domain of transformations 中文意思是什麼
domain of transformations
解釋
轉換界域- domain : n 1 領土,版圖;領地。2 管區,勢力圈;(特定動物等的)生長圈;(學問、活動等的)領域,范圍;【物...
- of : OF =Old French 古法語。
- transformations : 變形
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In order to deal with the unknown transformations of samples as a result of preprocessing and improve the system recognition performance further, a palmprint feature extraction method based on template learning in wavelet domain is designed and proposed. this algorithm learns the ideal templates of different classes from palmprint samples, whose parameters are regarded as
該演算法從掌紋樣本中學習不同類別的理想模板,並將理想模板的參數作為特徵用於模式分類,由於考慮了子圖樣本內在存在的平移和旋轉變換,不同類型小波系數對特徵提取的貢獻,因此達到非常好的識別效果。 -
( 2 ) for linear systems with time - varying delays both in state and control, and subject to norm - bounded parameter uncertainties, the problems of robust stabilization and robust h control are studied and delay independent results are derived by constructing proper lyapunov function to deal with the time - delay, also by using riccati equations method and inequalities transformations to deal with the uncertainties. according to the transform function of the system, frequency domain method and time domain method are combined together to analyze the robust h control problem of the uncertain time - delay system
( 2 )研究了一類狀態和控制同時具有時變時滯以及參數時變有界不確定性系統的時滯無關的魯棒鎮定及h控制問題,採用把時滯因素和不確定因素分開處理的思路,通過構造適當形式的lyapunov函數來處理時滯,採用不等式變換及riccati方程方法來處理不確定性,採用頻域與時域相結合的方法根據系統的傳遞函數分析時滯不確定系統的魯棒h控制問題。 -
On the other hand, as to the time domain methods, based on lyapunov - krasovskii function method, riccati equation method, linear matrix inequality technique, along with the skills of equality and inequality transformations, the robust stabilization and robust h control problems are studied via state feedback for some kinds of uncertain time - delay systems, and delay - independent as well as delay - dependent results are obtained
時域方法方面基於lyapunov - krasovskii泛函方法、 riccati方程方法、線性矩陣不等式( lmi )技術,以及代數等式、不等式變換技巧等主要處理手段,通過狀態反饋分別研究了不確定時滯系統的魯棒鎮定及魯棒h控制問題,得到了時滯無關和時滯依賴兩種不同結果。 -
In the paper four usual transformations from s - domain to z - domain are introduced to show the superiority of the bilinear transformation in high - frequency applications. then a novel sc architecture is produced to finish a filter with a cutoff frequency of 17. 8mhz. the accurate bilinear result is reached by dual - rate sampling
文中介紹了四種常用的s域到z域的變換,說明雙線性變換在高頻應用的優點;然後,運用一種新穎的開關電容結構組成濾波器,通過雙采樣的原理導出準確的雙線性變換,其截止頻率達到17 . 8mhz 。 -
The original image is divided into non - overlap square domain block collection and range collection, which is fourfold the domain block. to every domain block, the best self - similarity transformation is gained by matching the found best similar range block, the parameters of the gained best domain block ' s transformations are the image compression code. the fourth chapter discusses and implements fractal image compression method based on region partit ion
在第三章中討論並實現了基於子塊劃分的分形圖象壓縮方法,這種方法將原始圖象劃分為不重疊的正方形值域塊集和四倍大小的正方形定義塊集,對于每一個值域塊,在定義塊集中通過最佳匹配找出最相似的定義塊,通過匹配得到值域塊的最佳自相似變換,對所在值域塊的最佳自相似變換參數編碼實現圖象壓縮。 -
Circular symmetric spread spectrum digital image watermarking using chaotic sequences as the watermark takes advantage of the discrete fourier transform properties and spread - spectrum communication techniques to embed a circular symmetric watermark in the frequency domain. the watermark can be detected without the presence of the original image even when the watermarked image suffers geometrical attacks such as translation, rotation and scaling. experimental results show that the proposed scheme has good transparency and highly good robustness to geometric transformations
基於混沌序列的圓對稱擴頻水印方案是以實值混沌序列作為水印,根據離散傅立葉變換的特性並結合通信上的擴頻技術,將一圓對稱水印嵌入到了圖像的頻域中,且即使圖像遭受了平移、旋轉、縮放等幾何攻擊檢測水印也不需要原圖像。
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