齊次系數 的英文怎麼說

中文拼音 [shǔ]
齊次系數 英文
homogeneous coefficients
  • : 齊名詞[書面語]1. (調味品) flavouring; seasoning; condiment2. (合金, 此義今多讀 ) alloy
  • : Ⅰ名詞1 (次序; 等第) order; sequence 2 [書面語] (出外遠行時停留的處所) stopping place on a jou...
  • : 系動詞(打結; 扣) tie; fasten; do up; button up
  • : 數副詞(屢次) frequently; repeatedly
  • 齊次 : homogeneous
  • 系數 : [數學] coefficient; ratio; modulus; quotient; factor
  1. On the second - order item coefficients for - starlike mappings in cn

    星形映射的展開式的二
  2. In this paper, by using the property of fourier series a compound series consisting of trigonometric series and power series is established

    摘要利用由三角級和冪級復合構成的函項級的有關性質,得到了一類變調和方程邊值問題的級解。
  3. In the second section of chapter 2, the fact that the essential interest rates of all nodes differ from each other is discussed, a non - homogeneous differential equation model of interest rate - amount of circulating fund is established, and it is proved that the sum of the weighted interest rates of each node in the financial network still remains a constant and that the difference of the instant interest rates between two nodes will finally approach the difference between their basic interest rates. in the third section of chapter 2, the differential equation model of interest rate - amount of circulating fund in an open system is studied, the laws of changes of interest rate are taken into account when fund is injected into or withdrawn from the node or when fund is injected into the network or withdrawn from the network, and the stability of equilibrium solution is proved based upon lyapunov stability theory. in the last, the equation model of interest rate - amount of circulating fund in the financial network with time delay is studied, and a necessary and sufficient condition for the existence of periodic solution is obtained to the interest rate - amount of circulating fund equation with delay

    本文第二章首先建立了封閉統的利率?流通量微分方程模型,證明了各結點利率加權和為常即金融市場利率均衡原理,以及各結點利率極限為整個網路平均利率;其在各結點基本利率不相同的情況下,建立了非利率?流通量微分方程模型,證明了金融網路各結點利率加權和仍是一個常,並證明了各結點兩兩之間的即時利率之差最終將穩定地趨于其基本利率差;此外,還研究了開放金融網路利率?流通量方程模型,考慮了結點自身追加資金和提走資金的情形以及網路外部注入資金和向外部轉移資金情形下的利率變化規律,用lyapunov穩定性理論證明了模型均衡解的穩定性;最後,還研究了具有時滯的金融網路利率?流通量方程模型,並給出了具有時滯金融網路的利率流通量方程具有周期解的充要條件。
  4. Meanwhile, adjusting and optimizing the structure of investment distribution on education should be given attention. the innovation of this article are rest with : 1 ) applying granger causal relations methods to test causal relationships between education investment and economy growth ; 2 ) using time series data to built econometrical model, emphasizing education investment ' s long term feature ; 3 ) projecting future developments by arima model

    本文主要創新點在於: ( 1 )利用格蘭傑因果關檢驗確定教育投資與經濟增長之間的因果關; ( 2 )利用時間序列據進行建模時,著重體現了教育投資的長效性這一重要的特殊性質; ( 3 )利用非平穩過程的arima模型對我國未來教育投資進行了預測。
  5. The increase - order of solutions of higher order homogeneous linear differential equations with polynomial coefficients

    多項式高階線性微分方程解的增長級
  6. The specified solution formula derivation of second order non - homogeneous linear differential equation with constant coefficients

    二階常線性微分方程特解公式的推導
  7. On the growth of solutions of a class of higher order non - homogeneous linear differential equations with meromorphic coefficents

    一類亞純函的高階非線性微分方程解的增長性
  8. In this paper, we investigate the increase - order of solutions of higher order homogeneous linear differential equations with polynomial coefficients. we have obtained the precise result

    摘要研究了多項式高階線性微分方程解的增長級問題,得到了比前人更精確的結果。
  9. A formula to solve the initial value problem of homogeneous linear differential equations with constant coefficients is given and a formula to solve the homogeneous linear difference equations with constant coefficients under certain conditions is derived

