inertia coupling 中文意思是什麼
inertia coupling
解釋
慣性交感-
The inertia brake is a new kind of braking device, which is designed according to the inertia - brake principle, and it integrates brake, shaft coupling and can interconvert between them. as a result of its unique dynamic windproof function, it is applied in the harbor machinery more and more widely
慣性制動器是根據慣性制動原理設計的,融制動器、聯軸節以及二者相互轉換功能於一體的新型制動裝置,由於其獨特的動態防風功能,使它在港口機械中應用越來越廣泛。 -
By analyzing and studying the dynamic characteristic of the minehunting sonar array, the author points out that the minehunting sonar array posture control system is a non - linear and intense coupling dynamic system. according to characteristics of the common inertia matrix, the author testifies that the inertia matrix of the minehunting sonar array has many dynamic characteristics such as the limited boundary quality, the symmetry quality and the positive definite quality
對獵雷聲納基陣的動力學特性進行分析研究,指出了獵雷聲納基陣控制系統為非線性、強耦合的動力學系統;從一般的慣量矩陣特性入手,證明了獵雷聲納基陣的慣量矩陣具有有界性、對稱性及正定性等動力學特性。 -
Abstract : the coupling between deformation of flexible body and the inertia forces caused by large overall motion is handled so simple that the complate erroneous results will be produced in dealing with the problems of high speed large overall motions by using traditional theory of flexible multibody systems
文摘:傳統的柔性多體系統建模理論由於對柔性體的變形及其與大范圍運動產生慣性力之間的耦合處理得過于簡單,所以在分析存在高速大范圍運動柔性多體系統的動力學性態時會得到完全錯誤的結論。 -
Copper matte converting system is a complicated process which has the characteristics of multivariable, nonlinearity, strong coupling, large inertia, time varying and uncertainty and very difficult to carry out real - time on - line control. the purpose of the optimization, decision - making and control of copper matte converting process is to improve the productivity and decrease energy consumption
銅鋶吹煉過程是一類具有多變量、非線性、強耦合、大慣性、時變性和不確定性、難以實時在線控制等特點的復雜對象,銅鋶吹煉過程優化決策與控制的目的是為了提高勞動生產率,實現優質高產和降低能源消耗。 -
The response of the structures will be translational as well as torsional because of the asymmetric - plan that caused by the irregular distribution of the mass and the stiffness so that the center of the inertia force and the resistant force will be unlined. the torsional coupling response will induce the structure ' s dimensional effects that are not easy to be resolved in the two dimensions
由於結構樓層中的質量和剛度等分佈的不規則,造成樓層的質量中心和剛度中心不重合,從而使得在地震作用下結構各樓層受到的慣性力與樓層抗力不共線,結構將會在不同程度上表現為平動與扭轉耦聯的變形特徵。 -
There are many plants that have the character of time - varying, large delay, large inertia in the process of production of modern power station such as the superheated steam temperature, the reheated steam temperature, the water treatment of boiler and the load regulation. some of them have the strong character of nonlinear and some of them are multivariable coupling systems it is very difficult to obtain good effect of control by conventional pid control. it is necessary to set up the mathematics models of controlled plants if applying control means of modern control theory such as self - adaptive control, optimal control , decoupling control and predictive control. and these control systems have large calculation and bad character of real time in general. these disadvantages make them be not able to meet the need of real production process and limit the application of them in modern power station. now the generator units are developing towards large capacity and high parameters. many new kinds of generating electricity means are coming into being. the characers of production units of power station become more and more complex but the demand to quality of control becomes more and more strict. the new control means are in bad need to control them effectively
現代電站的生產過程中存在過熱汽溫、再熱汽溫、鍋爐水處理、負荷調節等許多大遲延、大滯后、特性時變的對象,它們中有些還是具有強非線性特性的對象或多變量耦合系統,採用常規的pid控制手段很難取得良好的控制效果。若應用現代控制理論中的自適應控制、最優控制、解耦控制、預測控制等控制手段,則需要建立被控對象的數學模型,而且往往控制系統的計算量大、實時性差。這些缺點使其很難滿足實際生產過程的需要從而極大地限制了其在現代電站中的應用。 -
Its strong coupling and large inertia is all along a difficult problem in industrial controls
其強耦合及大慣性一直是工業控制中難于解決的控制問題。 -
Bifurcation analysis of inertia cross coupling in aircraft rolling
飛機滾轉時慣性耦合運動的分岔分析 -
In addition, at this strong coupling, heavy inertia, non - linear, uncertain system, it initial proposes and adopts multi - mode segmented intelligent fuzzy control strategy. the control strategy was carried on the simulation experiment by the data making through producing the scene, having made the good control result. considering still that change of environmental temperature impacts on temperature of steel pipe, in which fbe is colloidized, it put forward the method of adjusting temperature setting value according to environmental temperature
另外文中又對這一強耦合、大慣性、非線性、不確定系統,提出了採用智能模糊多模態分段控制策略,通過在生產現場取得的數據對該控制策略進行模擬研究,取得了良好的控制效果;還考慮到環境溫度變化對fbe膠化時鋼管溫度的影響,提出了依據環境溫度變化調整溫度給定值的方法,模擬證明了該演算法的有效性。 -
First of all, based on studying the transient behavior of refrigeration system, it was deduced of the mathematical models in the stable process of refrigeration system and brought to light of the heavy inertia, hysteresis coupling in refrigeration system. these results were comfirmed to be valid by a large number of experimented results. the second, to couter the characteristics of refrigeration system, reseached many control algorithms for working conditions
首先,在研究製冷系統動態特性的基礎上,推導製冷系統穩定過程各主要變量間的定量關系,揭示了製冷系統的大慣性、相關性、滯后性,並進行了大量的實驗加以驗證;然後,針對製冷系統的特點,研究多種工況控制策略,提出d p轉換的軟實現概念,在此基礎上,又提出了概率控制律,並將專家調節器應用於實際控制之中;最後,提供了整個壓縮機測試系統的硬、軟體實現? ? yzc - 500型製冷壓縮機測試系統。 -
Multi - variable dmc algorithm has strong adaptability to coupling as well as to inertia and time delay, so it ' s applied into unit load control system and shows strong robustness. huang cheng - jing ( control theory and control engineering ) directed by associate prof. liu hong - jun
多變量dmc除對慣性和延遲有很強的適應性外,還對耦合有較強的適應能力,本文把它用於單元機組負荷控制系統中,表現出強魯棒性 -
In allusion to the characteristic of ball mill that it is simple lag, serious inertia and nonlinear, and general control methods are hard to gain a good control impact, so a fuzzy control model is held up which is graded according to burthen, temperature of outlet, negative pressure of entry, and the coupling characteristic of the model is analyzed. finally a fuzzy control system is designed as the model
而模糊控制策略大多應用於受控對象數學模型難以建立的場合,具有較好的穩定性和魯棒性,為此提出了按負荷、出口溫度、入口負壓順序分級預測的模糊控制模型,並分析了該模型的解耦特性,同時,按該模型設計了一種模糊控制系統。
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