船舶設計數據 的英文怎麼說
中文拼音 [chuánbóshèjìshǔjù]
船舶設計數據
英文
ship-design data- 船 : 名詞1. (水上的運輸工具, 船舶的通稱) boat; ship; vessels 2. (姓氏) a surname
- 舶 : 名詞(航海大船) oceangoing ship; seagoing vessel of considerable size
- 設 : Ⅰ動詞1 (設立; 布置) set up; establish; found 2 (籌劃) work out : 設計陷害 plot a frame up; fr...
- 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...
- 數 : 數副詞(屢次) frequently; repeatedly
- 據 : 據Ⅰ動詞1 (占據) occupy; seize 2 (憑借; 依靠) rely on; depend on Ⅱ介詞(按照; 依據) according...
- 船舶 : shipping; boats and ships; vessel; watercraft; water-dipper
- 設計 : devise; project; plan; design; excogitation; layout; layout work; styling
- 數據 : data; record; information
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Especially for ship and ocean - platform structure, there are a lot of stochastic factors affecting their design, for example, wave, tidewater and wind which act on the ship surface are indeterminate ; material data and dimension data provided may be not completely consistent with that of real structure ; some hypothesis, for convenience and simplification, make the calculation model is not the same as the real structure
特別對船舶與海洋平臺等結構,影響結構設計的隨機因素很多,例如作用在船舶上的波浪、潮水和風荷載都是不確定的;結構中用的材料物理性能數據可能與提供的有所差異;名義尺寸也可能與實際結構不完全一致;計算中引進的一些假設,也會使計算模式與實際情況有所偏離等等。In the process of the system study, the knowledge in the domain of ship collision avoidance is analyzed and the collision mechanism, process and the tactic are studied firstly. and then, using the fuzzy mathematics theory, the fuzzy mathematical model of judging collision risk is built, which take into account of the factors such as ship maneuverability, visibility and so on. in addition, based on the expert system theory, a design method of ship intelligent collision avoidance expert system is put forward, and the frame of ship intelligent collision avoidance expert system is built
在系統的研究過程中,首先對船舶避碰領域知識進行分析,並研究了船舶碰撞的原理、過程及對策;然後運用模糊數學理論,建立了一種評判碰撞危險度的模糊數學模型,該模型考慮了船舶的操縱性能、能見度等多種因素;接著根據專家系統理論,提出了一種船舶智能避碰專家系統的設計思路,並構建了一種船舶智能避碰專家系統的框架;最後以visualbasic6 . 0作為軟體開發平臺,設計了一種具有良好的可視化人機交互界面的船舶智能避碰專家系統軟體。Therefore, the safety of bulk carrier is widely concerned ; the theory of insubmersibility is followed by the introductions of domestic and international regulations, solutions, rules and requirements on the floodability ; introduced are the conditions of hold in flooded condition, and provided are the calculation methodology of the stability and buoyancy when flooding. the concept of cargo permeability is concretely defined, and the calculation methods of the amount of flooding waters are executed ; the application of the influence numbers simplify the calculation of the still water bending moment and shearing force in flooded conditions. a new method to calculate the maximum still water bending moment and shearing force is developed by means of the influence numbers ; the simulation system provides a means of evaluation and forecast on ship ' s danger extent after ship is damaged
在抗沉性公式的推導過程中採用一些假設,並分析了這些假設對結果的影響;然後介紹了船舶強度的概念和計算方法,鑒于現有的剪力彎矩計算方法工作量大、效率不高的缺點,引用影響數計算船舶進水后的剪力和彎矩;最後根據船舶抗沉性理論對散貨船破艙進水進行模擬,在模擬中根據船舶破艙的實際危險情況,採用直觀的圖形輸入的辦法,判斷船舶的危險程度並計算船舶到達危險狀態的時間以助於船長做出正確快速的決策。On basis of ship strength theory, mathematical model and solvable method of limited deflections of ships are established, and deflection criterion to check the demands of longitudinal strength of intact ships or damaged ships is proposed. it is convenient for the preliminary ship design
