正演向題的解 的英文怎麼說

中文拼音 [zhēngyǎnxiàngdejiě]
正演向題的解 英文
froward solution
  • : 正名詞(正月) the first month of the lunar year; the first moon
  • : 動詞1 (演變; 演化) develop; evolve 2 (發揮) deduce; elaborate 3 (依照程式練習或計算) drill;...
  • : Ⅰ名詞1. (題目) subject; title; topic; problem 2. (姓氏) a surname Ⅱ動詞(寫上) inscribe; write
  • : 4次方是 The fourth power of 2 is direction
  • : 解動詞(解送) send under guard
  1. Analysis the cause of channel disaccord of gain and phase, give four methods of gain and phase calibration, computer simulation illustrate the that the methods are effective. in the chapter 4, the basic relation of phase interferometer of one dimension, two dimensions, and the measurement accuracy and the approach of solving the phase ambiguity in the phase interferometers have been discussed in detail

    第四章對相位干涉儀進行了較為詳細和系統研究,給出一維相位干涉儀基本關系式,分析了五通道相位干涉儀測定位算法及其性能指標,對相位模糊問進行了探討,在ccss中模擬了測算法,模擬結果證明了算法確性。
  2. Based on consider hereinbefore, this dissertation discusses several aspects on the problem of the sustainable and optimum exploitation of groundwater resources as follows : ( 1 ) reviewed entirely the origin and evolvement of the concept " sustainable development ", stated and commented the study status in queue on " sustainable development " around national and international range, thorough discussed the science connotation about the concept " sustainable development " ; ( 2 ) looked back and commented across - the aboard some furthest basic concept and proposition related to groundwater resources, put forward self opinions on a few existent mistake points of view and chaos understandings ; ( 3 ) expatiated entirely on the content and meaning of the theory of changeable groundwater resources system, contrast with the traditional methods of groundwater resources calculation and evaluation, combined example to show the application of this theory ; ( 4 ) thorough analyzed the difficult and complexity to forecast the groundwater resources, fully stated the traditional methods of groundwater resources forecasting, pointed out the characteristic and applying condition of these forecasting method, introduced the main ideas and methods of wavelet analysis developed recently, and the matlab software be known as the fifths era computer language, and its accessory wavelet analysis toolbox, applied these methods and tools to analyze the groundwater dynamic curve, adopted the b - j method and morte - carlo method, combined with the theory of changeable groundwater resources system, discussed the new view on the forecast of groundwater resources ; ( 5 ) synthetically analyzed the characteristics and limitations of the present all kind of groundwater manage model, combined mathematical programming mathematical statistics random process and the theory of variation system of groundwater resources on the unite optimum attempter of surface water and groundwater, emphasized how to make the model more nicety, more simple, more practicality ; ( 6 ) analyzed the inside condition and outside condition to assure the sustainable and optimum exploi tation of groundwater resources, the inside conditions are the follows : correct resources idea, scientific methods of resources calculation and evaluation, credible forecast methods of resources, exercisable measures of resources management, the outside conditions are the follows : the development idea of high layer, the transform of manage system, the matched policy and rule of law, the adjusted of economy lever, the improve of cultural diathesis, the boosting up of water - saving consciousness and detail measures, the control of population rising, the prevention and cure of water pollute, the renew and rebuild of ecology ; ( 7 ) scan the sustainable and optimum exploitation of groundwater resources from the high level of metagalaxy, earth system science, and philosophy ; lint out the more directions on groundwater resources

