solution procedure中文是什么意思

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中文翻譯
造句

求解過程

solution n. 1.溶解；溶液，溶體，溶劑。 2.(補(bǔ)輪胎用的)橡 ...
procedure n. 1.工序，過程，步驟。 2.程序，手續(xù)；方法；訴訟 ...
forward solution procedure 前向解方法
procedure-based solution 基于過程的解決方案
procedure n. 1.工序，過程，步驟。 2.程序，手續(xù)；方法；訴訟程序；(議會的)議事程序。 3.行為，行動，傳統(tǒng)的做法；(外交、軍隊等的)禮儀，禮節(jié)。 4.〔罕用語〕進(jìn)行。 the code of civil [criminal] procedure 民事[刑事]訴訟法。 legal procedure 法律訴訟程序。 radio procedure 無線電通訊工作規(guī)則。 setup procedure 【自動化】準(zhǔn)備程序。
a solution 從未準(zhǔn)時的解決方案
a-solution 素仙露
at-solution 雙氫速甾醇溶液
in solution 溶解著; 在溶解狀態(tài)中, 在不斷變化中, 動搖不定
solution n. 1.溶解；溶液，溶體，溶劑。 2.(補(bǔ)輪胎用的)橡膠水；〔美國〕藥水。 3.解決，解答 (of; for; to); 解釋；(數(shù)學(xué)等的)解法，解式。 4.免除，解除。 5.【醫(yī)學(xué)】消散，消退。 a nitrate of silver solution 硝酸銀溶液。 chemical solution 化學(xué)溶解。 mechanical solution 機(jī)械溶解。
analytic solution, analytical solution 解析解
basic solution, fundamental solution 基本解
molecular solution,simple solution 真溶液
a roval procedure 批準(zhǔn)程序
abstract procedure 抽象規(guī)程
accelerated procedure 加速程序
acceptance procedure 驗收程序
access procedure 存取規(guī)程; 存取過程
accounting procedure 會計程式; 會計程序, 會計手續(xù), 衡算計量程序計量程序
accusatorial procedure 控告程序
accusatory procedure 彈劾式訴訟
act of procedure 起訴; 訴訟行為
active procedure 活動過程; 現(xiàn)役過程
acupuncture procedure 針刺治療
adjusting procedure 調(diào)整程序

