船首向航向 的英文怎麼說

中文拼音 [chuánshǒuxiànghángxiàng]
船首向航向 英文
heading
  • : 名詞1. (水上的運輸工具, 船舶的通稱) boat; ship; vessels 2. (姓氏) a surname
  • : Ⅰ名詞1 (頭) head 2 (首領) leader; head; chief 3 (表示方位) aspect 4 (姓氏) a surname Ⅱ動...
  • : Ⅰ名詞(船) boat; shipⅡ動詞(航行) navigate (by water or air); sail
  • 船首 : stem; bow; backbone; prow; forebridge; bow tie
  • 航向 : azimuth; heading; course (of a ship or plane); desired track
  1. They were, says mr stephen, and the end was that the men of the island, seeing no help was toward as the ungrate women were all of one mind, made a wherry raft, loaded themselves and their bundles of chattels on shipboard, set all masts erect, manned the yards, sprang their luff, heaved to, spread three sheets in the wind, put her head between wind and water, weighed anchor, ported her helm, ran up the jolly roger, gave three times three, let the bullgine run, pushed off in their bumboat and put to sea to recover the main of america

    「此語不差」 ,斯蒂芬先生曰, 「其結果,本島男子發現負情女子異口同聲,無可救藥。遂建造舟筏,攜家財登,桅桿盡皆豎起,舉行登舷禮,轉風,頂風停泊,揚起三面帆,在風與水之間挺起,起錨,轉舵左,海盜旗迎風飄揚,三呼萬歲,每次三遍,開動艙底污水泵,離開兜售雜物之小舟,駛至海面上,往美洲大陸。 」
  2. The frigate fired a warning shot across the privateer ' s bows to make her heave to

    快速戰艦私掠上空發炮警告,命令她停
  3. There are many sorts of the modern dredgers, to adapt the various working regions, and soil conditions etc. it is inevitable to select to build the large self - propelled trailing suction hopper dredgers for shanghai channel bureau, because of the developments of the big - scale ports and channels at home and abroad, and the bad working conditions offshore, and the business direction

    現代挖泥有各種類型,它們適用於不同的施工區域與土質等工況條件。世界與國內港口道的發展愈來愈體現出規模大,外海推進和施工條件惡劣的特徵,從上海道局的企業經營定位出發,建造大型自耙吸挖泥選方案。
  4. In this paper, an approach of the systematic artificial neutral net was introduced into the analysis on the ship - against - bridges probability with a computer programs. based on the basic data of the present 12 typical bridges as the sample, 4 chief influential factors as the input coefficient, such as the bridge span, the water flow rate, the incline angle between water flow direction and the direction normal to bridge axis, and the curve in the course near the bridge area, with the ship - against - bridge probability as the output coefficient, the intelligent judging system of the ship - against - bridges probability reflecting the influence of the above input parameters is obtained after training

    本文次將人工神經網路系統方法引入了撞橋概率的研究當中,編制了計算程序,成功地以現有12座典型橋梁的基礎數據為樣本,以橋梁跨徑、水流流速、水流方與橋軸法線的夾角以及橋區道彎曲度等4個撞橋主要影響因素為輸入參數,以撞橋概率為輸出參數,經訓練得到了能較好地反映上述輸入參數影響的撞橋概率判斷系統。
  5. China ' s first astronaut yang liwei walked out of the re - entry capsule of the shenzhou 5 spaceship, smiling and waving to the recovery team in the grasslands in gobi desert, inner mongolia

    「神舟」五號天飛在內蒙古草原順利著陸,中國位宇員楊利偉面帶微笑走出返回艙,並搜救人員揮手致意。
  6. In ship steering controller design, the nonlinear ship model should be written in siso strict feedback form. we start the recursive design with the system first state variable and continue with the second one. by introducing a change of coordinates, we choose lyapunov functions to stabilize the system and obtain the control law

