神經迴路 的英文怎麼說
中文拼音 [shénjīnghuílù]
神經迴路
英文
neural circuit-
Axoplasmic transport of nerve fibers ; nutrition of nerve fibers ; the function of neuroglia cells ; eletrical synapse ; contact ways of central neurons ; local circuit neurons ; central facilitation ; body sensory afferent pathway, visceral sensation ; the regulation system of somatic motor, the central regulation of visceral sensation ; pain sensation ; the function of basal ganglia ; evoked cortical potential and electroencephalogram
神經纖維的軸漿運輸;神經纖維的營養;神經膠質細胞的功能;電突觸;中樞神經元的聯系方式;局部迴路神經元;中樞易化;身體感覺傳入通路,內臟感覺;軀體運動的調節系統,內臟活動的中樞調節;痛覺;基底神經節的功能;皮層誘發電位和腦電圖。Neurons got - got - got exposed and circuits got rewired
剝離出腦細胞,將神經迴路重新搭接Neurons got - - got - - got exposed and circuits got rewired
剝離出腦細胞,將神經迴路重新搭接On the other hand, inhibitory areas of ftc could be abolished partially or completely during bicuculline application. these results showed that gabaergic inhibitory afferent projections to recorded neurons were activated by random resonance caused by weak noise in cochlea, which provided inhibitory input for sharpening frequency tuning and made neuron more precisely analyze sound signal near its bf. therefore, this experiment presented a possible evidence of cellular level for interpreting why human and animal could extract or capture sound signal of specific frequency from the environment with competing noise
說明山弱噪聲引起的耳蝸隨機共振在_ _仁行傳入過程中可能激活了至所一記錄的jc神經元的gaba能抑制性神經迴路,這種gaba能抑制為銳化神經元頻率調諧提供了一種抑制性輸入,使ic神經元對靠近最佳頻率的頻率分析變得更為細致和精確,由於聲頻率是聲信號的重要參數和信息載體,頻率調諧的銳化意味著對聲頻率分析能力增強,從而為解釋人們為什麼能從充滿噪聲的環境中捕捉或提取與行為學相關的信號提供了一種細胞水平的實驗證據。In this paper, the author summarized the morphological features and functions of the ependymal and supraependymal ultrastructural structure, which is the main structural basis of " brain - csf neurohumoral circuit "
本文對「腦腦脊液神經體液迴路」的主要結構基礎室管膜和室管膜上超微結構的形態學特點及功能進行綜述。Combined with a large number of animal experimentations and clinical observations, some scholars proposed a special information communication netwoks, known as " brain - csf neurohumoral circuit ", which can exchange the substance and information
結合大量的動物實驗和臨床觀察,有學者提出了由這種物質和信息交流所構成的一種特殊的信息交流網路「腦腦脊液神經體液迴路」 。Secondly, considering the complexity of cement rotary kiln system, we build up the models of this system with the integration techniques of artificial neural network and expert system. the improved ebp neural network algorithm is used in this system
第二,根據水泥回轉窯系統具有多變量、多迴路、非線性、分佈復雜和經典數學模型難以建立的特點,運用神經網路與專家系統集成技術對預分解窯系統進行了建模與研究。( 2 ) a fuzzy - neural network multiple - variable control algorithm has been brought forward. it separately controls the two loops at the side of the boiler and at the side of the turbine, eliminates or reduces the coupling of each loop by the single - layer neural network
( 2 )提出了一種基於rbf神經網路的模糊神經網路多變量控制演算法,分別對鍋爐側和汽機側兩個迴路進行控制,並通過一個單層神經網路的協調級來消除和減小各迴路的耦合影響。Plasticity of the emotional circuitry
情緒神經迴路的可塑性The action balance permanently changes the neurological pathway of our emotional experiences, hence helps us to retain our new choices in a deeper level
教育肌動學的整合活動可以重新改寫我們體驗情緒的神經迴路,讓我們可以更自然地做新的選擇。Individual behaviors share much of the same neural circuitry, and how the circuitry behaves ( and therefore the animal behaves ) is dependent on hormonal, motivational, circadian, sensory, etc. etc. etc. inputs the circuit receives
不同的個體的行為具有很多相同的神經迴路,並且迴路如何運轉(因此動物的行為)依賴激素、動機、晝夜規律、感覺等迴路接收到的輸入信號。In the present work, we investigated the synaptic plasticity and neural circuitry in the outer retina using the electrophysiological method and model analysis
本論文從實驗和模型兩方面研究了視網膜外網狀層的突觸可塑性和神經元迴路。Research of neural networks control of two loops marine diesel engine generator set system
船舶柴油發電機組雙迴路系統神經網路控制研究Using the sampled controlling parameters of the aircraft under pure proportional navigation ( ppn ), the thesis designs the corresponding discrete input signal of the guidance controller under the inside demand of the pursuing control, and trains a module of rbf off - line. then, the module is inserted into the control system of the aircraft and acted as its control input in order that the optimal function of the aircraft under ppn can be realized
在分析比例導引律導引載機追蹤/截獲目標的狀態軌跡的基礎上,闡述徑向基神經網路的非線性功能特點,根據載機追捕目標的內在要求,設計並訓練徑向神經網路模塊,嵌入載機導引器的控制迴路,實現優化載機導引控制。In this paper, a new type neural network construction and algorithm was studied. based on this, the neural network was applied as controller to the single loop and the double loops of aero engine in steady state. by the way, elementary study was applied for the aero engine transient state control
本文研究了新型神經網路的結構和學習演算法,並在此基礎上,研究了將神經網路用於航空發動機單迴路和雙迴路穩態控制問題,並初步研究了航空發動機單迴路過渡態控制中神經網路的適用性。Based on the simulation result, a conclusion was drawn : the neural network can satisfy the control requirement for the single loop steady state under the parameters varying. realized the decouple and control requirement for the double loops steady state, the coupling between the parameters was decoupled
通過模擬可以看出,利用神經網路進行在線學習、在線控制,它可以在發動機對象參數不斷變化的情況下,對單迴路穩態控制可以達到控制要求,對雙迴路穩態控制,可以實現系統的解耦控制,使系統變量之間的耦合基本消除。分享友人