運動過多 的英文怎麼說
中文拼音 [yùndòngguòduō]
運動過多
英文
acrocinesis-
For more than 2, 000 years, the olympic games have set the scene for competition and camaraderie, endurance and excellence
奧林匹克運動會起源於二千多年前,運動員通過比賽較量,建立友誼,展現堅忍不拔、超越自我的奧林匹克精神。Many dunhuang paintings of the sixth century, joined western chiaroscuro technique to chinese linear style, the artist generated three - dimensional volume and movement through thickening - and thinning calligraphic brush lines without the help of color or shading
許多6世紀敦煌壁畫將西域的明暗技法跟中國的線條用筆結合起來,畫家不藉助於色彩和陰影而是通過粗細有致的書法線描展現了他們對體積和運動的三維認識。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。The decision - making subsystem is the core of mas cooperation theoretic research and application ; its target is to resolve cooperation and motion problem of robot. the wireless communication subsystem makes the decision - making subsystem communicate with soccer robots. the soccer robot subsystem is the executive part of the system
決策子系統主要解決比賽過程中機器人之間的協作和機器人運動控制的問題,是多智能體協作理論研究和應用的核心;無線通信子系統完成決策子系統與機器人之間的數據通信,把控制命令發送給各個機器人;足球機器人子系統接收控制命令,按要求完成各種戰術動作,是系統的執行機構。Although he was never an olympian himself, he paved the way for many talented chinese lifters, ranging from flyweight to super heavyweight, to succeed in the olympics
盡管他自己從未參加過奧運會,但他為許多才能出眾的中國舉重運動員(不管是次輕量級也好,超重量級也好)在奧運會上獲得勝利鋪平了道路。After crossing by a forced march behind pahra to the tula road, the generals of the russian army intended to remain at podolsk, and had no idea of the tarutino position. but an infinite number of circumstances, among them the reappearance of french troops on the scene, and plans for giving battle, and most of all, the abundance of supplies in kaluga, led our army to turn even more to the south, and to pass from the tula to the kaluga road to tarutino, a central position between their lines of communication with their supplies
冒險渡過帕赫拉河向圖拉大路運動時,俄國軍隊的司令官們曾打算在波多爾斯克停留下來,並沒有考慮塔魯丁諾陣地,但是,無數的情況和先前不知俄國軍隊蹤跡的法國軍隊的再次出現作戰計劃主要是卡盧加的糧秣充足,迫使俄軍向南移動,向給養所在地的交叉路口轉移,從圖拉大路轉到卡盧日斯卡雅大路,直趨塔魯丁諾。On the basis of modern blasting theories, the moving process of explosive stress field of multi - row and simultaneity is analyzed and the characteristics of stress field inspired by equivalent effect cell of globosity charge in cylindrical charge structure are considered. thus energy distributing equation of detonator explosion is established and the explosive energy utilizing rate factors are known. so the moving process model of the hole filling is constructed and the equation of calculating reasonable filling length is produced
本文在現代爆破理論的基礎上,分析了多排同段爆炸應力場的作用過程以及柱狀裝藥結構中等效單元球狀藥包所激發的應力場特點,建立了炸藥爆炸能量分佈方程,明確了影響爆炸能量利用率的因素,構建了炮孔充填物運動過程模型,得出計算合理充填長度方程。But in order to get the highest precision of velocity measurement, besides the consideration of the performance of the velocimeter, the influence of heave, roll, pitch motion of the submarine in the march progress should be included
還要考慮潛艇在行進過程中的升沉、搖擺運動對多普勒測速的影響,進而對多普勒測速儀的原始測速數據進行修正。針對上述兩方面的研究內容。The precious method to simulate earthquake accelerations is not perfect because the points on the interface still move according to the simulated acceleration when the points " motion ends, which is obviously a paradox. if the points " velocity is not zeroized, soil ' s damage value based on shear stress ' s peaks or extrema is overestimated in multi - point input analysis. the new method ' s rationality is analyzed
以往人工合成的地震波在地震結束時即地震加速度恆為零時速度不為零,這與合成地震動是「模擬輸入點從靜止到運動再到靜止的運動過程」這一要求不一致,同時導致時域內多點輸入分析時差動力過大以至算出的損傷值過大,於是本文提出了簡易的地震動速度歸零化方法並分析了其合理性。Results : 36 cases undergoing poor immobilization and excessive movement of fracture ends ; 30 cases undergoing serious destruction in blond supply ; another 16 cases undergoing infection
結果:其中36例因為骨折固定不堅固,斷端活動過多導致不愈合, 30例因為骨折端血運破壞明顯引起骨折不愈合,另外還有16例是由於感染所造成。Visual analysis of human motion has been receiving increasing attention from researchers in the fields of image processing and computer vision during the past few years. it has a lot of applications in virtual reality, smart surveillance system, advanced user interface, motion analysis and video compressing, etc. this paper focuses on the technology of human motion tracking based on video, first, we make a summarization of the domestic and overseas status of the research in this field. on the basis of this, we analyse the technical difficulties of human motion tracking. as most of the existing model - based methods of human motion tracking perform not so good in some situation as they need mannual intervention, and also the precision of tracking is not so satisfying during the research of tracking of walking people because of the self - occlusion of legs, this paper proposes an algorithm of automatic detection and tracking of legs of the walking people based on monocular image sequences, in which