博碩士論文 91236001 完整後設資料紀錄

DC 欄位 語言
DC.contributor光電科學研究所碩士在職專班zh_TW
DC.creator陳鴻良zh_TW
DC.creatorHung-Liang Chenen_US
dc.date.accessioned2005-7-22T07:39:07Z
dc.date.available2005-7-22T07:39:07Z
dc.date.issued2005
dc.identifier.urihttp://ir.lib.ncu.edu.tw:444/thesis/view_etd.asp?URN=91236001
dc.contributor.department光電科學研究所碩士在職專班zh_TW
DC.description國立中央大學zh_TW
DC.descriptionNational Central Universityen_US
dc.description.abstract摘要 本文的研究主要是利用疊紋(moiré)圖案的產生來量測變焦鏡頭或變焦數位相機的焦距長,並使用影像處理的技術來處理對比度不高的疊紋(moiré)圖案。這個方法基本上是利用以參考的光柵(grating)影像和一個CCD像素陣列(或CMOS像素陣列)疊加在一起,因而產生疊紋(moiré)圖案(如圖1-1-0),並經由移動微小距離得到第二疊紋(moiré)圖案,利用分析這兩個疊紋(moiré)圖案的間距值及移動微小距離、參考的光柵(grating)間距值三個參數,來運算出一個變焦鏡頭或變焦數位相機的焦距長。 當光線穿過直線的光柵(grating),直線光柵(grating)的影像經過被測試的變焦鏡頭到達CCD(或CMOS) 影像感測器,然後移動被測試透鏡的位置使參考光柵(grating)影像的格子間隔和CCD影像感測器的像素間距相似時,就會產生疊紋(moiré )干涉影像。因透鏡位置不同會產生不同的放大率,因此光柵(grating)影像格子間隔會隨放大率的不同而變化,此變化則和CCD像素不同方向之間格相對應而產生不同的干涉圖案。由此圖案之大小、形狀、方向可判定放大率值,因而可測變焦系統之不同位置之放大率。 透過我們的方法,可以很快的找到產生疊紋(moiré)圖案的數位相機鏡頭移動的位置,進而知道這光柵和變焦數位相機產生moiré後的相關特性。我們採用微調轉鈕(Micro-stages)可以精確地測量被測試透鏡的位移量,而影像處理在增加影像的對比及減少雜訊,並將R、G、B的G層取出,一維的Daubenchies Wavelet轉換演算法在此被應用於估算疊紋(moiré)圖案的間距值。 本方法可用來量測變焦鏡頭各位置的焦距值及放大倍率。經由疊紋(moiré)方法量測變焦鏡頭的各焦距長度,價格便宜,且容易安裝,而量測的結果也能達到4%的誤差內。zh_TW
dc.description.abstractABSTRACT The research is to measure the focal lengths of optical zoom lens modules and digital optical zoom cameras by utilizing the appearance of moiré images. In addition, the digital image processing technology is implemented to digitize those low contrast moiré images. By superposing the reference grating image and a CCD Pixel Array (or CMOS Pixel Array) together, a moiré pattern is formed . A following moiré pattern is formed when the CCD Pixel Array (or CMOS Pixel Array) shifts a slight distance. The focal length of a zoom lens of zoom digital camera can be measured by analyzing the intervals of the two moiré patterns, the shift value of the lens, and the grating intervals. While the image of straight-line grating went through the under-testing zoom lens to reach CCD (or CMOS) Image Sensor, if the grid interval of the reference grating image is similar to the pixel interval of the CCD Image Sensor; as a result, it will appear the moiré interferometry image. Different magnifications came from different positions of zoom lens, thus the changes of grating image’s intervals caused by the different magnifications varies the moiré interferometry images. In the other hand, the value of magnifications can be measured by means of the size, shape and direction of those moiré images. Though our method, we are easy to find the camera relative shift positions where moiré patterns appear. Then we are able to observe the relevance of the reference grating and digital zoom lens. We adopted the Micro-stages that could precisely measure the shift value of the under-testing lens, as well as the digital image processing technology was used to increase images’ contrast, to filter noises and to extract G value of the images’ (R, G, B) values. One-Dimension Wavelet Transformation Algorithm hereby has been applied to estimate the interval value of moiré images. This method can be used to measure the focal length value and magnifications of each position for zoom lens. Compare to traditional testing methods for focal length of zoom lens. The method is cost-effective and easily setup. The measured results also can reach the precision of maximum 4% factual error.en_US
DC.subject小波函數zh_TW
DC.subject疊紋zh_TW
DC.subjectWavelet Transformationen_US
DC.subjectMoiréen_US
DC.title利用CCD之moiré與小波函數檢驗變焦鏡頭之焦距研究zh_TW
dc.language.isozh-TWzh-TW
DC.titleA Measurement in the Focal Length of Zoom Digital Camera by CCD Moiré Pattern and Wavelet Transformationen_US
DC.type博碩士論文zh_TW
DC.typethesisen_US
DC.publisherNational Central Universityen_US

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