microscope image processing 中文意思是什麼
microscope image processing
解釋
顯微圖像處理- microscope : n 顯微鏡。 a binocular microscope 雙目顯微鏡。 an electron microscope 電子顯微鏡。 a field ion em...
- image : n 1 像,肖像,畫像;偶像。2 影像,圖像。3 相像的人(或物);翻版。4 形像,典型。5 形像化的描繪。6...
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In our research, marked autologous fluorescent blood red cell is immitted into sd - rat body and the whole process is shown and recorded by microscope image system. after these processes, we can replay the recorded tape and sample images with video image card. then, we use sequence image processing to analysis the image of dark ground microscope
利用做過熒光標記的自身紅細胞注入sd大鼠體內,通過顯微圖象系統將整個過程以視頻信號的形式存貯,然後利用基於視頻圖象的採集卡,將流速變化過程回放采樣,得到暗視場下的熒光圖象,利用圖象分析和處理的方法,測定血流速度。 -
In this dissertation, an intelligent analyzer based on image processing technology is developed for cashmere fiber quality inspection. the setup of the intelligent analyzer includes a personal computer, a image capturing card, an optical microscope, a ccd camera, a x - y driving worktable, a printer and a set of software for image capturing and analyzing. microscopic images are captured by the ccd camera and are saved in the hard disk in digital form
系統的分析過程為:待測量纖維經顯微鏡成象后,由ccd將光信號轉換成電信號,再經圖象卡將顯微視場中的一塊區域轉化成一幅數字圖象,然後用計算機對數字化纖維圖象做分割處理(即二值化處理) ,找出待分析的纖維,通過快速纖維檢測演算法進行分析計算,測定各纖維組分的平均直徑和根數等主要參數,從而計算出各纖維組分的含量。 -
The paper brought forward realizing the medical operation microscope image ’ s acquisition, processing, storage and managing database of patient ’ case history by a special medical video card and computer system. there introduced the function and characteristic of the video image acquisition and data management system of medical operation microscope based on sql server2000 database and vc + + 6. 0, as well as set forth it ' s key technique. together with any operation microscope, the system can realize both operation with microscope and focus diagnosed
本文提出利用視頻圖像採集卡及計算機系統來實現手術顯微圖像的採集、處理和保存以及病歷庫的管理。主要介紹了基於microsft公司開發的vc + + 6 . 0與sqlserver2000數據庫軟體平臺下的醫用手術顯微鏡視頻採集及圖像管理系統的功能和特點,並闡述了其關鍵技術。本系統可以與任何手術顯微鏡配套使用,實現顯微手術和病灶診斷兩種功能。 -
Analyzing quantitatively the structural features of soft soil from marine accumulation around vacuum preloading by means of x - ray, scanning electronic microscope and computer image processing technique, together with the experiment and comparing the changes of soft soil in microstructure and engineering properties, the authors studied the consolidation mechanism of vacuum preloading
摘要藉助x -射線、掃描電鏡及計算機圖像處理等技術,對海積軟土真空預壓加固前後的結構特徵進行定量分析,並結合室內試驗,對比研究土體微觀結構和工程性質的變化,探討真空預壓加固的機理。 -
With ccd digital camera and optical microscope, color printing micro - dot image rgb data information can be got, then adopt the digital image processing and pattern recognition techniques to recognize the color patterns of pixels in the micro - dot images, at the same time, the color separation and area coverage can be retrieved
分色系統藉助ccd數碼相機和光學顯微鏡等設備,獲取彩色印品顯微網點圖像的rgb的色彩數據信息;而後採用數字圖像處理和模式識別技術對網點圖像中各像素進行顏色模式識別,最終得到各單色網點圖像的分色結果以及各色網點面積率。 -
So magnifying the image of micromanipulation, three - dimensional imaging and related image processing, making the operator free from microscope are crucial problems of micromanipulation system that need to be resolved
因此,對微操作圖象進行顯微放大、立體成像及相關的圖象處理,使操作員脫離顯微鏡進行操作,是微操作系統需要解決的關鍵問題。 -
In this paper, we aim at the subject of color microscopic image processing and its applications obtained by the laser confocal scanning microscopy ( lcsm ) and digital microscope
本文以激光共焦掃描顯微鏡系統( lcsm )和數碼顯微鏡為研究對象,對彩色顯微圖像處理及其應用這一課題展開研究和討論的。 -
The research of a system about the digital image processing of light - section microscope for surface roughness
表面粗糙度光切顯微鏡數碼圖像數據處理系統的研製 -
Microscope image processing
顯微圖像處理 -
In the whole bonding application, bond targets ’ identification and orientation are the most important aspects for full - automation. this dissertation introduces zoom microscope into the microscope positioning system to settle the contradiction between microscope ’ s visual range and depth of field. multiple scale images go through various image processing, and finally different bond targets are identified and positioned
將採集得到不同放大倍數時鍵合器件的清晰圖像經過各種圖像處理程序識別並分離出鍵合目標,通過一種「全局粗定位、局部精定位」的坐標變換方式完成了鍵合目標在操作空間中的精確定位。
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