    摘要給出了常線性微分方程組初值問題的一個求解公式,並由此推出常線性差分方程組在給定的初始條件下的一個求解公式。
  10. In chapter 2, we discuss the problem of the relationship between the solution of non - homogeneous linear differential and small function. in chapter 3, we investigated the relationship between exponent of convergence to zero - sequence of the solution of certain homogeneous linear differential equation f ( k ) + a ( z ) f = 0 and the order of growth of a ( z )

    其中第二部分討論了非線性微分方程解取小函的收斂指,第三部分研究了線性微分方程f ~ ( k ) + a ( z ) f = 0的解的零點收斂指與a ( z )的級的關
  11. Some methods to find particular solutions to second - order constant coefficient inhomogenous linear differential equation

    二階常線性微分方程特解的一些求法
  12. Finally, in the third section, by constructing some functional which similar to the conservation law of evolution equation and the technical estimates, we prove that in the inviscid limit the solution of generalized derivative ginzburg - landau equation ( ggl equation ) converges to the solution of derivative nonlinear schrodinger equation correspondently in one - dimension ; the existence of global smooth solution for a class of generalized derivative ginzburg - landau equation are proved in two - dimension, in some special case, we prove that the solution of ggl equation converges to the weak solution of derivative nonlinear schrodinger equation ; in general case, by using some integral identities of solution for generalized ginzburg - landau equations with inhomogeneous boundary condition and the estimates for the l ~ ( 2 ) norm on boundary of normal derivative and h ~ ( 1 ) ' norm of solution, we prove the existence of global weak solution of the inhomogeneous boundary value problem for generalized ginzburg - landau equations

    第三部分:在一維情形,我們考慮了一類帶導項的ginzburg ? landau方程,通過構造一些類似於發展方程守恆律的泛函及巧妙的積分估計,證明了當粘性趨于零時, ginzburg ? landau方程的解逼近相應的帶導項的schr ( ? ) dinger方程的解,並給出了最優收斂速度估計;在二維情形,我們證明了一類帶導項的廣義ginzburg ? landau方程整體光滑解的存在性,以及在某種特殊情形下, gl方程的解趨近於相應的帶導項的schr ( ? ) dinger方程的弱解;在一般情形下,我們討論了一類ginzburg ? landau方程的非邊值問題,通過幾個積分恆等式,同時估計解的h ~ 1模及法向導在邊界上的模,證明了整體弱解的存在性。
  13. On the zero and hype - order of solutions of certain non - homogeneous differential equations with entire coefficients

    關于某類缺項級線性微分方程解的增長性
  14. Principal components analysis showed that the first four principal components variance accumulation contribution rate amounts to 89. 53 %, which reflected most of the variance information as listed characters above

    通徑分析結果顯示,直接通徑大小排序,產量因素性狀依為單株成鈴單鈴子棉重子指衣分;纖維品質性狀依為紡紗均勻性指麥克隆值整度伸長率比強度2 . 5 %跨長。
  15. Solution to the linear nonhomogeneous recursive relation with constant coefficients

    關于常線性非遞推關的求解
  16. 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。
  17. This risk process is made into a homogeneous piecewise deterministic markov process by introducing supplementary components from forward markovization technique. then a martingale is found by the martingale approach of piecewise deterministic markov process ( pdmp ). the general expression and the lundberg bound of the ruin probability are derived subsequently. the idea of change of the probability measure and the adjustment coefficient are used to find the lundberg bound

    首先利用向前馬爾可夫技巧使此風險過程成為馬爾可夫過程,然後利用逐段決定馬爾可夫過程( pdmp )中的鞅方法,得到本文風險模型中鞅的形式,繼而求得索賠額分佈為一般離散分佈的破產概率的一般表達式,並得到破產概率的lundberg界,這里用到了測度變換的思想,從中可以看出調節的重要作用。
  18. The new method of solving special integral of n order linear inhomogeneous differential equation with constant coefficients

    階常線性一般非微分方程特解公式
  19. The linear periodic time - varying vibration system can be changed to a constant coefficient linear system by l tansformation

    摘要線性周期時變統的狀態方程經李亞普諾夫變換后,周質線性時變振動統轉化為一非定常線性統。
  20. The uncertain relationship between the double limit ond the quadratic limit is explained and the determination methods to the nonexistence of the odd function ' s limit are given

    摘要本文闡明二重極限與二極限的不確定關,給出的極限不存在的判定方法。
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