面部測量距離 的英文怎麼說

中文拼音 [miànliáng]
面部測量距離 英文
distance in facial measurement
  • : Ⅰ名詞1 (頭的前部; 臉) face 2 (物體的表面) surface; top 3 (外露的一層或正面) outside; the ri...
  • : Ⅰ名詞1 (部分; 部位) part; section; division; region 2 (部門; 機關或組織單位的名稱) unit; mini...
  • : 動詞1. (測量) survey; fathom; measure 2. (測度; 推測) conjecture; infer
  • : 量動1. (度量) measure 2. (估量) estimate; size up
  • : Ⅰ名詞1 (距離) distance 2 (雄雞、雉等的腿的後面突出像腳趾的部分) spur (of a cock etc )Ⅱ動詞...
  • : Ⅰ動詞1 (離開) leave; part from; be away from; separate 2 (背離) go against 3 (缺少) dispens...
  • 面部 : face
  • 測量 : measure; survey; gauge; meter; measurement; measuring; surveying; mensuration; metering; gauging;...
  • 距離 : 1 (相隔的長度) distance; range; gap; space; spacing; separation 2 (相距) be apart from; be aw...
  1. By using both the prediction model from transportation ministry and the fhwa models, the prediction results were analyzed for high ways at different sections, different design speeds, detection points, traffic volumes, distances, heights, and at various other road conditions. the prediction results and the actual results were compared and the accuracy of prediction were assessed

    本文通過比較分析了fhwa預模式和交通模式在高速公路不同監路段、設計時速、點、車流、高差、地狀況條件下的預結果,並對預結果和實結果進行預精度和變化趨勢的比較研究。
  2. This paper unite surveys works in dong gua shan mines construction under 1 km place researching four key technology in mine s survey, they are construction survey technology in km deep mine, km deep mine s connected survey technology, km deep level survey technology of longer distances link up in many heads opening and basic control survey technology, km mine s extension when the production must go on accurate fixed position survey technology, and all obtained success

    本文結合在千米以下冬瓜山銅礦建設時期的工作,研究了深礦山四個方的關鍵技術,即千米深井施工技術、千米深井聯系技術、千米深井中段多頭開拓長貫通和基本控制技術、千米深井不停產延深精密定位技術,並取得了成功的效果。
  3. Which combines four acceleration techniques : fast detection of overlapped regions by reverse calibration, more - careful selection of control points, fast surface closet point computation with closet vertex caching and compatibility test of pairing points based on the difference of modulation

    針對兩幅像間的配準,我們分別從重疊區域檢、控制點選取、對應點計算和對應點有效性檢查四個方提出了多種加速方案,從而實現了大數據像的快速局配準。
  4. Measure the spacing between the bottom of depth wheels and the surface ? the result is approximately the embedding depth

    深度控制輪底與安裝設備放置平就為大致的埋設深度。
  5. Methods : the anatomic relationship between the cross point ( a ) of the sigmoid and the transverse sinus and the asterion ( s ), the cross point of the perpendicular and the horizontal ( b ) and point of the fissure of the occipital - mastoid at the fundus of the mastoid ( c ) were determined. then the length of a - s and b - c were measured. results : ( 1 ) the a point was lateral and inferior to the asterion, 10. 8 + 1. 1 mm on horizontal plane, 3. 5 + 0. 7mm on the longitude plane

    方法:確定橫竇和乙狀竇的交界內下緣比點)和星點(枕乳縫和人字縫交叉點, s點)的解剖關系;乙狀竇垂直和水平交匯處內下緣舊點)和枕乳縫乳突基底水平處點)的關系。as和b c點的。結果: l橫竇和乙狀竇交點的位於星點外下方,橫斷上,平均為10
  6. It can construct a reference path with lowest danger for the uav ( unmanned aerial vehicle ) by accounting for some aircraft performance characteristics, the mission goals, the threat information and the terrain information. this paper puts emphasis on the study of path planning algorithms and the analysis of uav missions. the main contributions are summarized as follows : ( 1 ) the threat environment, mainly as the radar threat, is studied and the detection probability of the aircraft is analyzed

    本論文主要根據無人機的作戰任務方式進行了航路規劃研究,包括攻擊航路和偵察監視任務航路,具體內容包括以下幾個方: ( 1 )本論文分析了威脅空間的威脅計算問題,對飛行器探概率進行定化的研究,根據恆虛警處理技術對雷達探概率計算方法進行了總結,說明了計算單雷達探概率問題的方法,在此基礎上對雷達網的探概率計算進行了討論,提出了相對于的探概率求解方法和思路,用於攻擊航路規劃中的威脅計算。
  7. Horses are measured in hands one hand equals 4 inches. the height of a horse is measured from the ground to the highest point of the withers the part of a horse ' s back between its shoulder blades

    馬是用手來的:一手掌之寬相當於4英寸。馬的高度可從地到馬肩隆馬背上兩個肩胛骨之間的分最高處的
  8. Labeling is based on a model that suggests the informative pattern has structure as a spatial arrangement of events, each spatial event being a set of connected pixels

    一旦識別了某一物體或組成物體的若干分,就可以進行各種度(比如兩分之間的,兩條線之間的角度或是一個分的積)並與允許值相比較,就像檢過程那樣。
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