sensory development 中文意思是什麼

sensory development 解釋
感覺發展
  • sensory : adj. 1. 感覺(上)的。2. 【生理】感官的;知覺器官的。n. 感覺器官〈又作 sensory organs〉。
  • development : n. 1. 發展,發達;進化。2. 展開;擴充;開發。3. 發達物,新事物,發展階段。4. 【生物學】發育(史);【軍,數】展開;【攝影】顯影,顯像;【音樂】展開(部);研製,研製成果。
  1. We concluded that ( 1 ) motion asymmetry correlates closely with early - onset eye disorders that hinder the normal development of binocular vision ; ( 2 ) motion asymmetry correlates less with pure amblyopia ; ( 3 ) motion asymmetry is not unique to infantile esotropia syndrome ; ( 4 ) persisted motion asymmetry in adult is acquired rather than gene - determined ; ( 5 ) motion asymmetry may not be the cause of strabismus ; ( 6 ) motion asymmetry my not be secondary to disorganized nondecussated optic pathway and ( 7 ) motion asymmetry is an overall immaturity of sensory - motor pathway

    我們的結論是: ( 1 )任何早發性眼科疾病,假如阻礙了正常的雙眼視覺發育,則造成不對稱的運動覺; ( 2 )運動覺不對稱並不直接和弱視本身相關聯; ( 3 )運動覺不對稱並非幼兒型內斜視專有的特徵; ( 4 )成人的運動覺若不對稱,是視覺發育過程中受到阻礙造成,而非遺傳而來的; ( 5 )運動覺不對稱並非斜視的原因; ( 6 )運動覺不對稱的原因並非來自視覺神經路徑上太多的非交叉視覺神經; ( 7 )運動覺不對稱是向感覺到運動總體視路徑發育不全所造成的結果。
  2. Glial cell line - derived neurotrophic factor ( gdnf ) was originally isolated based on its potent and specific ability to promote the survival and morphological differentiation of dopaminergic neurons and motoneurons in embryonic midbrain cultures. in addition, gdnf also support the survival and regulate the differentiation of many peripheral neurons, including sympathetic, parasympathetic, sensory and enteric neurons. gdnf also plays a crucial role outside the nervous system, as a morphogenetic factor in kidney development and as a regulator of spermatogonia differentiation

    Gfr 1與gdnf結合位點的研究膠質細胞源性神經營養因子( gdnf )對多巴胺能神經元、運動神經元、感覺神經元、腸道神經元等多種神經元具有促進存活及保護作用,它還能促進腎臟的發育和精原細胞的成熟,因此,極有希望用於治療神經損傷和神經系統退行性病變。
  3. Ultra - violet light is known to contribute to the accelerated aging of the outer layers of the eye and the development of cataract. while intense visible light damages the eyes photosensitive cells, thereby impairing their photo - sensory functions, infrared radiation literally cooks the sensitive tissues in the eyeball, and can precipitate the formation of small blind areas in the retina in extreme cases

    紫外線會縮短眼球外部組織的壽命及導致白內障可見光會破壞眼內的感光細胞,減低甚至完全摧毀它們的感光能力紅外線則會灼傷眼球內的組織,嚴重的話更會形成細小的盲區。
  4. This provides support for a focus on certain types of behavioral measures including sensory - motor skills as anchor points in the development of instruments for screening chinese children who may have reading difficulties

    這個發現為設計有效的測試方法,去診斷華人兒童是否在閱讀方面存在障礙,提供了指導原則。
  5. Helped the haven of hope sunnyside school in tseung kwan o build the first sensory garden in hong kong, to give mentally - handicapped students an outdoor facility that aids the development of sensory perception

    協助將軍澳靈實恩光學校興建全港首個感官花園,為校內嚴重弱智學童提供一個課堂以外的戶外治療空間,改善他們的感覺能力。
  6. Presents the perception mechanism of virtual humans based on a dead - reckoning algorithm to overcome the drawback of the synthetic vision approach, promotes the study of perception techniques in behavioral animation, and lays the foundation for the behavior control study for virtual humans, and points out that with the development of behavioral animation in more than one decade, researchers have been more and more convinced of the importance of the behavior study for virtual humans ; perception mechanism is the core of the above study ; the perception mechanism for virtual humans has been generally founded by the sensory approach, not by the synthetic vision approach because the complexity of virtual human itself and the dynamic quality of environments make it difficult to transmit visual information between virtual humans in multi virtual human environment like a virtual war field

    近十幾年來,隨著對行為動畫研究的開展,研究者們越來越認識到行為研究對虛擬人研究的重要性.感知機制是虛擬人行為研究的核心,迄今為止研究者們一般採用傳感器方法而不是合成視覺方法建立虛擬人的感知機制,這是因為在象虛擬戰場這樣的多虛擬人環境中,虛擬人本身的復雜性、環境的動態性,使得虛擬人間可視信息的傳遞很困難.為了解決這個問題,提出了基於位置推算演算法的虛擬人感知機制.該項研究彌補了合成視覺方法的不足,豐富了行為動畫中感知技術的研究,從而為虛擬人行為控制的研究奠定了基礎
  7. Robot soccer game is the booming high tech activity in these years, as the product of high tech development, robot soccer game is the combination of robotics technology, intelligent control, communication, computer technics, sensory technics, photography processing, human life

    機器人足球比賽是近年來在國際上迅速開展起來的高技術對抗活動。作為高科技研究發展的產物,機器人足球比賽融入了機器人技術、智能控制、通信、計算機技術、傳感器技術、圖像處理、機械電子學、人工生命等跨學科的高新技術。
  8. Topics : development of the nervous system and its connections, cell biology or neurons, neurotransmitters and synaptic transmission, sensory systems of the brain, the neuro - endocrine system, the motor system, higher cortical functions, behavioral and cellular analyses of learning and memory

    探討主題包括:細胞層面的神經系統發育過程及其內部連結情形、神經細胞、神經傳遞物質和突觸傳遞過程、大腦的感覺神經系統、神經內分泌系統、運動神經系統、大腦皮質的進階功能、學習與記憶的行為觀點與細胞層面分析。
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