根據船體梁強度理論,建立船舶極限撓度數學模型與求解方法,提出利用船舶撓度檢驗船體總縱強度的新方法,可以較方便地對正常或破損船舶總縱剩餘強度進行檢驗,便於初步設計。The author choosed weighting matrix for different sea conditions, designed the controller and the rudder / fin joint control system. finally, the author simulated the controller with matlab. according to the simulation curves and data, we could find that the controller designed using state feedback control theory has nice control performance on rearing and rolling, but the control performance on pitching is not very good
為不同的海情選取了加權陣,求出控制器,完成了船舶舵鰭聯合控制系統的設計工作最後,用matlab語言對控制器進行模擬,從模擬曲線和模擬數據可以看出,使用狀態反饋h ~控制理論設計出來的控制器對艏搖與橫搖有較好的控制效果,而對橫蕩控制效果不理想,基本達到控制目的。The content of the thesis include many scientific fields, such as nautical mathematics, apparatus, ship navigate, communication, artificial intelligence, computer graphic, graphic management and so on. the function of route planning and advanced navigation in the system is based on electronic nautical chart. it bring forward the grid model in route planning, during the course of route planning, it provide ways to settle all kinds of instance ; it figures out the best head bearing of the ship with the real time transfer data from navigation apparatus to the system, accomplish the advanced navigation function in ecdis
該系統是在電子海圖基礎平臺上來完成航線設計和最優航法功能的,提出了在電子海圖中利用網格模型來進行航線設計的方法,在求取最優航線的過程中,全面綜合地考慮了各種可能出現的情況,並逐一解決;最優航行方法中採用實時獲取船舶導航儀器傳入到系統中的數據,並根據這些數據進行計算,給出船舶當前最佳船艏向,實現基於電子海圖顯示與信息系統的最優航法。The resolution not only constitutes temporary criterio n to ship ' s maneuverability, but also puts forward to adopting math model to prediction of computer calculation in design phase. in addition, with development of the inland river shipping project, the scale of the inland river ship and fleet becomes more and more huge, especially for those hvge fleet which can be look on as corpulent ship with shallow draught. to ensure the security of the navigation, the special maneuverability is needed for them to passing through the bridge safely
該決議在制定了船舶操縱性標準的同時,還提出在設計階段可採用數學模型進行計算機模擬預報來作為驗證符合標準的依據。另外,隨著內河航運事業的發展,內河船舶和分節頂推船隊的規模越來越大,特別是編隊龐大的頂推船隊,可以視為淺吃水的肥大船型,為保證航行安全,特別是順利通過大橋,對其操縱性也有特殊的要求。Chapter 5 introduces technologies which are used in the process of developing tmis for the ships, for example, the design of function needs, code, database and interface
本文第五章介紹船舶機務管理信息系統的應用開發,包括功能需求,編碼,數據庫,界面設計等開發技術,最後簡要討論了本系統的安全技術措施。This system covers various fields concerning the operation of container wharfs, such as shipping date arrangement, vessel planning, yard planning, vessel operation and supervision, yard operation and supervision, assignment of the equipment operation tasks, wireless crane workstation, gate workstations, automatic gate systems, cfs management systems, business booking, online booking, billing system, edi electronic data inter - exchange and report system, etc, providing swift and overall solutions to container terminal operation
系統覆蓋集裝箱碼頭營運的各個范疇,包括船期編排、船舶策劃、堆場策劃、船舶作業與監控、堆場作業與監控、設備作業編排與分配、無線吊機工作站、閘口工作站、自動閘口系統、 cfs管理系統、業務預約、網上預約、計費系統、 edi電子數據交換系統、報表系統等模塊,為集裝箱碼頭作業與營運提供全面與完善的電腦系統解決方案。Having compared and analyzed the problems existing in the recent marine accident statistical work in china, the definition, category, classification, statistic of accident causes of safety statistical data were redesigned, the implementation steps of systematic safety management system were brought up
