系統的規模 的英文怎麼說
中文拼音 [xìtǒngdeguīmó]
系統的規模
英文
size of the system- 系 : 系動詞(打結; 扣) tie; fasten; do up; button up
- 統 : Ⅰ名詞1 (事物間連續的關系) interconnected system 2 (衣服等的筒狀部分) any tube shaped part of ...
- 的 : 4次方是 The fourth power of 2 is direction
- 規 : Ⅰ名詞1 (畫圓形的工具) instrument for drawing circles 2 (規則; 成例) rule; regulation 3 [機械...
- 模 : 模名詞1. (模子) mould; pattern; matrix 2. (姓氏) a surname
- 系統 : 1. (按一定關系組成的同類事物) system 2. (有條理的;有系統的) systematic
- 規模 : scale; scope; dimensions
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With the rapid development of high - tech field such as aerospace, astronautics, nuclear industry and robotics and all kinds of domestic applications, apparatus and control systems become more and more complicated, and the investment in them are more and more high, thus an increasing demand for those systems to be safer and more reliable
隨著航空、航天、核工業、機器人等高技術領域和各種民用工業領域技術水平的迅速發展,其設備裝置和工程式控制制系統的規模和復雜性日益增加,同時投資也越來越大,因此對于這些投資巨大、復雜的大型系統,其可靠性、可維修性和有效性顯得越來越來重要。With significant development of power construction, the scale of power system is becoming much bigger and the structure more complicated, which leads to more difficult calculation and analysis concerned with power system. and the current software was limited by past development environment, resulting in a series of problems such as unfriendly man - machine interfaces, inconvenience of data inputting and management and not - easy - grasp using method
隨著電力建設的發展,電力系統的規模越來越大,結構也越來越復雜,電力系統計算分析的工作量也日趨龐大,而現有的計算軟體由於受當時的開發環境所限,普遍存在著人機界面不友好、數據錄入及管理不方便、使用方法不易掌握等缺點。During the design of the system, a special aim is how to reduce the scale and raise the speed of the system because the scale of ( 1024, 10 ) is very large
在系統的設計過程中,針對高多進制擴頻系統的規模大的特點,就如何降低系統規模和提高系統的工作速度進行了研究。It is a measure of size that would allow different types of systems to be compared and would be independent of the technology applied
它是一種量度系統規模的方法,可比較不同類型系統的規模,並且不受所採用技術的限制。The set of these eigenvalues can be regarded as the eigenvalues of primary system approximately. this method not only can control the scale of the block - decoupling subsystems, but also achieves the reduced - order eigenvalue calculation for multi - machine power system. so this method can avoid the dimension disaster in the qr and calculate all the eigenvalues of large power system with the effect of damping windings considered
這一方法可以控制分塊解耦子系統的規模,實現多機系統特徵值的降階計算,避免特徵值qr演算法的「維數災難」 ,同時為採用計及發電機阻尼繞組作用的詳細模型計算大型電力系統的全部特徵值、提高電力系統小擾動穩定分析的準確性提供了一種方法。In addition, bit error rate ( ber ) performance of the m - ary orthogonal spread spectrum system based on i bit quantization is analyzed in this paper and the formula of ber is obtained. by comparing it with other several systems, some concerned conclusions about this kind of system are gained
為了進一步的降低系統的規模,本文還就基於硬判決解調的多進制擴頻系統的性能進行分析和研究,得出了同步捕獲性能和誤比特性能與用戶數及信噪比的關系公式,並將其與其它幾種系統進行了比較,得出了有關的結論。With the increase and development of intelligent architecture, from intelligent building to intelligent digital district, the scale of gcs is huger and huger, so the maintenance and management of these pipes and physical components is more and more important
隨著智能建築的不斷進步和發展,已經從智能大廈向數字園區發展,綜合布線系統的規模也就越來越龐大,對于這些管線和物理部件的維護和管理也就越發顯得重要。The scale of modern power system becomes larger and larger
現代電力系統的規模由於電網的互聯變得越來越大。Interface, data and function integration of eai are applied to fulfill the system integration
