMPSAT-2 ¿µ»óÀ» ÀÌ¿ëÇÑ ¸Á»óÇؼö¿åÀåÀÇ Çغóº¯È­ ¿¬±¸, °­¿ø´ëÇб³ Áö±¸¹°¸®Çаú Çлç³í¹®, 2¿ù.

  27. Àå¼Ò¿µ, 2008. Radargrammetry Àû¿ëÀ» À§ÇÑ À§µµ¿¡ µû¸¥ KOMPSAT-5 ±ËµµºÐ¼®, °­¿ø´ëÇб³ Áö±¸¹°¸®Çаú Çлç³í¹®, 8¿ù. (wmv)

  28. ÇÑÇâ¼±, 2008. ºÏ±Ø°ú ³²±ØÀÇ KOMPSAT-1 EOC ¿µ»óÀ» ÀÌ¿ëÇÑ ¼öµ¿ ¸¶ÀÌÅ©·ÎÆÄ Çغù ¸éÀûºñ ºÐ¼®, °­¿ø´ëÇб³ Áö±¸¹°¸®Çаú ¼®»ç³í¹®, 2¿ù.

  29. ÀÌÀçÈñ, 2008. GB-SARÀÇ °£¼·±â¹ýÀ» ÀÌ¿ëÇÑ »ê¶õü º¯À§ ¹× °íµµ ÃøÁ¤, °­¿ø´ëÇб³ Áö±¸¹°¸®Çаú Çлç³í¹®, 2¿ù.

  30. ¹ÚÁö¼º, ÀÌÀº¼±, 2008. ´ÙÆíÆÄ »ê¶õ°è¸¦ ÀÌ¿ëÇÑ º­ »ýÀ°¿¡ µû¸¥ ÈĹæ»ê¶õ°è¼ö º¯È­ ºÐ¼®, °­¿ø´ëÇб³ Áö±¸¹°¸®Çаú Çлç³í¹®, 2¿ù.

  31. °­ÁöÇý, Á¤¼öÁ¤, 2008. SAR ¿µ»ó¿¡¼­ ÇØ·ù ¼Óµµ ÃßÃâ ¹æ¹ý ¿¬±¸, °­¿ø´ëÇб³ Áö±¸¹°¸®Çаú Çлç³í¹®, 2¿ù.

  32. ¹ÚÀº¼±, 2007. Ç×°ø»çÁøÀ» ÀÌ¿ëÇÑ ¸Á»óÇؼö¿åÀåÀÇ Çغóº¯È­ ¿¬±¸, °­¿ø´ëÇб³ Áö±¸¹°¸®Çаú Çлç³í¹®, 8¿ù.

  33. äÈñ»ï, 2007. ÀΰøÀ§¼º SAR ¿µ»ó°ú »ê¶õ°è¸¦ ÀÌ¿ëÇÑ Á¶°£´ë °¹¹úÀÇ ÈĹæ»ê¶õ°è¼ö º¯È­ ¿¬±¸, °­¿ø´ëÇб³ Áö±¸¹°¸®Çаú ¼®»ç³í¹®, 2¿ù.

  34. ¹Ú¿ë¿í, 2007, SAR ¿µ»ó¿¡¼­ Çؾç ÆĶû ½ºÆåÆ®·³ ÃßÃâÀ» À§ÇÑ ±â¹ý¿¬±¸, °­¿ø´ëÇб³ Áö±¸¹°¸®Çаú Çлç³í¹®, 2¿ù.

  35. ±èÁؼö, 2007. Terra MODIS¸¦ ÀÌ¿ëÇÑ Landsat Çؼö¸é¿Âµµ º¸Á¤, °­¿ø´ëÇб³ Áö±¸¹°¸®Çаú Çлç³í¹®, 2¿ù.

  36. ÇѽÂÇÏ, 2007. »ê¸²Áö¸®Á¤º¸½Ã½ºÅÛ°ú Landsat À§¼º¿µ»óÀ» ÀÌ¿ëÇÑ °­¿øµµ »ó·Ï¼ö¸²ÀÇ ¿µ±Þ°ú ½Ä»ýÁö¼ö ºñ±³, °­¿ø´ëÇб³ Áö±¸¹°¸®Çаú Çлç³í¹®, 2¿ù.

  37. ÇÑÇâ¼±, 2006. ½Ã°è¿­Àû Landsat ¿µ»óÀ» ÀÌ¿ëÇÑ ÇÑ°­ ¼ö°è È£¼öÀÇ Ç¥¸é ¼ö¿Â°ú ¼ºÃþ Çö»ó ºÐ¼®, °­¿ø´ëÇб³ Áö±¸¹°¸®Çаú Çлç³í¹®, 2¿ù.

  38. Àü°æ¹Ì, 2006. °­¿ø´ë ¿¬½À¸² ÀÓ»óº¯È­ À§¼º °üÃø, °­¿ø´ëÇб³ Áö±¸¹°¸®Çаú Çлç³í¹®, 2¿ù.

  39. ¾È¿µÁø, 2006. Landsat À§¼º ¿µ»óÀ» ÀÌ¿ëÇÑ Ãáõ Áö¿ª µµ½Ã º¯È­ °üÂû, °­¿ø´ëÇб³ Áö±¸¹°¸®Çаú Çлç³í¹®, 2¿ù.

  40. Hoonyol Lee, 2001. Interferometric synthetic aperture radar coherence imagery for land surface change detection, Ph.D. thesis, University of London (Imperial College), 31 March.

  41. Hoonyol Lee, 1997. Crustal structure beneath the Inchon seismic station determined by receiver function analysis, MS Thesis, Seoul National University, Feb.

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Patents

  1. ÀÌÈÆ¿­, Á¶¼ºÁØ, ±è±¤Àº, 2011. ¾ÆÅ©ÇÕ¼º±¸°æ ·¹ÀÌ´õ ½Ã½ºÅÛÀÇ ±ØÁÂÇ¥ ¿µ»óÈ­ ¹æ¹ý, ƯÇã µî·Ï Á¦ 10-1081362È£, 11¿ù 2ÀÏ.

  2. Á¶¼ºÁØ, ÀÌÈÆ¿­, ±è±¤Àº, 2010. ¾ÆÅ© ÇÕ¼º±¸°æ ·¹ÀÌ´Ù ½Ã½ºÅÛ, ƯÇã µî·Ï Á¦ 10-0963575È£, 6¿ù 7ÀÏ.

  3. Á¶¼ºÁØ, ÀÌÈÆ¿­, ±è±¤Àº, 2009. °íÇØ»óµµ ¿µ»ó ȹµæÀÌ °¡´ÉÇÑ ¾ÆÅ© ÇÕ¼º±¸°æ ·¹ÀÌ´õ ½Ã½ºÅÛ, ƯÇã µî·Ï Á¦ 10-0932383È£, 12¿ù 8ÀÏ.

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