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Home > chinese-english > "权重函数" in English

English translation for "权重函数"

weight function
weighting function
Example Sentences:
1.The spring constant is replaced by the weighting function .
弹簧常数用权重函数代替。
2.We use b - spline smoothing technique to smooth the characteristic function without changing the integral quantity and get a differentiable weight function . the method considerably improves the quality of sampling points
我们用b样条磨光技术在不改变积分值的前提下磨光特征函数,用可微的权重函数代替特征函数,提高了采样的质量。
3.To analyze some key technologies of optical network relative with rwa in detail , such as transmission , switching and internetworking ; to emphasize on the research of function , fabric and performance of optical cross - connection ; to carry out numerical simulations for crosstalk introduced by optical cross connect and to present measurements for suppressing it such as doubly filtering , fixing optimum decision threshold and appropriately choosing the number of multiplexed wavelengths ; 3 . to research the fundamental principle and some problems relative with rwa , including the type of optical network , the type of traffic , the type of service , the survivability of optical network ; to classify and compare rwa algorithms and particularly research some dynamic rwa algorithms ; 4 . to present reserved light - path and classify network resource such as used , unused and reserved status , to emulate establishment of all - optical connection in optical network through modified rwa algorithm and show effectively reducing setup time of all - optical connection utilizing reserved light - path ; to research rwa algorithms of multi - fiber network , to present new link weight functions dependent on node degree , unused fiber ( s ) per wavelength - layer and routing policies , to perform emulation of rwa based wavelength layer graph applying new link weight functions and show them make algorithms better performance and network lower blocking rate ; 5
详细分析了与rwa相关的光网络关键技术,包括传输、交换、组网等,重点研究了光交叉连接的功能和结构、性能,对其引入的串扰进行了详细分析,选择恰当的器件参数进行了数值模拟,并提出了抑制措施(如双重滤波、优化判决门限、选择恰当的复用波长数) ; 3 .研究了光网络的r认叭的基本原理、与r认叭的几个相关问题(光网络类型、业务类型、流量类型、光网络生存性) 、 r认人算法的分类和比较,具体研究了几种动态r场人算法; 4 .研究了以全光连接建立时间为优化目标的r认认算法,提出预置光路的概念,对网络资源进行状态分类(占用、未占用、预置) ,利用改进的r认叭算法仿真,预置光路可为部分新到的连接请求快速建立连接,从而提高网络性能;研究了以多光纤网络连接阻塞率为优化目标的r认城算法,提出了以节点度数、每个波长分层的空闲光纤数以及路由策略决定的几种链路权重函数,利用基于波长分层图模型的并行r场人算法仿真,利用新的链路权重函数使得算法具有更优的性能,使网络具有更低的连接阻塞率。
4.Since the suggested method makes a significant improvement in wind speed , it is more suitable for wind field estimation over complex terrain than other methods which only concerns the effect of distance . then we calculate the wind change with evaluation , last we can conclude the wind abase the hilly terrain , we find the wind in westward and center plain is much smaller than other area . while the wind in northward hilly area is much bigger with the hilly arising . the wind of chongqing is the biggest period in spring ( april ) , the smallest period in winter ( january ) , the wind in summer ( july ) is bigger than its in autumn ( october )
本文利用重庆及其周边地区的常规气象站的1951 ? 1980年30年的风速平均资料,针对复杂地形风速诊断,以地理信息系统为数据处理平台,根据重庆1 : 25万dem数据,来获得重庆市实际复杂地形的高程,提出了一种适合于起伏地形的权重内插方法,通过引入一个表示地形起伏变化程度的因子,构造了一种新的权重函数,来处理复杂地形上的风速,通过与只考虑距因素同反平内插方法比较发现,本方法更适合在起伏地形条件下使用;然后根据经验公式在地形上进行计算,得出重庆地区起伏地形下的风速分布;得出重庆市的西部、中部平原地带风速较小,而北部山区随海拔高度升高风速也较大;重庆市风速最大时期为四月份,冬季一月份最小,夏季(七月份)大于秋季(十月份) 。
5.The conclusion is that inductive electromotive force , gotten from sensor with the distribution regularities of weighting function , is proportional to the average flow velocity in pipe and is not relevant to the distribution of flow velocity when flow velocity is non - central symmetry with the central axis . so electromagnetic flowmeter could solve the question of high accuracy in principles
得出按权重函数分布规律的传感器,在流速非中心轴对称分布时,感应电势仅与平均流速呈正比,而与流速分布无关的结论,从而从原理上解决电磁流量计了高精度测量的问题。
6.The " collaboration " will become a main problem enterprise faced in the global digital economy . so along with this clue , some problems as following are studied in this paper : 1 ) collaborative manufacturing environment , collaborative manufacturing network and operation center are proposed , and base on these concepts , some problems relate to production control are identified ; 2 ) the framework for collaborative manufacturing environment is constructed by using agent and multi - agent , the framework conducts scheduling and controlling functions among production entities , as well as within them , using autonomous agent and weighted functions for distributed decision - making , while simple index values , instead of detailed data , are used for information exchange among agents ; 3 ) finally , resource promises model are proposed , based on the model , resource control collaborative mechanism is developed for collaborative manufacturing environment ; 4 ) collaborative contingency management is introduced
本文沿着“协作”这一线索对以下问题进行了研究: 1 )提出了协作制造环境、协作制造网络及运营中心的概念,并以此为基础进一步界定了协作制造环境下的生产控制问题; 2 )构建了协作制造环境下基于多agent的生产控制框架,并在这一框架基础上,应用自治agent和分布式决策的权重函数,建立了协作制造环境中制造实体间或实体内生产调度与控制模型; 3 )以资源承诺模型为基础,建立了协作制造环境下的资源控制协作机制; 4 )给出了协作制造环境下紧急事件的管理策略。
Similar Words:
"权重的" English translation, "权重叠加" English translation, "权重叠架" English translation, "权重东" English translation, "权重法" English translation, "权重集" English translation, "权重计数子" English translation, "权重矩阵" English translation, "权重滤波器" English translation, "权重配位数" English translation