淺水多音束聲納資料之誤差檢核分析研究

Yun-Ru Lin; 林芸如

請用此 Handle URI 來引用此文件： http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/47994

完整後設資料紀錄

DC 欄位	值	語言
dc.contributor.advisor	宋國士
dc.contributor.author	Yun-Ru Lin	en
dc.contributor.author	林芸如	zh_TW
dc.date.accessioned	2021-06-15T06:44:06Z	-
dc.date.available	2011-07-07
dc.date.copyright	2011-07-07
dc.date.issued	2011
dc.date.submitted	2011-07-04
dc.identifier.citation	Art K., Jim C., David F., Neville C., John M., Fred S., John S., Robert S., 2001, 'A Collaborative Effort to Meet New Zealand's Mapping Requirements: Multibeam Echosounder Integration, Acceptance Testing, and Antarctic Mapping Aboard the Research Vessel Tangaroa,' MTS/IEE Oceans 2001 Conf.. Christian de Moustier, 2001, 'Field Evaluation of Sounding Accuracy in Deep Water Multibeam Swath Bathymetry,' IEEE Ocean Conference and Exhibition, Vol. 3, p.1761-1765. Gueriot, D. Chedru, J. Daniel, S. Maillard, E., 2000, ' The Patch Test: a comprehensive calibration tool for multibeam echosounders', IEEE Ocean Conference and Exhibition, Vol. 3, p.1655-1661. IHO, International Hydrographic organization, 1998, 'Standards for Hydrographic surveys,' Special publication #44,4th edition, Draft after 2nd meeting of S-44 WG. James A. H., David H. F., Dr. John H. C., and Barbara R., 1998, 'Hydrographic Multibeam Processing System (HMPS) Swath Alignment Tool,' Proc. Canadian Hydrographic Conf., 157-167. Mike K., 2001, 'Multibeam Performance Testing,' U.S. Hydrographic Conf. Michael O. M., 1999, 'Testing Methodology for Motion Sensors and Positioning Systems', U.S. Hydrographic Conference. Miller, J.E., Ferguson, J.S., and Byrne, J.S. Sci. 1995, 'Shallow water multibeam sonar performance, results from a modern hydrographic survey system', IEEE, Vol. 2, 985 – 990. U.S. Army Corps of Engineers, Engineering and design Hydrographic surveying engineer manual, 2002 任偉麗，2003，淺水多音束測深系統扇形音束精度之分析研究，國立台灣大學海洋研究所碩士論文宋國士、邱協棟，1993，測深系統誤差效應之考量，海下技術季刊，第三卷，第四期，p.31-35。宋國士、蕭國寬，1998，簡述可攜式多音束測深系統的安裝及校正，海下技術季刊，第八卷，第一期，pp.38-42。宋國士、陳明欽、陳冠宇、楊德建，2001，多音束測深系統之資料處理與誤差分析，第二十屆測量學術暨應用研究會論文集。李建鋒，2007，近濱區外淺水海域多音束地形測量的影響因素探討，國立台灣大學海洋研究所碩士論文。陳明欽，2002，淺水多音束聲納測深資料的誤差分析研究，國立台灣大學海洋研究所碩士論文。楊光哲，1999，淺水多音束聲納測深資料精確渡及海底地形影像分析之研究，國立中山大學海下技術研究所碩士論文。網路資料: MARUM http://www.marum.de/Method.html
dc.identifier.uri	http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/47994	-
dc.description.abstract	多音束測深在施測時必需依賴周邊儀器提供參數進行水深判定，因支援儀器繁雜，且水深測點的資料量龐大，無論是在施測當下的衛星定位或是資料後處理的參數設定，都容易造成難以修復的誤差。本文將對於各種參數影響造成的誤差量，利用交叉分析法來檢示不同誤差因素所產生的誤差分布，並嘗試予以修正。在定位誤差方面使用GPS單機定位與DGPS差分定位做對照，單機定位的誤差量大，且誤差值及位移方向會隨著時間而改變，也因此，定位誤差無法適用固定的誤差值去做修正。於水深25公尺處地形坡度超過1.3度以上，則GPS單機定位之精度並無法滿足IHO特級測深標準，必需使用DGPS定位解。在多音束音鼓安裝時若存在橫搖角偏差1°就會使得資料品質大幅下降，誤差分布有對稱性且呈現正負值相間的鋸齒狀。存在縱搖角偏差則會使誤差分布偏向正值，但在地形平坦處(水深25公尺)無太大的影響。檢核線與測線應該為正相交，檢核航線可通過測線上內側和外側音束位置，其交叉分析所得的結果才具參考意義，若檢核航線與測線不規則相交，則其交叉分析結果無法正確反應出全樣本的統計值。	zh_TW
dc.description.abstract	Multi-beam echo sounders are normally equipped with kinds of Peripheral devices for the measurements. However due to the complexity of supporting devices, and massive amount of water depth data, a considerable amount of Irreversible artifacts will occur. This study uses Cross Over Check method to survey error distribution that caused by different means, and attempt to correct the discrepancies. In the problem of positioning error, GPS measurements have poor quality than the DGPS (differential GPS) and deviation of the errors shows time dependence. Therefore, there is no way to apply a constant correction value to fix the problem. Moreover, it is estimated that the GPS solutions can be used when the sounding area with the relief of the slope less than 1.3 degree. When the transducer is installed with more than 1 roll offset angle, bathymetry accuracy will easily fail to satisfy the IHO level when seabed is 25m deep. Pitch offset angle will cause the error shift towards positive value, but the occurrence is slight when seabed is shallow and flat. Checking the errors of every track can be realized with check line crossing with track, check line crossing with all locations of sound beam footprints. Direction of the cross over lines shall be perpendicular with the azimuth of survey tracks, such that check lines can be crossing inner and outer beams of the survey lines at almost equal proportion. Under this condition, the output value to judge the quality of bathymetry can be accepted statistically.	en
dc.description.provenance	Made available in DSpace on 2021-06-15T06:44:06Z (GMT). No. of bitstreams: 1 ntu-100-R97241308-1.pdf: 11213004 bytes, checksum: d49719faf4384a8d0df3dee6114194e1 (MD5) Previous issue date: 2011	en
