比例因子調整 的英文怎麼說

中文拼音 [yīnzidiàozhěng]
比例因子調整 英文
scale factor control
  • : Ⅰ動詞1 (比較; 較量高下、 長短、距離、好壞等) compare; compete; contrast; match; emulate 2 (比...
  • : Ⅰ動詞[書面語] (沿襲) follow; carry on Ⅱ介詞1 [書面語] (憑借; 根據) on the basis of; in accord...
  • : 子Ⅰ名詞1 (兒子) son 2 (人的通稱) person 3 (古代特指有學問的男人) ancient title of respect f...
  • 調 : Ⅰ動詞1 (配合得均勻合適) harmonize; suit well; fit in perfectly 2 (使配合得均勻合適) mix; adju...
  • : Ⅰ形容詞1 (全部在內; 完整) whole; all; complete 2 (整齊) neat; tidy; orderly Ⅱ動詞1 (整理; 整...
  • 比例 : 1. (長度上縮小和放大的倍數) scale; scaling 2. (比率) proportion; ratio; proportionality
  • 調整 : adjust; tune up; trim; trimming; variation; modulation; arrangement; debug; rectification; redres...
  1. It possesses not only the self - learning ability and adaptability, but also the function of self - adjusting factors. based on fuzzy set, neural network theory, the fuzzy control model and fuzzy neural network control model of multi variable system are presented. based on the automatic core - welding line of shop floor control system in yangzhou radiator plant computer integrated manufacturing system ( ys - cims / sfcs ), the fuzzy logic theory was applied to the controlling device and established the main heating room fuzzy temperature controller and finally was put into practical use

    本文採用了基於神經網路技術的智能pid控制策略,設計了一類具有自學習和自調功能的神經元網路自適應pid控制器的結構及演算法;為解決結構不確定性的復雜多變量系統的控制,基於模糊集及模糊系統、神經網路理論,建立了多變量系統的模糊控制模型及模糊神經網路控制模型;針對揚州水箱廠計算機集成製造系統車間管理與控制系統( ys - cims sfcs )中的實際工程問題,設計和開發了散熱器芯烘焊自動線主烘腔溫度模糊控制器,解決了生產中長期存在的老大難問題,提高了產品質量,降低了單產能耗。
  2. Stpidflc ' s output scaling factors gu is adjusted on - line by fuzzy rules according to the current trend of the controlled process

    具有魯棒性的自定模糊控制器的輸出gu是由另外一模糊規則庫根據被控過程的當前趨勢在線調
  3. A scale coefficient method based on the fem has been proposed to predict the optimum blank in sheet metal forming in this thesis. in order to improve the precision of results and reduce iterate time, at adjusting the original curve, this method is n ' t giving the same adjustment, but giving the corresponding adjustment based on calculation of scale coefficient and shape error of each node to the curve

    本文在有限元模擬的基礎上提出了一種新的板料優化的方法? ?法,該方法在調初始輪廓線時,不是給各個節點一個相同的調量,而是依各個節點的及形狀誤差值計算出相應的調量,這樣調的針對性強,計算結果更精確,需要迭代的時間也更少。
  4. Perfection and adjustment according to system properties, it combines genetic algorithms with fuzzy control, detailed analyzes the problem of designing fuzzy controller and proposes two advanced schemes : first scheme : the change - of - variables are emerged into input variables of the simple fuzzy controllers of oil feeding pump system as one variable, and one pi block is connected after output of fuzzy controllers, consequently the structure of the improved fuzzy controller is analyzed, finally genetic algorithms with adaptive probabilities of crossover and mutation is applied to optimize membership functions and fusing factors of the fuzzy controllers, and the simulation results of before and after optimization are compared

    由於在模糊控制器的設計過程中存在較多的人為素,為了實現根據系統特性對模糊規則和隸屬函數進行自動修正、完善和調,本文將遺傳演算法和模糊控制結合起來,並針對前面設計的模糊控制器中所存在的問題進行了詳細分析,提出了兩種改進方案: 1在簡單模糊控制器的輸入變量中加入了變量變化率的信息,即將輸入變量和變量的變化率融合為一個輸入量,並在模糊控制器的輸出端加入、積分環節,然後分析了這種改進后的模糊控制器的解析結構,最後採用改進后的自適應遺傳運算元的遺傳演算法對模糊控制器中的隸屬函數和融合進行優化,並將優化前後的結果作了較和分析。 2
  5. It has not only the learning ability and the adaptability, but also the self - adjusting factor function

    該控制器不僅具有自學習自適應能力,而且具有自調功能。
  6. Some methods, such as adding integrator ; making use of neural network to remember fuzzy rule ; utilizing bang - bang controller and adjusting scale and proportion factors online, are researched to modify normal fuzzy controller for optimizing srd ' s dynamic and static performance. the simulation results given in this paper show the srd with modified fuzzy controller has excellent performance

    本文以提高srd動、靜態性能為指標,研究了如下幾種改進模糊控制的方法: ( 1 )串聯或並聯積分器以提高靜態精度; ( 2 )利用神經網路記憶模糊控制規則; ( 3 ) bang - bang控制與模糊控制結合; ( 4 )在線調量化
  7. Based on the analysis of the fuzzy control principle, this paper presents an fuzzy control method with adaptable coefficients which is used in position control loop. therefore, the speed and placidity demands can be satisfied furthest at the same time

    本文在分析模糊控制基本原理的基礎上,給出了一種模糊自調的模糊控制策略,將其用於外環的位置控制,以最大程度地滿足高速卷取對臺階迴避快速性和平穩性的要求。
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