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例句與用法

In this thesis , an incremental - iterative solution procedure using the modified newton - raphson iteration is used to solve geometrically nonlinear problems
在涉及幾何非線性問題的數(shù)值方法中，通常都采用增量和迭代分析的方法。
The given method is simple and high efficiency , because most classification problems could be done through the first criterion , and complex solution procedure in getting the object ' s area could be saved
該方法簡單有效，在大多數(shù)情況下用準(zhǔn)則一即可判斷物體形狀，從而避免進(jìn)行較復(fù)雜的目標(biāo)面積的計算。
In this paper , the general theory and numerical solution procedure were described . by building a diesel modeling with vertical valves and a piston bowl , a whole cycle was calculated , which include intake stroke , compression stroke , expansion stroke and exhaust stroke
通過對帶有進(jìn)、排氣門的柴油機(jī)進(jìn)行計算，模擬了一個完整循環(huán)內(nèi)進(jìn)氣道、氣門和缸內(nèi)氣體流動的全過程。
To solve an electrically large problem with clusters , the parallel solution procedure is very complex and the demands of the users ’ ability of development and application are very critical , such as the complex system and software environment , parallel programming and debugging
利用集群系統(tǒng)求解大問題,并行求解過程非常復(fù)雜,對用戶的開發(fā)和應(yīng)用要求極高,比如復(fù)雜的系統(tǒng)和軟件環(huán)境,并行程序的設(shè)計和調(diào)試等。
The coordinate transformation rules , the combination characteristic of the transfer function are discussed . the solution procedure of series mechanical system is deduced by applying dual - vector addition and matrix multiplication . and the mathematical models are obtained
根據(jù)建立的數(shù)學(xué)模型，本文提出了相應(yīng)的按位存儲數(shù)據(jù)結(jié)構(gòu)以及樹型遞歸分解算法，實現(xiàn)了狀態(tài)變換矩陣(包括類型、方向及變換特征)的自動分解。
A multi - block incompressible viscous flow solver has been developed that can be applied to simulation of a variety of ship maneuvering related flows and calculation of hydrodynamic forces . validation and verification of the solution procedure are carried out on several model problems with good agreement to experimental and numerical results . the present block - structured viscous flow solver is based on solving the reynolds - averaged navier - stokes ( rans ) equations with a second - order cell - centered finite volume method ( fvm ) on non - staggered grids
本文即在這種背景下，瞄準(zhǔn)船舶操縱水動力預(yù)報方面的國際前沿和熱點課題，通過對現(xiàn)代船舶粘性流計算方法的研究，自主開發(fā)了一個船舶操縱粘性流求解器，并將所開發(fā)的求解器成功地應(yīng)用于一系列和船舶操縱問題相關(guān)的粘性流動與水動力計算，得到了令人滿意的結(jié)果。
The contents of the course include the elastic problems and associated solution procedure ; the basic concepts and assumptions of elasticity ; the solution of a planar elastic problem defined in a rectangular coordinate ; the matrix expression of basic equations of a planar elastic problem ; the solution of a planar problem defined in a polar coordinate ; the basic equations and solution procedure of a three - dimensional elastic problem ; bending of a plate ; and the variational principles of energy
本課程的主要內(nèi)容包括:彈性力學(xué)問題及其求解思想;彈性力學(xué)中的基本概念及基本假定;彈性力學(xué)平面問題的直角坐標(biāo)解答;平面問題基本方程的矩陣表示;平面問題的極坐標(biāo)解答;彈性力學(xué)空間問題的基本方程及其解法;薄板的彎曲;能量變分原理等等
Abstract : a new method , collaborative allocation ( ca ) , is proposed to solve the large - scale optimum allocation problem in aircraft conceptual design . according to the characteristics of optimum allocation in aircraft conceptual design . the principle and mathematical model of ca are established . the optimum allocation problem is decomposed into one main optimization problem and several sub - optimization problems . a group of design requirements for subsystems are provided by the main system respectively , and the subsystems execute their own optimizations or further provide the detailed design requirements to the bottom components of aircraft , such as spars , ribs and skins , etc . the subsystems minimize the discrepancy between their own local variables and the corresponding allocated values , and then return the optimization results to main optimization . the main optimization is performed to reallocate the design requirements for improving the integration performance and progressing toward the compatibilities among subsystems . ca provides the general optimum allocation architecture and is easy to be carried out . furthermore , the concurrent computation can also be realized . two examples of optimum reliability allocation are used to describe the implementation procedure of ca for two - level allocation and three - level allocation respectively , and to validate preliminarily its correctness and effectiveness . it is shown that the developed method can be successfully used in optimum allocation of design requirements . then taking weight requirement allocation as example , the mathematical model and solution procedure for collaborative allocation of design requirements in aircraft conceptual design are briefly depicted
文摘:探討了一種新的設(shè)計指標(biāo)最優(yōu)分配方法- -協(xié)同分配法,用于處理飛機(jī)頂層設(shè)計中的大規(guī)模設(shè)計指標(biāo)最優(yōu)分配問題.分析了飛機(jī)頂層設(shè)計中的設(shè)計指標(biāo)最優(yōu)分配特征,據(jù)此給出了協(xié)同法的原理并建立了數(shù)學(xué)模型.協(xié)同法按設(shè)計指標(biāo)分配關(guān)系將最優(yōu)分配問題分解為主系統(tǒng)優(yōu)化和子系統(tǒng)優(yōu)化,主優(yōu)化對子系統(tǒng)設(shè)計指標(biāo)進(jìn)行最優(yōu)分配,子優(yōu)化以最小化分配設(shè)計指標(biāo)值與期望設(shè)計指標(biāo)值之間的差異為目標(biāo),進(jìn)行子系統(tǒng)最優(yōu)設(shè)計,或?qū)Φ讓釉?如飛機(jī)翼梁、翼肋和翼盒等)進(jìn)行設(shè)計指標(biāo)最優(yōu)分配,并把最優(yōu)解信息反饋給主優(yōu)化.主優(yōu)化通過子優(yōu)化最優(yōu)解信息構(gòu)成的一致性約束協(xié)調(diào)分配量,提高系統(tǒng)整體性能,并重新給出分配方案.主系統(tǒng)與子系統(tǒng)反復(fù)協(xié)調(diào),直到得到設(shè)計指標(biāo)最優(yōu)分配方案.兩層可靠度指標(biāo)分配算例初步驗證了本文方法的正確性與可行性,三層可靠度指標(biāo)分配算例證明了本文方法的有效性.最后,以重量指標(biāo)分配為例,簡要敘述了針對飛機(jī)頂層設(shè)計中設(shè)計指標(biāo)協(xié)同分配的數(shù)學(xué)模型和求解思路
A new method , collaborative allocation ( ca ) , is proposed to solve the large - scale optimum allocation problem in aircraft conceptual design . according to the characteristics of optimum allocation in aircraft conceptual design . the principle and mathematical model of ca are established . the optimum allocation problem is decomposed into one main optimization problem and several sub - optimization problems . a group of design requirements for subsystems are provided by the main system respectively , and the subsystems execute their own optimizations or further provide the detailed design requirements to the bottom components of aircraft , such as spars , ribs and skins , etc . the subsystems minimize the discrepancy between their own local variables and the corresponding allocated values , and then return the optimization results to main optimization . the main optimization is performed to reallocate the design requirements for improving the integration performance and progressing toward the compatibilities among subsystems . ca provides the general optimum allocation architecture and is easy to be carried out . furthermore , the concurrent computation can also be realized . two examples of optimum reliability allocation are used to describe the implementation procedure of ca for two - level allocation and three - level allocation respectively , and to validate preliminarily its correctness and effectiveness . it is shown that the developed method can be successfully used in optimum allocation of design requirements . then taking weight requirement allocation as example , the mathematical model and solution procedure for collaborative allocation of design requirements in aircraft conceptual design are briefly depicted
探討了一種新的設(shè)計指標(biāo)最優(yōu)分配方法- -協(xié)同分配法,用于處理飛機(jī)頂層設(shè)計中的大規(guī)模設(shè)計指標(biāo)最優(yōu)分配問題.分析了飛機(jī)頂層設(shè)計中的設(shè)計指標(biāo)最優(yōu)分配特征,據(jù)此給出了協(xié)同法的原理并建立了數(shù)學(xué)模型.協(xié)同法按設(shè)計指標(biāo)分配關(guān)系將最優(yōu)分配問題分解為主系統(tǒng)優(yōu)化和子系統(tǒng)優(yōu)化,主優(yōu)化對子系統(tǒng)設(shè)計指標(biāo)進(jìn)行最優(yōu)分配,子優(yōu)化以最小化分配設(shè)計指標(biāo)值與期望設(shè)計指標(biāo)值之間的差異為目標(biāo),進(jìn)行子系統(tǒng)最優(yōu)設(shè)計,或?qū)Φ讓釉?如飛機(jī)翼梁、翼肋和翼盒等)進(jìn)行設(shè)計指標(biāo)最優(yōu)分配,并把最優(yōu)解信息反饋給主優(yōu)化.主優(yōu)化通過子優(yōu)化最優(yōu)解信息構(gòu)成的一致性約束協(xié)調(diào)分配量,提高系統(tǒng)整體性能,并重新給出分配方案.主系統(tǒng)與子系統(tǒng)反復(fù)協(xié)調(diào),直到得到設(shè)計指標(biāo)最優(yōu)分配方案.兩層可靠度指標(biāo)分配算例初步驗證了本文方法的正確性與可行性,三層可靠度指標(biāo)分配算例證明了本文方法的有效性.最后,以重量指標(biāo)分配為例,簡要敘述了針對飛機(jī)頂層設(shè)計中設(shè)計指標(biāo)協(xié)同分配的數(shù)學(xué)模型和求解思路

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