例句與造句

1. Nonclassical heat conduction analysis in periodic structures with multiple spatial and temporal scales analysis method
   周期性材料非經(jīng)典熱傳導(dǎo)時(shí)空間多尺度分析方法
2. And a scaling lognormal model of flood volume is introduced to represent the affection of temporal scale of duration in annual maximum flood volume distributions
   并提出了洪水洪量的對(duì)數(shù)正態(tài)分布模型來(lái)表征年最大洪量分布中歷時(shí)的尺度影響。
3. And a scaling lognomial model of rainfall intensity is introduced to represent the affection of temporal scale of duration in annual maximum rainfall intensity distributions
   另外，本文提出了暴雨強(qiáng)度的對(duì)數(shù)正態(tài)分布模型來(lái)表征年最大暴雨強(qiáng)度分布中歷時(shí)的尺度影響。
4. One of the key research areas in modem ecohydrology is studying the feedbacks beween vegetation dynamics in structure , distribution , and succession and hydrologic processes at multiple spatial and temporal scales
   摘要植被變化與流域水文過(guò)程構(gòu)成一個(gè)反饋調(diào)節(jié)系統(tǒng)，是目前生態(tài)水文學(xué)研究的重點(diǎn)對(duì)象。
5. Lastly , the scaling hypotheses is applied to the relationship of flood volume and duration in this paper . the flood intensity - duration - frequency form is proved based on the temporal scaling property of flood
   最后，本文將標(biāo)度不變性引入洪水洪量? ?歷時(shí)關(guān)系中，對(duì)大流域年最大洪量隨歷時(shí)變化的標(biāo)度性質(zhì)行了嘗試性的研究。
6. It's difficult to find temporal scale in a sentence. 用temporal scale造句挺難的
7. The scaling hypotheses is applied to the relationship of annual maximum rainfall intensity and duration . the rainfall intensity - duration - frequency form is proved based on the temporal scaling property of rainfall
   由年最大平均暴雨強(qiáng)度隨歷時(shí)變化的標(biāo)度性質(zhì)推導(dǎo)出暴雨公式的形式，找到了暴雨公式的理論根基? ?暴雨在時(shí)間上分配具有自相似性的結(jié)果。
8. Firstly , the fractal dimensions of daily rainfall and daily runoff are calculated by using the box - counting method . the result demonstrated that daily rainfall and daily runoff has multifractal property in a range of temporal scale . so the multifractal spectra are calculated
   首先用盒子數(shù)法來(lái)計(jì)算日降雨過(guò)程和日徑流過(guò)程的分形維數(shù)，研究了無(wú)標(biāo)度區(qū)間的范圍，并計(jì)算了日降雨過(guò)程和日徑流過(guò)程的多重分形譜。
9. The frequency analysis of area - averaged ssta time series in key regions indicates that the power spectrum peaks is centered at 2 - 4yr annual oscillation , and there is also long temporal scale oscillation such as quasi decadal oscillation revealed by wavelet analysis
   時(shí)頻分析表明，這兩個(gè)海區(qū)區(qū)域平均的ssta時(shí)間序列存在顯著的2 - 4年年際振蕩以及準(zhǔn)年代際變化。自相關(guān)分析表明西風(fēng)漂流區(qū)與熱帶中東太平洋ssta在冬季的持續(xù)性較好。
10. ( 2 ) system design for function , structure and data flow requirement analysis , system function design is carried out . this paper lists six functions of information - service subsystem : information query , comparative query in spatial and temporal scale , display and output of graphs , information release , convenient navigation and safeguard for network and information , proposes the design of function modules , and designs system data flow
    列出了防汛指揮信息服務(wù)子系統(tǒng)的6大功能：信息查詢功能、時(shí)空資料的對(duì)比功能、圖形圖像的顯示輸出功能、信息發(fā)布功能、快速的導(dǎo)航功能、網(wǎng)絡(luò)和信息的安全保護(hù)功能；提出了10項(xiàng)功能模塊的設(shè)計(jì)；最后設(shè)計(jì)了系統(tǒng)頂層數(shù)據(jù)流程和系統(tǒng)第一層數(shù)據(jù)流程。
