間隔分佈 的英文怎麼說
中文拼音 [jiāngéfēnbù]
間隔分佈
英文
interval distribution-
If a barrier separating the two sides is punctured, the air rushes to equalize its distribution in space.
如果戳穿中間的隔板,空氣就會沖來沖去,直到在空間均勻分佈為止。Procedures for goodness - of - fit tests, confidence intervals and lower confidence limits for weibull distributed data
魏布爾分佈數據用擬合良度試驗置信間隔和低置信界限程序On the base of above it, this paper discuss the synthesis of optimum distributed arrays by nonuniform spacing in the sense of dolph - chebyshev. having derived the equations of optimum element distribution, we analyze the exponentially spaced array, which are optimum when the elements are isotropic and equally weighted, and the array by general raised cosine function. the formulate for estimating the sidelobe envelope, beamwidth of the array pattern and clean region width are obtained
推導了最佳陣元分佈方程,分別對陣元無方向性和等加權時的最佳分散式陣列? ?指數間隔陣列和採用廣義升餘弦加權的最佳分散式陣列進行了分析,推導了天線方向圖旁瓣包絡、波束寬度,干凈掃描區寬度的估計公式,給出了近軸旁瓣電平與陣列參數的關系。Results the superiolateral genicular artery stemmed from the popliteal artery, penetrated biceps femoral muscle and lateral intermuscular septum of the femur to the surface of femur by the superior side of the external condyle sending periosteal branches to the external condyle and participating in the anterior periosteal vessels network of femur
結果膝外上動脈起自月國動脈,經外側髁上方穿股二頭肌腱與股外側肌間隔至骨面發骨膜支分佈於外側髁的外側面並參與股骨前面骨膜血管網。Other factors may include, but not be limited to, work contours, task calendars, lead and lag time, and task constraints
其他因素還包括工時分佈、任務日歷、前置重疊時間和延隔時間以及任務限制(但不局限於此) 。When studying the network performance, flow control and resource provisioning of communication networks, traffic model plays a very important role. the recent studies show that the date network traffic is self - similar, so the markovian model, which describes telephone networks accurately, is not suitable for date networks. the self - similarity of the network traffic has severe impact on flow control and queuing analysis in date networks, therefore it has received significant attention. in this paper, g m 1 queuing model is used to analyze the queuing performance of generic variable length packet networks for the first time. the self - similar traffic is generated by multiplexing a large set of independent pareto heavy - tailed interarrival on off sources. the simulation results show that the heavy - tailed traffic results in queuing performance deterioration for variable length packet networks, which is in accordance with the analytical results for atm switches
業務量的自相似特徵顯著影響網路的流量控制與排隊分析,已經引起人們的極大重視。採用g m 1排隊模型對分組長度可變的網路的排隊性能進行了分析和模擬,其中自相似業務量是通過疊加大量獨立的到達間隔為pareto重尾分佈的on off源來生成的。模擬結果表明,自相似業務量導致網路的排隊性能劣化,這與有關文獻對atm交換的分析結果一致。Based on establishing a failure distribution model repository, the failure distribution is obtained by parameter estimating and goodness - of - fit testing. 2. decision - making technologies of maintenance ways and maintenance interval are studied
在建立裝備故障分佈模型庫的基礎上,研究了參數估計和擬合優度檢驗的方法,據此確定了裝備故障分佈; 2 、研究了裝備維修方式和維修間隔期決策技術。It is obvious that in jialing river basin, many landscape components with good patch cohesion are distributed, forming a pattern of landscape fragmentation
「溫帶落葉闊葉林」的斑塊間隔小,分佈緊密,相似性程度高,聚合性強,但自然連接性較低。At the same time, the formulas on reliability, mean time to failure and availability, mean time between failure etc were deduced respectively based on the distribution density function and markov state - transition diagram
同時依據分佈密度函數和馬爾可夫模型的數學理論分別推導了兩種系統的可靠度、平均故障前時間和可用度、平均故障間隔時間等指標的計算公式,為軟體內核程序的開發奠定了理論基礎。In chapter 1, we briefly reviewed the risk theory and its development. and the significance about this paper was expressed. in chapter 2, we introduced classical risk model. in which, making this risk process into a strong markovian process is the preparation of deriving the main results. chapter 3 is the main body of the paper, we derived the results about general ruin probability in a kind of continuous time risk model with deficit - time geometry distribution of claim inter - occurrence time. the martingale approach is a good procedure to get the expression of ruin probability about a class of continuous time risk models with deficit - time geometry distribution of claim inter - occurrence time. we also take advantage of change of measure idea from it