最後本文探討了如何基於工作流和組件進行企業項目管理系統的規模化定製。For the power demand of users, the power system scale is rising, so does single transformer capacity
為了滿足電力需求,電力系統的規模日益擴大、變壓器的單機容量也隨著增大。In an agile system, dynamic evolution should be satisfied which means that the scale and complexity of system keep increasing
敏捷系統需要動態地進化,不斷進化的系統意味著系統的規模、復雜程度持續增長。As the technological level of lsi and vlsi steadily development, the scale and the complexity of digital system are expanded at very high speed
隨著lsi和vlsi工藝水平的不斷發展,數字系統的規模和復雜性正以前所未有的速度不斷擴大。Conversely code mobility can solve this contradiction by transferring new functionality codes to user without increasing system ’ s size and complexity
相反,代碼移動卻可以靈活的解決這個矛盾,代碼移動從整體上增強了系統的靈活性卻沒有增加系統的規模和復雜度。Today, increasing of capacity per unit of transformer has been accompanied by enlargement of power net system, so research subject mentioned above is very useful and important
目前,變壓器的單機容量隨著電力系統的規模擴大而不斷增大,上述問題就顯得尤為重要。Because of size and structure of control system, the resource is different. the soft of control system is different. it is hard about the size of soft and work
然而由於測控系統的規模、結構及其所使用的軟硬體資源不同,測控系統軟體也有很大的區別,其開發工作量和難度也很大。In the last several decades or so, the fast developing of microelectronic technology and growing requirement from the various kind of sophisticated applications make the modern integrated circuit ( ic ) more complicated in scale and functionality
過去幾十年來,微電子技術的高速發展和人們對信息技術的強大需求使得現代集成電路系統的規模和復雜程度日趨提高。The growth of electric power consumption has resulted in a corresponding development of power system, in addition, the requirement for the stability of the large system has increased
隨著人們生產生活對電力需求的日益增加,電力系統的規模逐步擴大,與此同時,對遠距離、大容量的系統的運行穩定性的要求也相應提高。Several key problems in electricity markets, such as pricing of transmission and wheeiing transactions, generation bidding and available transfer capability calculation between interconnected systems, etc., are comprehensively and thoroughly studied and analyzed in this dissertation. the main contents and contributions are as follows : ( l ) ln a spot price based marketplace, the revenues and costs of transmission service are not easily balanced due to the economies of scale of transmission networks
本文主要針對電力市場中的輸電和轉運服務定價、發電競價以及互聯區域間可用輸電能力計算等問題進行了較為全面和深入的理論研究和計算分析,主要內容及成果如下: ( 1 )由於輸電系統的規模經濟,在基於實時電價的電力市場中,輸電系統的收入和支出難以平衡。However, these systems will break down if any pat fails. moreover, the measurement and control modules lack of the ability of self - adapting and self - decision. single control and processing system ca n ' t deal with complicated situations effectively when there are many components and many kinds of information
但是,上述系統的可靠性是通過單個設備的可靠性和關鍵部件的冗餘來實現的,往往由於個別環節的故障導致整個系統不能正常工作;各測控節點缺乏自適應性和主動性;當系統的規模比較大、信息種類比較多時,單一的系統控制處理往往不能適應復雜的變化情況。To the embedded system study of siglechip, with the rapid progress of semiconductors producing technology and the higher level of chip designing, the performance of the singlechip has been improved greatly, and the application of it has been scaled greatly. under such environment, introducing the real - time operating system ( rtos ) to the siglechip system can change the development of the software from all by hand to collaboration work, that is a efficient method to resolve this problem
在微控制器和dsp的嵌入式系統研究方面,由於半導體工藝的發展和晶元設計水平的進步,它們的性能大幅度地提高、系統的規模增大,片上嵌入式軟體變得越來越復雜。而將實時操作系統( rtos )引入單片機和dsp系統,使嵌入式軟體開發從手工作業轉變成工業化協作生產,就成為解決這一問題的有效途徑。分享友人