計劃飛行高度 的英文怎麼說
中文拼音 [jìhuàfēihánggāodù]
計劃飛行高度
英文
pfl planned flight level- 計 : Ⅰ動詞1 (計算) count; compute; calculate; number 2 (設想; 打算) plan; plot Ⅱ名詞1 (測量或計算...
- 劃 : 劃動詞1 (撥水前進) paddle; row 2 (合算) be to one s profit; pay 3 (用尖銳的東西在別的東西上...
- 飛 : 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 : 行Ⅰ名詞1 (行列) line; row 2 (排行) seniority among brothers and sisters:你行幾? 我行三。where...
- 高 : Ⅰ形容詞1 (從下向上距離大; 離地面遠) tall; high 2 (在一般標準或平均程度之上; 等級在上的) above...
- 度 : 度動詞[書面語] (推測; 估計) surmise; estimate
- 計劃 : 1 (工作、行動以前預先擬定的內容和步驟) plan; project; programme; device; devisal; design 2 (做...
- 飛行 : flight; flying; aviate; voyage; volitate; hop
- 高度 : altitudeheightelevation
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Clr : alitalia 793 is cleared to destination zbtj, flight planned route. flight level four thousand five hundred meters. departure runway 36 left, vm two departure, initially maintain one thousand five hundred meters on qnh. departure frequency 119 decimal squawk 0007
義大利拐九三可以放行至天津濱海,使用跑道三六左,按計劃航路飛行,航路高度四千五。Ca101, what is your flight plan level
你飛行計劃高度層是多少?This paper presents a wider research field - risk analysis. through the study of the effects that threat factors and error factors impact on the flight risk and adjusting performance rules, the horizontal safe corridor, threat avoidance, vertical altitude real - time modification and the fastest trajectory programming are progressed
總結前人在該方面的研究成果,提出一個更加廣義的研究角度? ?風險分析。通過對威脅因素、誤差因素對飛行風險的作用,調整性能準則而進行了水平安全走廊設計、威脅迴避、垂直離地高度實時修正以及最快速航跡規劃。Graphplan was the first planner which using the high efficiency planning graph structure in planner design
圖規劃首次將規劃圖應用於規劃器設計。規劃圖的高度并行性使得規劃器求解效率有了質的飛躍。This paper combines the application and research of cellular manufacturing resource management system in high - efficient numerical control machining technique research of commission of science technology and industry for national defense and demonstration project research of chengdu aerocraft corporation, studies and practice the management of workshop ' s resource management which according to mrp hand jit " s thoughts and the characteristic of manufacturing execution system to meet advanced management concept ; have realized the computer - assisted management of the measuring tool, cutter, fixture and material in numerical control manufacturing center of chengdu aerocraft corporation, have introduced some manage method, concept and the management thought in production planning and controlling management, stock management and cost management ; makes the information of cost manage department, technology department and resource management department can be shared and integrated with each other, have guaranteed the production of numerical control manufacturing center of chengdu aerocraft corporation can go on by order ; this paper is taking the management of cutter as a sample, have studied the major working process and the realistic demand of resource management in the environment of numerical control ; have established systematic function model and information model with the method of idefo, idef1x ; under the support of intranet, with the method of joint application and development, combines advanced management theory and reality, using mature software development tool, this paper have developed the computer - aided manufacturing resource management software under the pattern of c / s
本文結合國防科工委「高效數控加工技術研究?成飛示範工程」課題中單元化製造資源管理系統的研究與應用,從車間層開始圍繞製造資源計劃( mrp )和準時制生產( justintime ,簡稱jit )的需求並結合製造執行系統( manufacturingexecutionsystem )的特點對車間資源的管理作了一定的研究和探討,並付諸實踐,以適應先進的管理理念;實現了成飛數控加工中心刀具、量具、工裝、物料等製造資源的計算機輔助管理,介紹了一些計劃與調度管理、庫存管理、成本管理的管理思想、理念及方法,完成了與車間生產調度部門、工藝部門、經營管理部門的信息共享和集成,從製造資源的角度保證了成飛數控加工中心的生產能有序、受控的進行;對今後的車間層製造資源管理探索出了一條切實可行的解決途徑。本文以刀具管理為例,研究了高效數控環境下製造資源管理的現實需求及主要的工作流程;採用idefo 、 idef1x方法建立了系統的功能模型和信息模型;並在車間局域網的支持下,採用聯合應用開發( jad )方法(即程序開發人員與最終用戶共同開發系統) ,以先進的管理理論為指導,結合生產現場的實際情況,利用成熟的軟體開發工具開發了c s模式下的計算機輔助製造資源管理系統軟體。The project originating from national high technology research development plan ( 863 plan ) is to study a control system of 270 voltages dual - redundancy rare earth permanent magnet ( repm ) brushless dc motor ( bldcm ) based on digital signals processor ( dsp ) in order to realize precise and reliable control for the control actuator of high altitude unmanned airplane
本課題來源於國家高技術研究發展計劃( 863計劃) ,旨在研究基於數字信號處理器( dsp控制器)的舵機用270v高壓雙余度稀土永磁無刷直流電動機控制系統,以實現無人飛行平臺飛控系統的精確可靠控制。The fdps processes the flight plan data from aeronautical messages and prints out flight progress strips automatically for use by air traffic controllers to updatemonitor the aircraft flight profile, such as flight route, estimated time of departurearrival, flight level, expected times at reporting points, cruising speed, etc
飛行數據處理系統可作航機飛行計劃的數據處理,和即時印出飛行進度紙條,供航空交通管制員用以更新和監察航機的飛行狀況,例如航道、預計著陸起飛時間、飛行高度、位置報告的預計時間、飛行速度等。Generally speaking, the algorithm of terrain contour matching is adapted to be used in cruise missiles which made fight path prior for that this algorithm is not a real - time system for it makes use of historical terrain data. while kalman filter algorithm is a real - time, rapid calculation system. which is appropriate for pilot or pilotless aircraft
得出,地形輪廓匹配演算法使用歷史地形數據,實時性差,比較適合事先規劃好航跡的導彈使用:卡爾曼濾波的方法有較好的實時性,計算速度快,很適合有人無人駕駛飛機的機動飛行要求;小波分層只是對地形信息做了高低頻分解,其本質還是相似性度量演算法,但它有效的降低了匹配演算法的計算量。From the management mode and integrating the aircraft part production characteristics, analysis and studies the integrated management of the manufacturing information, the organizing of the production plan and the control of the production process of the part manufacturing workshops which is under the cims environment, integrate with lean production idea. and this paper also applies concrete system analysis, promote general design plan and model establishing method. this thesis mainly discusses the workshop production practical flow, brings forward the new " month, week, day three class plan control " method, expects to apply effective control to the overall production process
本論文在了解了同行業企業的製造管理模式之後,以西安飛機工業(集團)有限責任公司零件製造車間為例,對零件製造車間進行系統的研究和分析,在此基礎上開發一個基於cims環境下適合零件製造車間的生產作業計劃管理系統,與精益生產方式( leanproduction ) 、精益思想相結合,並對其管理系統進行研究,達成以生產計劃、生產調度為龍頭,充分利用工藝、工裝、工時定額等製造信息,科學編制生產的月、周、日計劃,高效的支配生產資源(如人、設備、工具、輔助材料等等) ,動態組織生產調度,準確預測隱患,全面監控生產過程,從而達到有效的提高生產效率的目的,並利用科學的管理方式最終提高我們的製造水平。分享友人