飛行機器人 的英文怎麼說

中文拼音 [fēihángrén]
飛行機器人 英文
robotlying robot
  • : Ⅰ動詞1 (鳥、蟲等在空中活動) fly; flit 2 (利用動力機械在空中行動) fly 3 (在空中飄浮遊動) fly...
  • : 行Ⅰ名詞1 (行列) line; row 2 (排行) seniority among brothers and sisters:你行幾? 我行三。where...
  • : machineengine
  • : 名詞1. (器具) implement; utensil; ware 2. (器官) organ 3. (度量; 才能) capacity; talent 4. (姓氏) a surname
  • 飛行 : flight; flying; aviate; voyage; volitate; hop
  • 機器人 : robot
  • 機器 : 1. (用來轉換或利用機械能的機構) machine; machinery; engine 2. (引申為機構) apparatus; organ
  1. Based on the frequent occurrence of international aerial crimes, the rampancy and cruelty of criminals and the reality of brutal consequence, the essay analyses the features of the crime of aircraft hijacking, the crime of imperiling international civil aerial security and the crime of obstructing international aerial navigation with the component terms from three important international conventions on punishing aerial crimes in order to help people to appreciate the appearance and the essence of typical international aerial crimes deeply, to regard the motion of the crimes and to overwhelm the offence forcefully. based on the core of the legislative status of international civil aerial security, the jurisdiction of the aerial crimes, one emphasis of the article is to clarify concrete clauses on jurisdiction in the three conventions and analyses the important principle of " aut reddere, aut punire ". based on the problems on the jurisdiction of crimes in international society, it quests the implementation of t he principles of jurisdiction, pleading and extradition in the three conventions deeply

    基於目前國際社會航空犯罪時有發生,犯罪分子猖獗狠毒,危害後果十分殘重的現實,本文從國際社會關于懲治航空犯罪的三個重要國際公約(東京、海牙、蒙特利爾公約)中規定的各種航空犯罪的定義入手,深入展開了對劫持航空罪、危害航空安全罪、危害國際民用航空場安全罪的犯罪特徵及其構成條件的分析,以期幫助們更深刻認識這些典型的國際航空犯罪的表現及其實質,嚴密注視這些犯罪的動向,對其進及時有力的打擊;鑒于國際民用航空安全法律地位問題的核心是解決航空犯罪的管轄權問題,本文重點闡釋了三個公約關于管轄的具體規定,並側重分析了「或引渡或起訴」的重要原則;鑒于目前國際社會打擊國際航空犯罪管轄方面存在諸多實際問題,本文對公約規定的管轄、起訴、引渡原則的實現方式作了深入探討;鑒于各國在國內立法上對于空中犯罪的懲治、對違約國的制裁、對這類犯罪的預防措施等方面存在一些漏洞,本文根據目前掌握的一些資料,在獨立思考的基礎上,提出了一些不成熟的看法及建議,以期對國際社會懲治航空犯罪貢獻自己微薄之力。
  2. Because it ’ s hard to get radiation - harden hardware overseas, so the software fault tolerance techniques are significant for our national space enterprise. the computer platform of 863 plan project ” micro intelligent free - flying space robotic system ” consists of cots component. the orbit and the radiation environment of the robot are similar to ones of the argos satellite, and the system is required to have high reliability. therefore it ’ s necessary to applied the software fault tolerance techniques into the system to improve the anti - radiation capability after the techniques been verified valid

    因為我國很難從國外獲得輻射加固的硬體,所以,這項軟體容錯技術對我國航天事業的發展具有較大意義。 863計劃項目「小型智能飛行機器人系統」所用的計算平臺採用商用件,其衛星的運軌道與argos衛星軌道近似,面臨的輻射環境與argos衛星相似,要求具有高可靠性。因此,小型智能飛行機器人系統有必要在驗證sihft技術有效的基礎上,應用軟體容錯技術,提高其空間抗輻射能力。
  3. As we all known, the ballistic trajectory is a pilotless missile, which loads rocket engine and control system, these will drop the missile to the target along its ballistic

    眾所周知,彈道導彈是一種無駕駛的,它裝有火箭發動和控制系統,其目的是把導彈沿一定的彈道送到目標區。
  4. Uav ( unmanned aerial vehicle ) plays a more and more important role in national defense and civil life. so making researches on the uav flight controller design and the measurement and control techniques of uav is of theory, engineering and economical value

    在軍民兩用領域發揮著越來越重要的作用,進民用無控制設計及檢測與控制技術研究,具有理論意義、工程意義和經濟意義。
  5. The thesis analysed the chief technique problems and designed the solution algorithms, proposed measures of the software fault tolerance techniques suitable for the hardware platform of the robotic system on the base of studying the two key techniques - eddi and cfcss. first, the thesis has done the analysis in theory for the chief technique problems including basic block partition, software signature instructions generation, shadow instructions generation and instructions scheduling, proposed the algorithms suitable for the target platform. then, the thesis introduces the design process of the software fault tolerance

    本文在研究了sihft的兩項關鍵技術?復制簽名檢錯技術和軟體簽名控制流檢錯技術的基礎上,針對小型智能飛行機器人系統的硬體平臺,對軟體檢錯技術的關鍵問題進了分析並給出了解決問題的演算法,提出了適于小型智能飛行機器人硬體平臺的軟體檢錯技術方案。
  6. Q41. can the autonomous machine fly in the game field area