    基於以上考慮,論文主要從以下幾方面對地下水資源可持續開發問進行了比較深入探討:全面回顧了「可持續發展」概念由來與變,對國內外「可持續發展」研究現狀進行了述評,並對「可持續發展」概念科學內涵進行了深入探討;對涉及地下水資源一些最基本概念和命進行了全面回顧和評述,對目前仍然存在一些錯誤觀點和混亂認識提出了自己;全面闡述了地下水資源變值系統理論內容和意義,並與傳統地下水資源計算評價方法進行了對比分析,結合實例具體說明了方法應用;深入分析了地下水資源預測預報工作極端重要性和復雜性,對傳統地下水資源動態預測方法進行了全面評述,指出了各類預測預報方法特點及適用條件,對最近二十多年剛發展起來小波分析技術主要思想和方法及其應用范圍,以及號稱第五代計算機語言matlab軟體和附帶小波分析工具箱進行了介紹,並應用於地下水動態過程線分析,採用時間序列中b ? j法,蒙特卡羅方法,與地下水資源變值系統理論相結合,探討了地下水動態資料分析和地下水資源預測預報新思路;綜合分析了現今各類地下水管理模型特點及缺陷,將數學規劃、數理統計、隨機過程等與地下水變值系統理論相結合進行地表水地下水或多水源聯合優化調度,使模型更準確、更實用;對保證地下水資源可持續開發內部條件和外部條件進行了分析,內部河海人學博卜學位論文前言、摘要、目錄條件主要是資源觀,科學資源計算與評價方法,可靠資源預測預報技術,可操作資源管理措施,外部條件主要是高層發展思路、管理體制變革、配套政策法規、經濟杠桿調節、人文素質提高、節水意識增強及具體節水措施、人口增長控制、水體污染防治、生態恢復和重建等;從宇宙科學、地球系統科學及哲學高度審視地下水資源可持續開發;指出了地下水資源可持續開發進一步研究方
  3. Aiming at this problem, the main research issues and achievements in this paper are as follows : bi - directional data transformation between rdb and xml with semantic constraints preserved for most of existing researches on static data transformation between xml and rdb, dtd is taken as the schema description language for xml, and the semantic constraints are often lost during the transformation process. to overcome these disadvantages, the author adopts xml - schema, a standard schema description language proposed by w3c to replace dtd, as the description method owing to its more powerful functions than dtd, and of course with the syntax much more complicated. after analyzing the constraints characteristics in both xml - schema and relational schema, a semantic constraints - preserved algorithm is proposed which can realize the bi - directional schema mapping between rdb and xml through a formalized description of xml based on regular tree and a general expression for relational schema based on direct graph approach

    保留語義約束xml與rdb雙靜態數據轉換技術現有研究大多採用dtd ( documenttypedefinition ,文檔類型定義)作為xml模式描述語言,並且在模式映射過程中丟失語義約束信息,本文分析了xml - schema ( xml - schema採用與dtd完全不同語法,數據描述能力更強同時也更為復雜,已被w3c確定為替代dtd作為xml模式描述語言標準)及關系模式語義約束特徵,通過基於則樹xml形式化描述方法以及基於有一般關系模式表示方法研究,建立保留語義約束xml - schema與關系模式模式映射算法,實現了xml與rdb數據轉換,較好地決了xml與rdb在靜態數據轉換層面數據集成問,可有效滿足企業大量rdb數據面xml發布以及與日俱增xml數據存入rdb應用需求。
  4. For parameter a, there is a close relationship exist between a ( 9, sr ) in two different radar incident angle that can be expressed as : with considering the effects of soil texture, we get the final expression of the inversion model : where mv ( t1 ), mv ( t2 ) is volumetric soil moisture content in two different temp, c, d is soil type related parameters, and v ( t1 ), s ( t2 ) is coresponding bare soil radar backscattering coefficients. inversion results show that for the c band hh polarized radarsat scansar data with a range of incidence angle from 20 to 40, the soil moisture change value can be derived with an acceptable accuracy using the above model. the temporal and spatial soil moisture change patterns are associated with rainfall and vegetation cover, as well as the soil hydraulic characteristics