we analyse the features of walking people, track the five joints of lower limbs, get various parameters, and then re - construct the walking process. the main research achievement is as follows : 1 ) we propose an algorithm of markerless automatic extraction of leg skeleton. first we divide the video into continuous image sequences, after background subtraction, the satisfying human region could be extracted, then we get a single - connected region by converting the rgb image to binary image and median filtering. afterwards, the contour of lower limbs in the frame with a widest boundingbox is detected, using sobel operator, to find the ankle joint of leg behind according to the features and rules of walking, then, the joint of knee of leg behind, hip, ankle of leg in front, knee of leg in front could be got in turn. so, model of leg skeleton is constructed
首先將視頻分解成許多連續的靜態圖像幀,經過背景去除,把感興趣的人體區域提取出來,通過二值化,中值濾波等預處理方法得到只有人體的一個單連通區域,然後用sobel運算元檢測出boundingbox最寬幀中人體下半身的輪廓,根據運動規律及特徵找到後腿踝關節點,結合從boundingbox最窄幀中所獲取的腿長依次得到後腿膝關節,跨部關節,前腿踝關節,前腿膝關節四點,從而構建出腿部骨架模型。 2 )實現了人體步行腿部骨架的跟蹤演算法。在完成對腿部骨架模型的自動初始化之後,本文對跨關節、膝關節及踝關節分別採用運動建模、圓周相交定點演算法、運動預測及預測點周圍搜索rgb相似矩形塊三種方法確定每一幀中其實際坐標,從而重構出腿部骨架的運動過程。But some of them worry that his acquisition of the journal ' s op - ed pages ? the bible of american conservatism ? will give him too much power over the movement
但他們中有些人擔心,他對《華爾街日報》社論版的收購? ?美國保守勢力的《聖經》 ? ?會給予他影響這場運動過多的權力。Abstract : based on the conceptual two - flow model and pic numerical solution method developed in the companion paper, the present paper further investigate the model application in simulation of the typical debris flows. the model validation was carried out with the experimental data obtained by other investigators at dongchuan debris flow observation and research station in yunnan province. predictions were made in terms of the main controlling facetors including the channel slope, flow density and time interval between two blasts of debris flows. the predicted results could well reflect the observations reported by the geographers and sedimentologists
文摘:採用文獻[ 1 ]中提出的陣性泥石流運動與堆積的歐拉-拉格朗日模型,模擬了陣性泥石流的運動過程和堆積形態,得出了與地學研究中觀測結果較為一致的認識.文中針對影響陣性泥石流的關鍵條件,重點通過改變密度,坡度和各陣泥石流的時間間隔等參數,分析了這些參數變化對泥石流運動及堆積規律的影響,提出了簡化分析整個陣性泥石流的條件.研究表明,應用經試驗資料驗證的數學模型不但可以方便、快捷地定量描述陣性泥石流的一般特性,而且能夠提供關于陣性泥石流運動及堆積的更多細節It is necessary to study the movement of the ionospheric irregularities through many different methods which is very important for the production of the ionospheric irregularities
故需要通過理論分析、數值模擬、實驗測量等多種手段對電離層不規則體的形成及運動過程加以研究。Based on the actual biology settling, kinesin moves along microtubule which is constructed from asymmetrical o and p protein subunits which array periodically, so the microtubule ' s structure is also asymmetrical and periodical. during the motion, kinesin ' s configuration changes in a dynamic - chemical period in which there are several dynamic - chemical states for the motor, and the transitions are random between state and state to a certain extent
根據實際的生物背景,驅動蛋白沿微管作定向運動,構成這些微管的蛋白亞基順序排列,形成非對稱的周期性結構,且驅動蛋白在運動過程中構象發生了變化,在一個力學和化學循環中要經歷多個中間態,各個態之間的躍遷具有隨機性。Thirdly, ways to improve the ability for mobile robot to percept environment are also discussed. an uncertain model for mobile robot to percept environment is put foreword and two iso - vision system ( tivs ) is designed. furthermore, tivs localization model, two vision information fusion algorithm and
設計了一種移動機器人感知信息獲取模型,研究開發了雙目異構視覺系統( tivs : twoiso - visionsystem ) ,分析了tivs的局部定位模型、雙目信息融合方法,重點研究了基於tivs的montecarlo定位演算法,以解決機器人在運動過程中同時觀測較大視野范圍內多個動態目標的問題。Through the images provided, users can choose different spots to find their own parents, including the restaurant, library, gym, multimedia meeting room and leisure room
通過所提供的影像,人們還可以選擇不同的位置找到自己的親人:包括餐廳,圖書室,運動室,多媒體會議室和休閑室。Often humans will run too much yin or yang energy leading to imbalance, which causes the field to unground or wobble
經常的,人們會運作過多的陰或陽能量,帶來不平衡,這導致能量場不能錨定或擺動。The multi rigid - body mechanism model of bionic kangaroo - leaping robot was abstracted ; taking this as a base and applying the kane method to establish the dynamics equation of bionic kangaroo - leaping mechanism, and gives out the computation formulae of driving moment of each join in the kinematical course of kangaroo leaping robot
摘要抽象了仿袋鼠跳躍機器人多剛體機構模型,在此基礎上,應用凱恩方法建立了仿袋鼠跳躍機構動力學方程,給出了袋鼠跳躍機器人運動過程各關節的驅動力矩的計算公式。Secondly, the driver is designed by studying spi, motors controller and the the embed linux kernel. and the put the driver into the embed linux operating system. thirdly, on the base of the motor controller and the driver, the api function and bottom control function is designed studying the motors characteristics
再次,在完成多電機控制器及其驅動程序的基礎上,根據仿生康復手需要實現的康復功能及其硬體特性,開發了相應的api函數和底層控制函數,用來實現仿生康復手的各種康復運動和對運動過程中數據的採集、保存等操作。分享友人