    控制方面,考慮舶的穩態回轉非線性,應用backstepping方法設計:先把系統化成單入單出的嚴格反饋控制形式(呈下三角結構) ,假設系統后一個狀態變量是前一個狀態變量的虛擬控制,通過適當的變量代換,在每一步構造李亞普諾夫函數,使前一子系統在虛擬控制下漸近穩定,逐步遞推出控制器控制規律,使整個系統在平衡點滿足一致漸近穩定性。
  7. At the same time, figures involving attribute data about flow field at inlet and outlet downstream or wave motion of water at the downflow head of lock chamber of siyang navigation lock were displayed through gis application system which we developed. according to data of baoying navigation lock acquired by mathematics model, figures about velocities which have the same value, velocities toward cross direction which have the same value and flow field at inlet and outlet upstream were formed. achievement data, space information and attribute information were in connection with figure so as to search for and analysis the information, which is satisfying

    同時完成了江蘇泗陽閘下游引道非恆定流及其改善措施的計算分析研究和寶應閘上游引道口門區水流條件計算分析研究,運用gis技術和所設計的gis應用系統對泗陽閘下游引道內流場以及下閘水位波動情況進行信息顯示,根據對寶應閘的計算結果生成上游引道口門區等流速圖、橫流速等值線圖和流場圖,使計算分析成果數據、空間信息、屬性信息與圖形顯示有機結合,便於查詢分析,效果令人滿意。
  8. Considering the shortcomings in the genetic algorithms, some improvements are proposed in order to elucidate its strong optimizing ability, genetic algorithms are used to optimize the pid parameters of ship autopilot. the comparison between the different simulation curves shows the validity of genetic algorithms in looking for the best parameters

    本文先用遺傳演算法來對保持自動舵的pid控制參數進行在線優化,通過對用常規工程方法整定的pid控制和用遺傳演算法優化的pid控制的模擬曲線的比較,說明了遺傳演算法強的全局尋優能力。
  9. We can n ' t get result on how to change course and speed to make collision avoidance, this can help little on collision avoidance decision. the article aims at the default on radar simulator and implements the standard result on radar simulator by making use of mcu. the main production is below : first, we calculate how to chang course and speed on the destine point by mcu. we get the new course and new speed on the destine point, we get the point to resume original course and speed, we get the distance and azimuth to resume original course and speed on given course and speed, the six essential : dcpa, tcpa, distance, azimuth, real speed and real course

    本論文針對當前雷達模擬器標繪訓練中的不足,實現了利用單片機進行雷達模擬器標繪標準值的計算,主要成果有以下方面:先,利用單片機計算得到了在預定點改變和改變速的計算,求得預定點改的新c _ n和預定點變速的新速度v _ n ,恢復原和原速的時機點的計算;在給定避碰的新速的條件下,計算出恢復原速的時機點h的距離r _ h和方位_ h ;目標的六要素,即dcpa 、 tcpa 、距離r ( t ) 、方位( t ) 、真速v _ t和真c _ t 。
  10. So, our team had not the chance to move horizontal on the mast when the ship was moving. about the 1, 200 meters running, the way was not clear and there is no enough instructors or staffs to direct the 36 trainees, it resulted in most trainees lost the way and failed to finish the 1, 200 meters that included me. according to the environment, city challenge instead of field challenge, camp on beach replaced sole stay in mountain, the tend of wind delayed the sailing schedule and it cancelled the raft race, it took away our opportunity of learning how to make raft by bamboo and large plastic tub

    先是頭跳水,在港,正好鯊魚旺季,暫停營業,到了日本,又逢港口管制,被逼休假;而離港啟個節目,本應是在行進的上,爬上桅桿,再橫行桿上,學習解帆,雖然桿是上盡了,但雨卻落下來,要轉帆,於是橫行桿上學習解帆這等壯觀場面,我們全組都無緣參與;再來是千二米長跑,指示不清,路線不明,以致多人迷路,被逼半途而廢;接下來的野外定,因就地利,變身為城市挑戰;山中獨處換了沙灘露宿;風延誤了程,阻止了木伐競渡。
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