自尋優控制 的英文怎麼說

中文拼音 [xúnyōukòngzhì]
自尋優控制 英文
self-optimizing control
  • : Ⅰ代詞(自己) self; oneself; one s own Ⅱ副詞(自然;當然) certainly; of course; naturally; willin...
  • : 動詞1 (告發;控告) accuse; charge 2 (控制) control; dominate 3 (使容器口兒朝下 讓裏面的液體慢...
  • : Ⅰ動詞1 (製造) make; manufacture 2 (擬訂; 規定) draw up; establish 3 (用強力約束; 限定; 管束...
  • 控制 : control; dominate; regulate; govern; manage; check; cybernate; manipulate; encraty; rule; rein; c...
  1. Aiming at such problems in combustion system of homemade middle and miniature boiler, as a complex system with the character of dead zone, time variation, serious non - linearity, large time delay, coupling and a lot of disturbance, this paper presents a new set of optimal control resources. by using well - matched control method on system, stable automatic running is realized. having the serious divulgence coals difference a lot from each other in character, instability of chemistry, value of lowest emission of heat, home - made boiler controller is not at all ideal. instead of traditional model that controls the ratio based on proportional control or with the correct signal of the amount of oxygen, this paper, combined with intellect control theory - - fuzzy control and self - optimizing concept, propounded a kind of fuzzy self - optimizing controller to be used in air supplying system of the boiler, and expatiates on the idea of dividing the control process into two parts, dynamic and static to realize, thus meets the demand of homemade boiler economic running

    本設計針對國產中、小型電站鍋爐燃燒系統參數時變、嚴重非線性、干擾因素復雜、耦合嚴重、模型不易確定的特點,提出多變量協調方案,解決了系統可性差,難以實現穩定動運行的問題;在此基礎上,改變以往以煙氣含氧量送風的傳統模式,針對國產電站鍋爐設備主體及一、二次送風迴路泄露嚴重,煤種混雜、成分不穩定、燃燒發熱值低、燃燒效率不高等問題,應用智能理論中的模糊技術,結合的思想,設計了一種模糊自尋優控制器,應用在電站鍋爐送風系統上,並闡述了動靜態兩種實現途徑,通過在線化風煤配比,實現最佳經濟燃燒,切實保障了鍋爐的經濟運行。
  2. Avoiding the difficulties of detecting the difficult parameters in furnace control and of building up the models, integrated with fuzzy control and conventional pid control, abb ’ s control it system is used to predict the bloom surface and center temperature directly based on the temperature of furnace wall easily to be detected so that the temperature settings in various furnace sections can be self - corrected, the furnace temperature of each section self - adjusted and on - line parameters of combustion control self - optimized. in addition, the heating parameters and the operating status of the field plant can be monitored with alarm

    採用abb公司的controlit系統,避開爐子中遇到的困難參數檢測及建模困難等因素,直接根據容易檢測的爐壁溫度來推知鋼坯表面溫度及鋼坯中心溫度,將模糊技術與常規pid相結合,實現各段溫爐設定值修正、各段爐溫協調、各參數在線整定的最佳燃燒;對熱工參數、現場設備的運行情況進行監視、報警,實現爐膛壓力、管道壓力、換熱器的保護,並將重要參數送往廠級mis網路。
  3. Conventional power system stabilizer ( cpss ) has such shortcoming as complex design, fussy parameter testing, poor adaptability and so on. in this article formula fuzzy control algorithm is put into the design of pss. quantified factors and modifying factors, which have large effect on the performance of formula fpss, are optimized

    本文針對傳統電力系統穩定器( cpss )設計復雜、參數調試繁瑣、適應性差等缺點,將一種公式型模糊演算法應用於pss設計,並對公式型模糊電力系統穩定器的性能影響較大的量化因子和修正因子進行化,從而設計出一種模糊電力系統穩定器( sofpss ) 。
  4. As for single axis, pewin, the software given by the programmable multi - axis controller ( pmac ), is used to find the best parameters of the pid controller and feedforward compensation controller. then, the nonlinear friction in the system is compensated by the friction compensation controller with genetic algorithm ( ga ). the compensation controller can improve the system performance effectively

    對于單軸系統首先利用美國deltatau公司的可編程多軸器pmac帶的軟體pewin進行pid參數的整定以及前饋補償環節的參數整定,然後分析系統存在的非線性摩擦力,利用遺傳演算法摩擦力補償環節的參數,達到補償摩擦力的效果,有效地提高了系統的性能。
  5. For other auto - control systems, different fuzzy algorithm are put forward individuel in this paper also. the controlling algorithm of the main controlling system is studyed and simulated. the simulation experiments manifest that the controlling system has small exceeding value and good stability when using this algorithm

    掘此,本文對主系統提出了規則可調整的智能演算法和其它系統的模糊演算法,並對主演算法進行了研究和模擬。
  6. Study on water resources adjustment and control evolvement rules, the order degree and mechanism of water resources auto - probe optimal introduced by system entropy variety were built up to introduce water resources optimal allocation