    比賽中自動可不可以在比賽區域
  7. The applications of real - time system are very popular in modern industrial process, for example, the monitor and management of power system, the flight control of spacecraft, the robot control and the field of force and so on

    在現代工業生產中,實時系統得到廣泛的應用,例如電力監控與管理,航空航天控制,控制以及軍事領域。
  8. The parallel robot has become a hot spot for a long time because of its simple structure, high stiffness, high precision, and low movement inertia. it especially adapted to the task, which required high precision, heavy load and limited space

    並聯具有結構簡單、剛度好、定位精度高、動態響應快等優良特性,特別適用於高精度、大載荷且工作空間較小的場合,在裝配生產線、高精密床、模擬、衛星天線換向裝置等等很多方面都有著巨大的應用價值。
  9. 5 the extensive special effects, especially of the space vehicles and the amazing fight scenes with laser swords, the range of strange characters from the hairyfaced chewbacca to the robots r2d2 and cp3o, and above the all the gripping story of the fight between opposing forces, gave the first star wars films a compelling look and a huge following among audiences worldwide

    范圍的特技效果,特別是太空和激光利劍驚的戰斗場面,從毛臉的楚巴卡到等各種各樣神奇的物,見其是正反力量之間扣弦的戰半故事,使最初的甲球大戰系列電影引注目並在全世界擁有眾多追隨者。
  10. But whereas uavs and their ground - based equivalents, such as the machinegun - toting sword robots, are usually controlled by distant human operators, the pentagon would like to give these robots increasing amounts of autonomy, including the ability to decide when to use lethal force

    然而,盡管遙控空中與諸如手提槍作戰之類的地面戰斗單位都由遠程操作員控制,但這次五角大樓決策將賦予這些械單位更多的自治權,包括自我決定何時使用致命殺傷力的能力。
  11. Another jedi, barriss offee, is cutting down a patrol of droids when a clone walking tank and seven clone troopers round a corner and blast the jedi away

    另一個絕地,芭麗絲?歐菲,正在砍殺一支巡邏隊的時候,一輛共和國步坦克及七名克隆士兵突然出現,炸了這位絕地。
  12. The design of aircraft cockpit, which acts as the man - machine interactive interface is of great research value. the author utilizing advanced cad technology, combining the intersecting knowledge with man - machine engineering, robotics, aero - human - engineering, etc, has exploited corresponding modules, such as the simulation of pilot manipulation, vision checkout, vision simulation, accessibility calculation, manipulation force calculation, and established a set of subsystem of aircraft - cockpit - design on the platform of catia

    本文利用先進的計算輔助設計( cad )手段,結合工程學、學、航空體工程學等邊緣交叉學科知識,在catia平臺上,利用其二次開發語言vbscript ,實現了相應的員操縱動作模擬、視界檢查、視覺模擬、可達性計算和操縱力計算等功能,初步建立起一套座艙設計cad子系統。
  13. Bionic design and experiment on flexible wings of a bionic flying micro - robot

    微小型仿生飛行機器人柔性翅的仿生設計與實驗研究
  14. The development and test on wing type of a bionic flying micro - robot

    仿生撲翼飛行機器人翅型的研製與實驗研究
  15. Precision transmission device is one kind of the key fundamental components, which are extensively applied to many industry fields including robot industry, machine industry, instrument industry etc. with the development of information technology and space navigation technology, especially the micro - miniaturization, speediness and automation of satellite communication, scouting the flying project, remote sensing and measuring and astronomic observation antenna system, more hard requirements are demanded on precision transmission

    精密傳動是一種重要的基礎性零部件,在床、儀儀表等工業領域有著廣泛的應用。隨著信息和宇航科學技術的發展,特別是衛星通信、目標跟蹤與攔截、遙感與遙測、天文觀察等天線系統的微小型化、快速化及自動化,對精密傳動提出了更高的要求。
  16. The flapping wing system of a bionic flying micro - robot based on insects and birds aggregates the lift, hovering and push functions, its kinematics and aerodynamics are different from that of fixed wing and rotational wing, and so bionic flying micro - robot must be studied from bionics initially

    摘要模仿昆蟲和小鳥的撲翼飛行機器人將舉升、懸停和推進功能集於一個撲翼系統,與固定翼和旋翼完全不同,因此研究只能從生物仿生開始。
  17. Yes. it can fly but when it takes up the cube, it should satisfy all the conditions in the rule book

    可以,除了取方塊其他時候都可以,當然必須在任何情況下都滿足比賽規則。
  18. A : yes. it can fly but when it takes up the cube, it should satisfy all the conditions in the rule book

    可以,除了取方塊其他時候都可以,當然必須在任何情況下都滿足比賽規則。
  19. The study on key technologies of insect - like flying microrobot

    微型仿昆飛行機器人關鍵技術的研究
  20. Overcome a variety of obstacles including bombs and flying robots and collect special power - ups to assist your efforts

    克服包括炸彈和飛行機器人在內的各種障礙,收集能力提升道具讓你如虎添翼。
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