分析我國海事調查統計工作中存在的問題,從完善數據內容構成和標準化入手,對我國《船舶交通事故統計規則》中海事定義、分類、分級、事故原因統計的內容進行重新設計。The thesis analyzes in depth the present modes and methods of ship design, and studies parallel engineering. it proposes a ship design integration method based on pdm ( product data management system ), reference to the experiences in aeronautical and aerospace industries in home and abroad
本文深入地分析了目前船舶設計的模式與方法,並對并行工程進行了研究,參考國際國內航空、航天的經驗,提出了以pdm (產品數據管理系統)為基本框架的船舶設計集成方法。The induction of ais technology still ca n ' t integrated with the devices of old system satisfactorily, the data of ais is only shown on the electronic chart background in ecdis, but does n ' t fulfill the fusion with the data of radar. more, some system functions related with display and interface still need be perfected, such as quickly moving, auto select chart, static information associate with target display, etc. the integrated information processing and display system researched in this thesis has been successfully applied in some vts projects and related projects, such as cheng - dao oil field survey system, yan - tai mount vts rebuild project etc. to the disadvantage exposed to us in national and foreign vts system, and those putted up in application projects, the thesis did a farther study and consummation, and acquired some research fruits, as follows : 1. fulfilled the eagle eye function in electronic chart display system
針對目前國內外vts系統中暴露出的薄弱點,以及應用實踐中表現出的不足本文對綜合信息處理與顯示系統做了進一步的研究和完善,取得了以下的研究成果: 1 、電子海圖顯示系統中鷹眼圖的功能設置與實現; 2 、設計一種簡易的選圖演算法,通過該演算法實現可在海圖放大、縮小時的自動選圖; 3 、電子海圖上自動錄取區的實現(二次自動錄取) ; 4 、實現對雷達和ais目標數據及其誤差的軟體模擬; 5 、船舶自動識別系統中動態信息與雷達動態信息的數據融合處理; 6 、利用數據融合技術解決雷達目標跟蹤方面的問題; 7 、海圖空間信息中顯示區域裁減演算法的設計,該模塊的實現大幅度提高了海圖的顯示速度。5 ) a neural network fusion model is set up, which combines on - line data with off - line data. through analysis the data of steering propellers in tugboat, the model are trained and validated. results showed that different kinds of data through fused in the model can improve the veracity of condition monitoring 6 ) based on the concept of virtual instrument technology, the instrument driver program and panel application program are designed
5 )設計了在線數據和離線數據融合的神經網路模型,通過對船舶舵漿裝置的油樣數據分析,進行了模型訓練和驗證,結果表明:該模型判斷結果完全正確,融合模型的提出將兩種不同類型的在線傳感器數據和離線分析數據綜合分析,可以辨識設備的故障類型,提高狀態判別的準確性。Design procedure of u - shaped anti - rolling tank system is established, and program of scale design for tank is summarized, and an innovation selecting the natural frequency of controlled passive anti - rolling tank is put forward according to variation range of wave frequency, the natural frequency of rolling of a ship and other influencing factors, and causes of formation of tank damping and motion state of water in tank are studied, calculation formula of the u - tube tank damping and design method of tank damping configuration are given, and the influence of tank vertical location within the ship on ship parameters, stabilization performance of tank and water motion in tank is studied
建立了完整的u型減搖水艙系統設計程序;總結了u型減搖水艙尺度設計;提出了根據波浪頻率變化范圍、船舶固有頻率變化范圍和其它影響因素,選取可控被動式減搖水艙固有頻率的新方法;分析了u型減搖水艙阻尼的形成原因,給出了估算水艙阻尼和設計水艙阻尼結構的方法;研究了減搖水艙在船舶中的垂直位置布置對船舶參數、水艙減搖性能和艙內流體運動性能的影響。The first part introduces a neural - fuzzy controller based on rbf neural network with application to the course control of ships. the second part describes a design method for a data interface system, which is a subsystem of the project named integrated bridge system ( ibs ) sponsored by the chinese ministry of communication. the third part presents an energy - saving auto - explain & light control system used in museums