    研究了流域水資源調演變規律,建立了有序度和系統熵變引導的水資源調,引導水資源化配置。
  7. Then a self - searching optimal control method for enhancing thermal efficiency is obtained through the optimal wind - coal ratio. then a computer control system for economic combustion in coal - fired boiler is designed

    通過實現燃煤鍋爐最佳風煤比,得出提高鍋爐熱效率的自尋優控制方案,設計出了用於燃煤鍋爐經濟燃燒的計算機系統。
  8. Then a combustion evolution optimizing system based on the radiant energy measuring was built, economical boiler combustion adjustment was carried out, under the combined action of a controller based on fuzzy self - optimizing of fume

    在此基礎上,建立了基於輻射能檢測的燃燒進化化系統,通過煙氣含氧量與爐膛總輻射能的模糊自尋優控制器和風煤比進化化器組成的燃燒化迴路的共同作用,對鍋爐進行燃燒經濟性調節,達到燃燒的目的。
  9. Thirdly, two major strategies are presented : one is a fuzzy controller with self - adjusting of parameters which is applied to boiler burning system ; the other is a self - optimizing controller which is applied to the blasting system

    其中,總結操作人員成功的經驗,提出兩種策略:其一是基本模糊器和帶參數調整模糊器,引入鍋爐燃料系統中;另一種是模糊自尋優控制器,用於送風系統中。
  10. Simulation research on abs self - optimizing control method

    防抱動系統自尋優控制的模擬研究
  11. Self - optimizing control

    自尋優控制
  12. In addition, fuzzy dynamic self - optimizing control method is adopted in air supplying circuit for boiler ' s working at the best situation

    另外,在送風迴路中採用了模糊動態自尋優控制方案,為鍋爐運行於最佳燃燒狀態,提供了必要的保證。
  13. In a word, the research results show the feasibility of self - optimalizing control strategy, self - optimalizing abs system is a simple convenient system with better driving stability braking and better adaptability at same time

    總之,研究結果證明了自尋優控制用於防抱死剎車系統的可行性,abs系統是一種簡單、方便、具有較好操縱性、動性和較好適應性的系統。
  14. 2. according to the principle of successive comprehension and successive measurement of self - optimalizing control theories, the method of step - searching and step - detection has been applied in abs. self - optimalizing strategy on the control of abs is presented in this paper

    根據自尋優控制理論連續理解和連續測量的原理,採用步進搜索和步進探測的方法,將其應用到汽車防抱死動系統中,提出了防抱死策略。
  15. The ic modulation circuits and microprocessor are used in the control unit. on the side of input of inverter, the maximum power point tracking of solar module is well realized by using a kind of thought of self - optimizing control ; on the side of output of the inverter, a kind of approximate optimum v / f control strategy is used in order to optimize the match between the output of the inverter and load of motor - pump

    在逆變器輸入側,採用自尋優控制思想實現太陽能電池最大功率點跟蹤( mppt ) ;在輸出側,採用了v / f近似化的策略,以化逆變器輸出與機泵負載之間的匹配。
  16. Considering the shortcomings in the genetic algorithms, some improvements are proposed in order to elucidate its strong optimizing ability, genetic algorithms are used to optimize the pid parameters of ship autopilot. the comparison between the different simulation curves shows the validity of genetic algorithms in looking for the best parameters

    本文首先用遺傳演算法來對船舶航向保持動舵的pid參數進行在線化,通過對用常規工程方法整定的pid和用遺傳演算法化的pid的模擬曲線的比較,說明了遺傳演算法強的全局能力。
  17. Factor two level self - optimizing fuzzy controller with time - varying modifying

    時變修正因子二級模糊
  18. One auto - optimized fuzzy control of car - engines based on ga

    基於遺傳演算法的發動機模糊
  19. In order to solve the above - mentioned problems, this paper makes the comfortableness index objective function directly and by genetic algorithm, optimize automatically fuzzy membership function and control rules with environment change. by these means, fuzzy inverter air - conditioner will have a true intelligence character

    本論文針對上述問題,直接以空調系統舒適性為多目標化函數,利用遺傳演算法進化理論對模糊系統的隸屬函數和規則進行協同,達到基於遺傳演算法模糊協同智能的目的。
  20. On one hand, the problem of " big horse pulls little wagon " is resolved and the working efficiency of motor is improved by optimizing way to control the stator ' s voltage ; on the other hand, an energy automatic processing system of " electric motor generates electricity " is developed, in which, the energy of the feedback of motor generating electricity is processed duly and correctly through real - time switch control of the generating electricity absorbing energy cell and is used at wellhead instead of returning power net

    本課題運用新型電力電子技術和計算機技術研究開發了一種電機功率因數調整及節能系統,一方面通過對定子電壓的,解決了「大馬拉小車」問題,改善了電機的工作效率;另一方面開發了一種電機「倒發電」能量動處理系統,通過倒發電吸收單元的實時切換,將倒發電反饋的能量及時準確地進行處理,使其在井口利用不返回電網。
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