    利用最新發展電磁波散射模型研究了不同植被覆蓋地表雷達波對地表土壤水分敏感性,建立了半經驗植被雷達後散射模型; 2 ) .研究發現在農作物等矮小植被覆蓋地表,植被層直接後散射與植被類型相關,且在植被生長期,雷達後散射系數對植被含水量敏感性要高於對植被高度變化敏感性; 3 ) .決了單參數雷達地表土壤水分反中,雷達入射角和地表粗糙度影響這一難點問; 4 ) .利用土壤介電模型校了不同土壤類型對反地表土壤體積含水量影響; 5 ) .在以上成果基礎上,建立了完整單參數雷達地表土壤水分變化探測反算法,經地表驗證,模型反地表土壤水分變化值精度為rmse = 0
  5. This thesis analyses and explores the ideological change of contemporary college students, grasps the development and tendency of the community concept, meanwhile puts forward countermeasures to the issue in order to lead the students to build up proper ideology

    本文主要從三個部分對當代大學生思想觀念變化進行動態分析和探討,透視大學生群體思想觀念變化中存在,把握他們思想觀念變趨,提出決問對策,以引導大學生樹立思想觀念。
  6. In this paper , it is presented that an algorithm based on the least square principle is described , which calculate the magnitude of low - frequency fault components in order to distinguish the fault location , and it solve the decreasing operating zone problem of zone i distance relays

    本文提出一種基於最小二乘算法計算低頻分量方法來區分線路串補裝置前後短路故障,從而決距離段保護范圍縮短問
  7. Every functional model is designed in detail. the method based on uniformity design 、 wavelet analysis 、 cross validation and support vector machine is put forward for solve the question of nonlinearity 、 small - sample in the spectral multicomponent analysis. the method of selecting good wavelength data for building analysis model is an effective improving analysis precision. to quicken convergence, the piecewise wavelength selection method based on particle swarm optimization algorithm is established

    深入研究了光譜信號多組分測定問,以高效、實用化為目標,從實驗設計到算法選擇進行了較為詳細地分析和論述,提出了基於均勻設計、小波變換和支持量機組合式算法和策略,決了在光譜多組分測量中遇到非線性校
  8. Data warehouse is a hot research area in 90s its main motif is to provide the decision - maker a powerful tool : gathering the data in pure consistent, relevant pattern, and making use of the data in managing analyzing, data - mining purposec that means that the decision - maker can use the tool to understand, grasp the situation of the business from different directions and forecast the future of it when using data warehouse, the processing speed determines data warehouse ' s practicability and processing ability the hoc ( highway decision center ) system realized before solves some key problems about intermediate scale data, mainly concentrating data warehouse performance coefficient when using hdc in large scale data, it encountered processing speed problem then the settlement of this problem becomes a major research point so, based on the former research achievements, the present task is to construct the renowned data warehouse architecture and its relevant algorithms, then adapts the system to the large scale dataset with data mining functions c this paper is a part of the research in order to construct the powerful system, a key problem is to cope with the processing - speed problem and the data space problem, etc, - caused by the large scale dataset and magnificent dataset this is also the core in the present data mining research this paper ' s motive is to design and realize a decision - tree classifier in the data warehouse system for large - scale dataset

    大型數據倉庫處理速度問目前是制約其推廣應用關鍵所在,也是這一領域一個重要研究課,也是我們當前工作重點:在前期研究工作基礎上圍繞提高大型數據倉庫處理速度問,建立改進數據倉庫系統模型和相關算法,開發出面中級以上企事業單位、具有數據挖掘和分析能力大型數據倉庫系統。建立大型數據倉庫所面臨關鍵問,是如何妥善決實際業務數據大規模、海量特徵所帶來處理速度和空間等問,這也是當前挖掘技術研究必然面對核心問。本研究是設計並實現大型數據倉庫系統中分類數據挖掘工具? ?決策樹分類器,主要工作是在綜合了現有決策樹分類算法研究情況前提下,對決策樹算法適應大規模數據集進行探討,力求設計出能較好地適應大規模數據分類器算法。
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