genetic separation 中文意思是什麼
genetic separation
解釋
成因劃分- genetic : adj. 1. 遺傳(學)上的。2. 發生的,發展的;創始的。adv. -ically
- separation : n 1 分離;分類;分開。2 隔開;間隔;脫離。3 (夫婦的)分居。4 分隔物。5 【化學】離析;析出;釋出...
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One is the bss based on kernel density estimation ( kde ) and genetic algorithm ( ga ), the other is the blind deconvolution based on high order cross cumulants and ga. without nlf, the performance of separation in both algorithms is independent with the kurtosis of the sources
兩種演算法的實現無需引入非線性函數,因此都與源信號的峭度性質無關;另外,選取全局搜索的遺傳演算法進行尋優,避免了梯度法搜索的局部性,使得演算法均能收斂到問題的全局最優解。 -
After the construct of the motion simulation model, genetic algorithm is used to do the adjustment of pid parameters of the control system of the joint motors, integral separation pid control and angle error analysis is finished, and three force / torque sensors, touch sensors, distance sensors and photoelectric switches are calibrated and installed
在建立了機器人關節控制系統模型后,使用遺傳演算法對其關節電機控制系統進行pid參數整定,進行機器人關節的積分分離的pid控制策略和轉角誤差的理論分析,並進行了機器人三維力/力矩傳感器、接觸傳感器、測距傳感器和光電開關的標定與安裝。 -
If genetic algorithms are employed, particularly, to optimize the fuzzy controller, it will contribute to the new ideal for the separation of artificial intelligence. the aim of this paper is to use a based - on ga fuzzy controller to control the centrifugal separation between slurries and water. the paper is made up three sections : in the first one, we introduce the principle of the technique of centrifugal separation, which specially and systemically is introduced because the mixture is separated in the decanter
本文首先系統的介紹了離心沉降分離技術的原理,特別介紹了分離物料在臥螺離心機內的分離原理以及影響分離效果的內部和外部因素,為採用模糊控制代替傳統的分離控制奠定了理論基礎;其次,對模糊控制器的特點進行詳細的剖析,將其與黃河泥沙分離工程的特點進行融合,取長補短,找到它們的切合點,提出了基於ga的最優的模糊控制器的設計方法;然後採用遺傳演算法來優化模糊控制器的查詢表,縮短系統控制的調節時間。 -
One to offspring ( t1 ) was selected for further genetic analysis from two types of self - pollinated transgenic plants and screened for the presence of the recombinant gene by the pcr respectively. the result suggested that the resistance to kanamycin can be a stable heredity by genetic analysis, separation ratio of t1 was 3 : 1 and t1 kanamycin - resistant tomato plants can carry vp7 gene
此外,從兩種轉基因植株中分別選取一自交株進行t _ 1代遺傳分析,其kan抗性基因分離比皆為3 : 1 , t _ 1代抗性番茄植株的pcr結果也呈陽性。 -
The dual standard quantity ( the work piece and the discrete standard quantity ) mutual measuring and model verification methods are also proposed, which perfects the whole modifying process from data measuring, error separation, model establishment to real correction. after researching the discrete standard quantity system dynamic error separation technique, two error correction methods based on genetic algorithm and neural network mixed modeling technique are established. the two methods are the discrete standard quantity dynamic error direct / synchronous correction and prediction model correction ; the model ' s parameters and model ' s exercising method are also confirmed
設計了雙標準量值(工件和離散標準量)互比測量的模型驗證方法,完善了從數據測量、誤差分離、模型建立到實際修正的整個修正過程;研究了離散標準量系統動態誤差分離技術,建立了基於遺傳進化演算法與神經網路混合建模技術的兩種誤差修正方法? ?離散標準量動態誤差直接(同步)修正方法和預報模型修正方法,並確定了模型結構參數和模型訓練方法;分析了預報模型的多次預報性質,並得出了多次預報與多步預報的等效關系,確定了測量系統的有效預報范圍以及模型參數對泛化誤差的影響;進行了模型的對比實驗驗證和被測工件動態誤差修正試驗,成功地實現了任意二面角和圓分度的實時誤差修正。 -
A review with 37 references is given on the recent progress of selenium species analysis with emphases to the methods of separation and examination technology, e. g, chromatography, the hydride genetic method, inductive coupling plasma mass spectrum, the atomic spectrum
摘要對近年來有關硒的形態分析的發展作了綜述,對新的分離方法如色譜法、氫化物發生法、毛細管電泳和新的檢測技術如電感藕合等離子體質譜、原子光譜給予較多的關注。 -
Proteome techniques have widely been applied to the fields of plant genetics, plant development, and plant physiology and ecology to investigate plant genetic diversity, plant development such as seed maturation and germination processes, differentiation of plant tissue and organ, separation and functional identification of novel component of various organells, mechanisms of plant adapted to abiotic or biotic stresses including high temperature, low temperature, high salt, drought, and pathogens and insects, and interaction of plant with microbe
摘要蛋白質組技術已廣泛應用於植物遺傳、發育和生理生態等諸多生物學領域,主要研究植物的遺傳多樣性、植物發育(如種子成熟與發芽過程) 、組織器官的分化過程、不同亞細胞結構的新蛋白組分的發現及其功能鑒定、植物對非生物逆境(包括高溫、低溫、高鹽和乾旱等)和生物逆境(病蟲害)的適應機制和植物與微生物(根瘤共生體)相互作用機制。
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