dc.description.tableofcontents	摘要 .............................................................................................................................. i Abstract ......................................................................................................................... ii 目錄 ............................................................................................................................. iii 圖目錄 ..........................................................................................................................v 表目錄 .......................................................................................................................... ix 第一章緒論................................................................................................................ 1 1-1 前言............................................................................................................... 1 1-2 多音束測深誤差分析................................................................................... 2 1-2-1 誤差種類............................................................................................ 2 1-2-2 現場測深準確率的評估.................................................................... 3 1-2-3 參考面與檢核線................................................................................ 4 1-2-4交叉分析............................................................................................. 5 1-3 研究目的........................................................................................................ 6 第二章多音束測深系統作業方法.............................................................................. 7 2-1 研究區域位置................................................................................................. 7 2-2 儀器設備及測量方法..................................................................................... 8 2-2-1 儀器設備............................................................................................ 8 2-2-2測量方法............................................................................................. 12 2-3 資料檢視方法................................................................................................ 15 2-3-1 資料處理............................................................................................. 15 2-3-2 利用檢核線計算誤差量..................................................................... 16 第三章資料誤差分析與修正...................................................................................... 19 3-1 檢示定位誤差之影響..................................................................................... 19 3-1-1 等深線位移(A-0612航次) ............................................................... 29 3-1-2 等深線變形不吻合(A-0714航次) ................................................... 33 3-1-3 定位問題之深度效應........................................................................ 37 3-1-4 定位誤差的表現及修正.................................................................... 43 3-2 疊合測試及起伏值參數誤差....................................................................... 57 3-2-1 橫搖角(roll)偏差............................................................................... 61 3-2-2 縱搖角(pitch)偏差............................................................................. 65 3-2-3 航偏角(yaw)偏差............................................................................. 69 3-2-4 起伏值(heave)錯誤.......................................................................... 73 3-3 檢核線彎曲造成的影響............................................................................. 79 3-3-1 檢核線與測線正相交...................................................................... 81 3-3-2 檢核線與測線不規則相交.............................................................. 85 第四章結論............................................................................................................... 89 參考文獻....................................................................................................................... 92
dc.language.iso	zh-TW
dc.subject	淺水多音束測深	zh_TW
dc.subject	疊合測試	zh_TW
dc.subject	定位誤差	zh_TW
dc.subject	檢核線	zh_TW
dc.subject	交叉分析	zh_TW
dc.subject	check line	en
dc.subject	shallow-water multibeam bathymetry	en
dc.subject	positioning error	en
dc.subject	patch test	en
dc.subject	cross-over check	en
dc.title	淺水多音束聲納資料之誤差檢核分析研究	zh_TW
dc.title	Bathymetry Cross-Over Check for Shallow-Water Multibeam data	en
dc.type	Thesis
dc.date.schoolyear	99-2
dc.description.degree	碩士
dc.contributor.oralexamcommittee	劉家瑄,羅聖宗
dc.subject.keyword	淺水多音束測深,交叉分析,檢核線,定位誤差,疊合測試,	zh_TW
dc.subject.keyword	shallow-water multibeam bathymetry,cross-over check,check line,positioning error,patch test,	en
dc.relation.page	94
dc.rights.note	有償授權
dc.date.accepted	2011-07-04
dc.contributor.author-college	理學院	zh_TW
dc.contributor.author-dept	海洋研究所	zh_TW
顯示於系所單位：	海洋研究所

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