雷達處理機 的英文怎麼說
中文拼音 [léidáchǔlǐjī]
雷達處理機
英文
radar processor- 雷 : 1. (雲層放電時發出的響聲) thunder 2. (軍事上用的爆炸武器) mine 3. (姓氏) a surname
- 達 : Ⅰ動詞1 (暢通) extend 2 (達到) reach; attain; amount to 3 (通曉; 明白) understand thoroughly...
- 處 : 處名詞1 (地方) place 2 (方面; 某一點) part; point 3 (機關或機關里一個部門) department; offi...
- 理 : Ⅰ名詞1 (物質組織的條紋) texture; grain (in wood skin etc ) 2 (道理;事理) reason; logic; tru...
- 機 : machineengine
- 雷達 : [訊] radar (縮自 radio detection and ranging)
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Radar data processing on the high maneuvering platform
高機動平臺下雷達數據處理Signal processor is a important part of high frequency ground wave over - the - horizon radar
信號處理機是高頻地波超視距雷達的關鍵部件之一。Then, i design a new signal processor basing on the development of hardware and the signal process of high frequency ground wave over - the - horizon radar
接著,根據當今數字信號處理器件的發展和高頻地波雷達的信號處理過程,提出信號處理機的系統設計方案。Based on the research mentioned above, the paper introduces the method of how to realize basal software, combing the processing of high frequency ground wave over - the - horizon radar signal and the capability of dsp
在此基礎上,本論文又針對工程實現的具體要求,結合高頻地波超視距雷達信號的信號處理方法與dsp性能,敘述了信號處理機的基礎軟體編程的具體實現。The dissertation aimed at designing a new signal processor basing on the development of hardware and the signal process of high frequency ground wave over - the - horizon radar. after that, basal signal software of dsp, a important part of processing card, is designed
本課題目的就是根據當今數字信號處理器件的發展和高頻地波雷達的信號處理過程,提出信號處理機的系統設計方案,然後對其中信號處理板中的主要處理部件dsp進行基礎軟體的開發。Lfmcw radar adopts the receiver with the structure of “ homodyne - fourier ”, and acquires the range spectrum after its if signal is sampled, and then processed by ftt
Lfmcw雷達採用了「差拍-傅立葉」接收機結構,其回波中頻信號經數字採集后進行fft處理,從而獲得雷達的距離譜。The signal processor is the centre of radar, and cfar processing technique is one of the most important methods to control false alarm probability in radar auto - detecting system
雷達信號處理機是雷達系統的核心部分,而恆虛警處理是雷達自動檢測系統中控制恆虛警的重要手段,它在雷達自動檢測過程中起著極其重要的作用。7 in order to improvement the performance of the whole system and reduce the cost, a new signal processor is given, which based on the new pulse count method brought forward by the author
從系統聯調的測試結果可以看出,利用自適應檢波電路,可以大大改善基於脈沖計數新方法的雷達信號處理機的性能,使得雷達系統的測距精度大大提高。Universal radar signal processor
通用雷達信號處理機An adaptive demodulation circuit is also given to reduce the affection of the noise, the interference and the instability of the signal
目前,採用自適應檢波電路的處理機己經在工業用避碰雷達中獲得應用。Design of signal processor of radar radar - jamming experiment system
雷達干擾實驗系統信號處理機的設計Furthermore, it discusses how to improve the reliability and consistency of the system and how to design the constraint files of place and route. at the present, we have tested this responder system roundly. this system is reliable steady and highly accurate and meet our expectant aim
目前,本論文介紹的單脈沖二次監視雷達應答信號處理器已經完成全方面的測試,系統具有較高的可靠性、穩定性和系統精度,滿足設計要求,達到了預期的目的,可以應用於單脈沖二次雷達接收機上。In the thesis, based on design and implementation of the two signal processing system of different requirement, multi - dsp processor structure, dsp - pci interface, system control logic, pci device driver program, user application program are researched. the main content is list as follows : 1 ) according to the lfmcw radar signal processing algorithm, a signal processing system based on pc104 - plus bus is developed
本文通過對以上兩種雷達信號處理機的設計開發過程,研究了採用多片dsp信號處理器組建并行處理模塊實現信號處理演算法的方法,利用pci總線實現處理機數據傳輸介面,設備驅動程序和控制界面軟體開發,實現信號處理機數據傳輸控制等幾個方面的內容,主要工作如下: 1 )針對線性調頻連續波雷達信號處理演算法,完成了基於pc104 - plus總線的嵌入式信號處理板的設計、製作以及調試。The object of this dissertation is signal process algorithm and signal acquisition process device of gpr
論文的研究對象是:針對淺地層探地雷達的信號處理和信號採集處理機設計。In this paper, a design of pseudo - code cw rendezvous and docking ( rvd ) radar signal processor is presented
摘要介紹了某偽碼連續波交會對接雷達信號處理機設計。Because the general signal processing system based on pci bus making use of advantages of the dsp and pci bus, can meet the high level demands of the radar signal processing and data transfer ability, so it ’ s application in radar system are developed rapidly
基於pci總線的通用信號處理機能夠充分發揮數字信號處理器和pci總線的優勢,滿足雷達信號實時處理、傳輸的要求,在現代雷達信號處理中得到廣泛應用。Specifically, the development of high speed a / d converter, dds technology, as well as the prevalence high speed dsp, fpga have provided a solid hardware function for the radar receiver
特別是高速多位( 100mhz , 12bit以上) a / d轉換器和dds技術的發展以及高速數字信號處理晶元( dsp )和fpga的普遍使用,為雷達接收機提供了良好的硬體基礎。In this paper, the if circuit, the processor based on the pulse count technology and the adaptive signal processing of the system are discussed thoroughly. major contents are abstracted as follows : 1 the evolved. history of the anticollision radar system is given curtly. the development of the signal processing of the radar and the application of the digital signal processing technology to the radar system is summarized
本文重點討論了毫米波防撞雷達系統的中頻電路及其改進、基於脈沖計數新方法的處理機和自適應信號處理等的研究工作,主要研究內容摘要如下: 1簡要介紹了防撞雷達系統的發展歷史,總結了雷達信號處理的發展和數字信號處理技術在雷達系統中的應用及其實現方法。Due to the higher demand of speed and precision of dsp, the intermediate frequency ( if ) digitalization receiver which is compared with analog system takes on the advantage of small volume, light weight, low cost, simple configuration, and easy integration. so that digitalization at if is current trend of communication and radar development, the traditional analog receiver is now being replaced by digital receiver gradually
由於對信號處理的速度、精度要求不斷提高,而中頻數字接收及信號處理系統與模擬系統相比,具有易於dsp演算法編程實現、體積小,重量輕,造價低、結構簡單,易模塊化、系統配置更新快、維護升級方便等優點,所以,雷達信號接收機及處理機的中頻數字化系統近年來備受重視,已經逐漸取代傳統的模擬接收機。But the general signal processing system based on pci bus can not meet the size demand of the lfmcw radar system miniaturization
但是,通用信號處理機的尺寸難以滿足雷達小型化的要求,為了實現lfmcw雷達小型化,研製基於pci總線的嵌入式信號處理機十分必要。分享友人