第二章介紹了經典風險模型,其中用逐段決定馬爾可夫過程理論及補充變量技巧,使一類風險模型的盈餘過程成為齊次強馬爾可夫過程。第三章作為本文的主體部分,在索賠到達間隔服從虧時幾何分佈的連續時間風險模型中,索賠額分佈為一般分佈,它的破產概率可以利用pdmp中的廣義生成運算元得出鞅,通過調節系數的選擇以及在相應測度下的測度變換,使得破產概率的一般解可以表示出來。This paper includes three chapters. several elementary concepts of pdmp and the extended generator of pdmp are introduced in the first chapter. the classical risk model and the sparre andersen model are introduced in the second one. the third chapter is the main body of this paper in which the ruin problem of sparre andersen model with geometric distribution of claim inter - occurrence times is considered and the lundberg bound is derived
本文共三章。第一章是預備知識,介紹了逐段決定馬爾可夫過程的一些基本概念及pdmp的廣義生成運算元;第二章介紹了經典風險模型及sparreandersen模型;第三章是本文的主體,討論了索賠到達間隔服從幾何分佈的sparreandersen模型的破產問題。In the study of risk theory, a class of continuous time risk process with deficit - time geometry distribution of claim inter - occurrence time was made into a strong piecewise - deterministic markov process with the theory of piecewise - deterministic markov process and by introducing a supplementary variable. martingale approach is one of the most powerful methods of pdmp. the programming process is getting the ruin probability from the martingale construction. we use the idea of change of measure in the programming process and find the result and the function of adjustment coefficient
本文應用逐段決定馬爾可夫過程理論及補充變量技巧,使索賠到達間隔服從虧時幾何分佈的連續時間風險過程成為齊次強馬爾可夫過程,然後利用pdmp中的鞅方法(用廣義生成運算元得出鞅)推導了鞅的形式,作為該風險模型索賠額分佈為一般分佈下的破產概率的一般表達式,其中用到了測度變換的思想。Basing on the theory of shape geometry, the distribution of rock blasting fragmentation are discussed, fragmentation of blasting experimentation of different charging construction appears shape character, and the relation of explosive ratio, line of weakness and distribution of blasting fragmentation are confirmed by regression, the relation of function of explosive ratio of distant loading and consecutive loading are confirmed by contrasting different distribution of blasting fragmentation of charging construction, a new approach will be put forward for optimized of bore net parameter and forecast of distribution of blasting fragmentation
回歸分析了爆破試驗的炸藥單耗、底盤抵抗線與爆破塊度分維數之間的函數關系,對比不同裝藥結構爆破塊度的分維數,得出了同等條件下間隔裝藥與連續裝藥炸藥單耗差值的關系,以及裝藥結構對巖石爆破塊度分佈影響的規律。根據對巖石爆破破碎塊度分佈分形規律的研究,找出了預測孔網參數優化、爆破塊度分佈新的途徑。3, 4, 5 and ? 6 of this chapter deal respectively with the transient distribution of the queue length of these four queueing systems. such results are obtained as follows : under the condition of the interarrival times distributions and service times distributions of these queueing models which have density function, their transient distribution of the queue length can be represented as an integral, and the integrated term of this integral can be recursively obtained
在這一章的誇3 、芬4 、縣5和號6中,分別針對這四個排隊模型,討論了瞬時隊長的分佈,最終得到了以下的結果:在這幾個模型的到達間隔分佈和服務時間分佈均具有密度函數的條件下,它們的瞬時隊長分佈可以表示為一個積分,該積分的被積項可以遞歸地求取。Additionally, provided that not all interarrival times distribution and ser - vice times distribution are of density function, the integral representation of the transient disribution of the queue length of these four queueing systems as indicated above is obtained by applying the theory of markov skeleton processes
此外,當到達間隔分佈和服務時間分佈不都有密度函數時,應用馬爾可夫骨架過程理論,亦可得到上述四個排隊系統的瞬時隊長分佈的積分表示。在處理上述這兩個內容截然不同的部分時,所使用的基本方法是一致的。The conclusion depends on the actual interval time distribution, which is unknown
這方面的結論取決于實際的時間間隔分佈,我們對此未知。 」With this policy the long - run average cost rate of system is minimized
運用該演算法,求得了使系統長期運行平均費用率最低的預防性維修閾值與檢測間隔分佈。On markov property of the risk reserve processes and continuous - time risk models with discete - type inter - arrival times
盈餘過程的馬氏性與索賠到達間隔分佈為離散型的連續時間風險模型It is better to group pilot tones together into clumps that are equispaced in the frequency domain
可以證明,在快時變環境下,分組且每組等間隔分佈於頻域上的導頻序列有著更好的系統性能。The statistical distribution of these interval times is poorly identified even in this, the best of cases
這些間隔時間的分佈,即便在這種最好的例子中,其識別也較差。分享友人