例句與造句

1. Apparent multimodality of the distribution, or lack of it, is often an artifact of the size and nature of the area mapped .
   明顯的多模態(tài)分布的存在或不存在，往往是一種因編圖區(qū)大小與性質(zhì)的關(guān)系搞成的人為產(chǎn)物。
2. Study on multimodality evoked potentials in patients with concus sion
   腦震蕩的多形式誘發(fā)電位研究
3. Multimodality medical image registration based on mutual information and simulat ed annealing
   基于互信息和模擬退火算法的多模式醫(yī)學(xué)圖像配準(zhǔn)
4. A fusion algorithm of multimodality medical images based on wavelet multiresolution decomposition
   基于小波多尺度分辨的多模醫(yī)學(xué)圖像融合算法研究
5. Multimodality treatment including surgical intervention , radiotherapy and adjuvant chemotherapy may achieve a better outcome
   外科手術(shù)、放射線療法或化學(xué)藥物的復(fù)合式治療對(duì)該腫瘤可達(dá)到較佳的效果。
6. It's difficult to find multimodality in a sentence. 用multimodality造句挺難的
7. Conclusion : : the multimodality treatment of stage iii and iva thymomas by means of neoadjuvant chemotherapy provides good long - term outcomes in both stages of the disease
   ：用新輔助化療的方法治療iii期和iva期胸腺瘤，為這兩期患者的治療提供了良好的長期的預(yù)后。
8. The atlas is an information resource for brain imaging which integrates clinical information with multimodality imaging data . previously it has been accessible only via the world wide web
   該圖庫是一個(gè)綜合了臨床多種影像數(shù)據(jù)的顱腦影像資料庫。而以前只能在互聯(lián)網(wǎng)上瀏覽。
9. A multimodality medical image registration method based on hybrid optimization algorithm was proposed to solve the problem of the mutual information function containing many local maxima
   摘要針對(duì)互信息函數(shù)的多極值問題，提出了一種基于混合優(yōu)化算法的多模醫(yī)學(xué)圖像配準(zhǔn)方法。
10. The registration methods of multimodality medical images provide doctors the possibility to utilize the information of different modal medical images from the same patient , so the accuracy of medical diagnosis was improved greatly
    多模醫(yī)學(xué)圖像配準(zhǔn)為醫(yī)生利用多種模態(tài)的醫(yī)學(xué)圖像信息、提高醫(yī)學(xué)診斷和治療的準(zhǔn)確性打下了基礎(chǔ)。
11. When dealing with multimodality medical images , we investigated the best matching parameters by applying mutual information as the similarity measure and hybrid optimization algorithm as the search strategy
    對(duì)于多模醫(yī)學(xué)圖像，以互信息作為相似性測(cè)度，使用混合優(yōu)化算法搜索出最佳配準(zhǔn)變換參數(shù)，將待配準(zhǔn)圖像進(jìn)行變換，從而達(dá)到配準(zhǔn)的目的。
12. An important interention is application of a multimodality blood conseration program that is institution based , accepted by all health care proiders , and that inoles well thought out transfusion algorithms to guide transfusion decisions
    一個(gè)重要的干預(yù)是應(yīng)用多重血液保護(hù)措施，該措施基于醫(yī)療機(jī)構(gòu)并被所有醫(yī)護(hù)人員廣泛接受，它以深思熟慮的輸血方法來指導(dǎo)輸血。
13. An important intervention is application of a multimodality blood conservation program that is institution based , accepted by all health care providers , and that involves well thought out transfusion algorithms to guide transfusion decisions
    一個(gè)重要的干預(yù)是應(yīng)用多重血液保護(hù)措施，該措施基于醫(yī)療機(jī)構(gòu)并被所有醫(yī)護(hù)人員廣泛接受，它以深思熟慮的輸血方法來指導(dǎo)輸血。
14. The result of multimodality medical registration is just integrating the anatomy and function imaging information into a common coordinates in order to attain the new image on screen using computer image processing technology for the use of planning and evaluation of the focus therapy
    多模態(tài)醫(yī)學(xué)圖像配準(zhǔn)就是利用計(jì)算機(jī)圖像處理技術(shù)將各種成像模式的影像信息統(tǒng)一在一個(gè)公共坐標(biāo)系中，在配準(zhǔn)的情況下融合成一個(gè)新的影像模式顯示在計(jì)算機(jī)的屏幕上，以利于疾病的診斷及治療。
15. In the design optimization of space equipment satellite systems , there are lots of discrete and integer design variables , the design space is nonconvex and even disjointed , and has multimodality . unfortunately , current mdo procedures or strategies have difficulty to deal with discrete or integer design variables , they are very sensitive to complex design space , have propensity to converge to local optima near the starting point , and can not handle multiple objectives effectively . to overcome these difficulties , this dissertation adopt the idea of coevolution to systematically develop new multidisciplinary design optimization methods based on decomposition and coordination
    論文以航天裝備體系及其它復(fù)雜飛行器系統(tǒng)的多學(xué)科設(shè)計(jì)優(yōu)化( multidisciplinarydesignoptimization ，簡稱mdo )為應(yīng)用背景，針對(duì)航天裝備衛(wèi)星系統(tǒng)設(shè)計(jì)中存在大量離散和整數(shù)設(shè)計(jì)變量、設(shè)計(jì)空間非凸和不連通、具有多個(gè)局部最優(yōu)點(diǎn)等特點(diǎn)和現(xiàn)有mdo方法過程難以處理離散和整數(shù)變量、對(duì)復(fù)雜設(shè)計(jì)空間非常敏感、易于陷入局部最優(yōu)、不能有效處理多目標(biāo)等缺陷，采用協(xié)同進(jìn)化的思想，系統(tǒng)地進(jìn)行基于分解協(xié)調(diào)的mdo方法研究。