11. Several influence factors to result plasma drift in hainan were analyzed . in this paper the characteristics of ionospheric parameters variation were analyzed systematically and some new results in storm - time such as seasonal behaviors were obtained ; it is the first time to investigate the ionospheric drift behavior in hainan and some new results was obtained , the relationships between each two plasma drift velocity components in storm time in hainan were found and the electric filed variation in hainan ionosphere also was obtained ; the results also show that there are big differences of the ionosphere parameters bo and bl obtained from the data with that obtained from the iri - 2001 applied for hainan ; a new phenomena was found during a strong magnetic storm , that a layer with very strong electron density and density grad was found during the recovery phase of the storm , its horizontal scale is beyond 100km and temporal scale is about 2 hours , this phenomena repeated 3 times continuously . a type of negative disturbance in high and low latitude but positive disturbance in east - asia also has been found
    本文較為系統(tǒng)地給出了海南地區(qū)電離層的參數(shù)變化特征，特別是得到了一些暴時(shí)與以往不同的季節(jié)特性；第一次給出了海南地區(qū)的電離層等離子體漂移特征，發(fā)現(xiàn)等離子體漂移暴時(shí)擾動(dòng)在三個(gè)方向上有內(nèi)在的聯(lián)系，得到了電場(chǎng)變化曲線；研究結(jié)果還表明海南電離層的半厚指數(shù)和形狀參數(shù)等與國(guó)際參考電離層iri - 2001存在很大差別；通過(guò)對(duì)強(qiáng)磁擾動(dòng)事件期間的參數(shù)變化特性分析發(fā)現(xiàn)，在磁暴恢復(fù)相期間海南地區(qū)電離層底部存在一個(gè)電子密度非常大的高密度區(qū)，高密度區(qū)底部電子密度梯度隨高度急劇增加，該區(qū)域的水平尺度可達(dá)100公里以上時(shí)間尺度約為2小時(shí)，連續(xù)出現(xiàn)過(guò)三次，這是一個(gè)在海南從來(lái)未發(fā)現(xiàn)的新現(xiàn)象；研究還發(fā)現(xiàn)了暴時(shí)東亞地區(qū)電離層擾動(dòng)會(huì)出現(xiàn)高低緯負(fù)相而中緯正相的現(xiàn)象。
12. Remote sensing provides an approach to monitor land surface energy and water balance over a large area simultaneously , which is very important and useful in researches and applications in global climate change , hydrology , ecology and agriculture etc . in this paper , methodologies and models on remote sensing of land surface evapotranspiration were investigated in details and validated using field and remotely sensed data , several novel concepts and models were proposed as the center part of this paper , and spatial as well as temporal scale problems were discussed in the second half of the paper
    遙感替代點(diǎn)上的蒸發(fā)測(cè)量，實(shí)現(xiàn)大范圍地表能量和水分動(dòng)態(tài)監(jiān)測(cè)，可以在氣候、生態(tài)、農(nóng)業(yè)、水文等領(lǐng)域中發(fā)揮重要作用，過(guò)去幾十年的研究雖然取得了許多重要成果，但依然面臨很多有待突破的重要問(wèn)題。本文的主要特色是方法研究，對(duì)遙感計(jì)算地表蒸散的方法和模型做了較多的理論分析，數(shù)據(jù)驗(yàn)證，以及改進(jìn)和創(chuàng)新，并對(duì)其空間和時(shí)間尺度問(wèn)題做了一定的探討。
13. How to integrate various classified management areas at some spatial scale , such as at watershed level , at landscape level or at region level , etc . , is a weak point of fcm study and practice . research on spatial - temporal scale dependent features of forests management should be strengthened . as far as febc is concerned , operation stability , state of law - protected and low social cost are highlight points in the process of policy design
    本文認(rèn)為，對(duì)林業(yè)(森林)分類經(jīng)營(yíng)來(lái)說(shuō)，改革措施的系統(tǒng)性、根本性，以及分類經(jīng)營(yíng)區(qū)的時(shí)空整合是關(guān)鍵；對(duì)森林生態(tài)效益補(bǔ)償米說(shuō)，根據(jù)生態(tài)公益林業(yè)的屬性，樹立正確的研究視野，確定合理的補(bǔ)償范疇，同時(shí)，保證補(bǔ)償制度的運(yùn)行穩(wěn)定性、法律保障性、操作簡(jiǎn)明性也是關(guān)鍵所在。