本文由三部分組成:第一部分側重理論研究,提出了一種基於rbf網路的船舶航向神經模糊控制器的設計;第二部分側重計算機網路通訊,介紹了交通部重點項目「綜合船舶監控系統」數據介面子系統的設計;第三部分側重單片機應用,介紹了自動解說及節能燈光控制系統的設計。This paper involves the refrigeration principle and technology, the thermodynamics principle, the exergy analyses principle and its applications, the sensor principle and its applications, the microcomputer testing technique, the auxiliary engine of the ship etc. at the same time, to realize the measuring of cold store running parameters so that the main equipment of this system can run safely and reliably, measuring points are disposed at inlet and outlet of main devices, and computer detecting technology is used to measure the real time data at every point
內容涉及到製冷原理與技術,熱力學原理,火用分析原理及應用,傳感器原理與應用,微型計算機檢測技術,船舶輔機等諸多方面的知識。同時,為了實現對冷庫系統運行參數的全程檢測,以利於系統主要設備的安全可靠運行。在系統的主要設備進出口均布置了測量點,同時利用計算機檢測技術對各測量點數據進行在線檢測,檢測軟體是基於魯班組態軟體平臺而開發的,可以實時動態顯示檢測數據及數據的趨勢圖,還可以完整保存歷史數據,以利於分析系統常年運行工況,進一步制定改進措施。According to the requirements of amendments to the international convention for the safety of life at sea, 1974 ( solas, 1974 ) - safety measures for bulk carriers and the regulations on subdivision and damage stability of cargo ships, the condition of equilibrium and subdivision index after the foremost cargo hold flooded for five bulk carriers are calculated and checked ; the cause that do not satisfy the requirements is analyzed and the reconstructing measures and suggestions for designing a new ship are given in this paper
根據solas修正案散貨船的安全措施及貨船分艙和破艙穩性的各項條款的要求,計算並校核了五條散貨船第一貨艙破損進水后的平衡狀態和船舶分艙指數,分析了不滿足要求的原因,探討了具體的改造措施,提出了新船設計的建議Chapter 4 explains the design principle of the advanced navigation base on the ship ' s apparatus data, and accomplish the function in ecdis
第4章提出基於船舶導航儀器數據最優航法的設計原理,並將此最優航法嵌入電子海圖顯示與信息中,使之成為該系統的一個功能。This paper is based on the cosco vessel investment decision support system project. firstly, according to the shipping enterprise ' s situation and character, a program suitable to the shipping enterprise is given, which is used to help decision - maker analyze the economical effect of the investment and choose correct investment project. secondly, the author extends the use of the evaluation method of single ship investment, simplifys the calculation of revenue and cost, set up the multi - objective synthesis evaluation model of ship investment to evaluate ship investment considering the fleet as a whole, then to make decisions on vessel type jtonnage, number, financing pattern ; finally, the author analyzes the system, and designs the system, mainly including the design of operation database, design of decision support database, the design of models database, system interface, the style of the system, and analyzes the techni cal problems about the system, some functions has been put into use
以輔助或支持企業的決策者分析投資的經濟效果,選擇投資方向及決策方案,使決策的結果更能滿足航運企業發展的實際需要,作出科學的決策;其次,本文將單船投資決策的技術經濟評價方法進行推廣,在計算npv指標中涉及到的復雜的成本與收入計算問題進行簡化,並利用運籌學的知識,建立船舶投資決策模型,從船隊整體角度對船舶投資進行綜合評價,以達到對船隊中投入船舶種類、船舶噸位、數量與融資方式選擇的多維決策;最後,本文對船舶投資決策支持系統進行了詳細的系統分析,作出整體框架設計,主要包括操作數據庫設計、 dss數據庫設計、模型庫設計和系統介面、系統風格設計,並對系統開發中涉及到的技術問題予以分析,並實現了部分功能。This paper studies agent - based ship product collaborative design system on internet. the main contents in this paper are 1. the exchange of ship data is necessary for the ship collaborative design
在大范圍內實現船舶信息的共享、數據互操作和多個設計者的協同工作是縮短船舶設計周期,提高勞動生產率的重要手段。分享友人