博碩士論文 953202072 完整後設資料紀錄

DC 欄位 語言
DC.contributor土木工程學系zh_TW
DC.creator巫婉瑜zh_TW
DC.creatorWan-yu Wuen_US
dc.date.accessioned2008-7-16T07:39:07Z
dc.date.available2008-7-16T07:39:07Z
dc.date.issued2008
dc.identifier.urihttp://ir.lib.ncu.edu.tw:444/thesis/view_etd.asp?URN=953202072
dc.contributor.department土木工程學系zh_TW
DC.description國立中央大學zh_TW
DC.descriptionNational Central Universityen_US
dc.description.abstract在衛星遙測的應用中,目標區域通常涵蓋一張以上的衛星影像。因此,將正射化之影像進行鑲嵌為提供大範圍的影像資料並與其他相關資料整合之重要工作。影像正射化之首要工作為方位的重建,基於良好的交會幾何,使用區域平差可增加影像間的幾何性並達到高定位精度。然而,在許多衛星影像應用中,為求較大的影像覆蓋面積,其交會角及影像重疊區域通常很小,傳統上以三維定位為考量之區域平差模式將不適用。 有理函數模型配合以衛星方位參數求得之有理函數轉換係數的改正成果已被證實近似於嚴密幾何模型。由於具有數學模型簡單且標準化的特性,使得有理函數模型廣泛地應用在高解析衛星影像幾何校正。因此,本研究將針對弱交會幾何之衛星影像,提出一個新的有理函數模型區域平差程序,並加入數值高程模型作為航帶連結點之高程控制,藉以降低航帶連結間之相對偏移。 研究中包含三個主要工作:(1) 有理函數模型區域平差,(2) 加入數值高程模型作為高程控制,(3) 以最小二乘過濾減少地面坐標之局部性系統誤差。測試資料有兩組,分別為FORMOSAT-2 和SPOT-5影像。實驗內容將分別測試區域平差、高程控制及最小二乘過濾之成效,以及有理函數模型區域平差和直接地理定位、光束法平差之成果比較。精度評估分為兩大部份,分別為絕對精度和影像間之相對偏移量。實驗結果顯示,加入航帶連結點進行有理函數模型區域平差,能有效降低影像間之相對偏移。zh_TW
dc.description.abstractIn remote sensing applications, the area of interest often covers two or more satellite images, thus mosaicking for orthorectified images is important. Orientation modeling is the prerequisite in orthorectification. Block adjustment could enhance the geometry consistency between the images to reach high accuracy positioning for orientation determination. Based on the favorable convergent geometry, traditional bundle adjustment is done in such a way that three dimensional positioning for tie points are employed. In many satellite image applications, it is found that either the convergent angle or the overlapping area would not be large enough. Thus the traditional block adjustment should be modified to adopt for the general situation. RFM (Rational Function Model) has been demonstrated to achieve almost identical precision with respect to the rigorous sensor model when the RPCs (Rational Polynomial Coefficients) are derived from the satellite on-board parameters. Taking the advantages of simplicity and standardization, RFM had been widely used in the remote sensing community. Thus this investigation aims at the development of a block adjustment procedure to account for the weakly convergent geometry based on the RFM. A DEM (Digital elevation model) is included in the adjustment as an elevation control. The major works of the proposed scheme include: (1) RFM-Based block adjustment, (2) elevation control with a DEM, and (3) least squares collocation. Satellite images including FORMOSAT-2 and SPOT-5 are used in the validation. The experiments test the effect on block adjustment, elevation control and least squares collocation. The results of RFM-Based block adjustment are compared with the direct georeferencing and bundle adjustment. The validation includes two parts: absolute accuracy and relative discrepancy. Experimental results indicate that the proposed scheme improves the geometric consistency between the image strips.en_US
DC.subject有理函數模型zh_TW
DC.subject區域平差zh_TW
DC.subject高程控制zh_TW
DC.subject最小二乘過濾zh_TW
DC.subjectleast squares collocationen_US
DC.subjectelevation controlen_US
DC.subjectblock adjustmenten_US
DC.subjectRFMen_US
DC.title弱交會幾何衛星影像之有理函數模型區域平差zh_TW
dc.language.isozh-TWzh-TW
DC.titleRFM-Based Block Adjustment for Satellite Images with Weakly Convergent Geometryen_US
DC.type博碩士論文zh_TW
DC.typethesisen_US
DC.publisherNational Central Universityen_US

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