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distributed

  • Suzuki kasami s algo for distributed systems

    Suzuki kasami s algo for distributed systems

    標簽: distributed systems Suzuki kasami

    上傳時間: 2013-11-28

    上傳用戶:

  • Let X1,X2,...X10 be independent uniformly distributed Random vari- ables over [0 1] andY = X1 + X2

    Let X1,X2,...X10 be independent uniformly distributed Random vari- ables over [0 1] andY = X1 + X2 +.....+ X10.Generate the PDF and pdf of Y

    標簽: independent distributed uniformly Random

    上傳時間: 2017-08-09

    上傳用戶:ecooo

  • Parallel and distributed Programming Using C++

    Parallel and distributed Programming Using C++

    標簽: distributed Programming Parallel Using

    上傳時間: 2014-08-09

    上傳用戶:685

  • On a distributed algorithm based on FPGA pipelined FIR filter of the article.

    On a distributed algorithm based on FPGA pipelined FIR filter of the article.

    標簽: distributed algorithm pipelined article

    上傳時間: 2017-08-18

    上傳用戶:liuchee

  • MPI for java for distributed Programming

    MPI for java for distributed Programming

    標簽: distributed Programming for java

    上傳時間: 2013-12-24

    上傳用戶:lanjisu111

  • Java RMI 2001 :Introduce something about distributed System Programing using RMI tech

    Java RMI 2001 :Introduce something about distributed System Programing using RMI tech

    標簽: distributed Programing Introduce RMI

    上傳時間: 2013-12-15

    上傳用戶:yzy6007

  • distributed Antenna Systems

    The rapid growth in mobile communications has led to an increasing demand for wide- band high data rate communications services. In recent years, distributed Antenna Systems (DAS) has emerged as a promising candidate for future (beyond 3G or 4G) mobile communications, as illustrated by projects such as FRAMES and FuTURE. The architecture of DAS inherits and develops the concepts of pico- or micro-cell systems, where multiple distributed antennas or access points (AP) are connected to and con- trolled by a central unit.

    標簽: distributed Antenna Systems

    上傳時間: 2020-05-27

    上傳用戶:shancjb

  • distributed+Quality-of-Service+Support

    This thesis is about wireless communication in shared radio spectrum. Its origin and motivation is ideally represented by the two quotations from above. In this thesis, the support of Quality-of-Service (QoS) in cognitive radio networks is analyzed. New approaches to distributed coordination of cognitive radios are developed in different spectrum sharing scenarios. The Wireless Local Area Network (WLAN) 802.11 proto- col of the Institute of Electrical and Electronics Engineers (IEEE) (IEEE, 2003) with its enhancement for QoS support (IEEE, 2005d) is taken as basis. The Medium Access Control (MAC) of 801.11(e) is modified to realize flexible and dynamic spectrum assignment within a liberalized regulation framework.

    標簽: Quality-of-Service distributed Support

    上傳時間: 2020-05-27

    上傳用戶:shancjb

  • DS18B20中文資料

    FEATURES  Unique 1-Wire interface requires only one port pin for communication  Multidrop capability simplifies distributed temperature sensing applications  Requires no external components  Can be powered from data line. Power supply range is 3.0V to 5.5V  Zero standby power required  Measures temperatures from -55°C to +125°C. Fahrenheit equivalent is -67°F to +257°F  ±0.5°C accuracy from -10°C to +85°C  Thermometer resolution is programmable from 9 to 12 bits  Converts 12-bit temperature to digital word in 750 ms (max.)  User-definable, nonvolatile temperature alarm settings  Alarm search command identifies and addresses devices whose temperature is outside of programmed limits (temperature alarm condition)  Applications include thermostatic controls, industrial systems, consumer products, thermometers, or any thermally sensitive system

    標簽: 18B B20 DS 18

    上傳時間: 2013-08-04

    上傳用戶:CHENKAI

  • 傳輸線

    第一章  傳輸線理論一  傳輸線原理二  微帶傳輸線三  微帶傳輸線之不連續分析第二章  被動組件之電感設計與分析一  電感原理二  電感結構與分析三  電感設計與模擬四  電感分析與量測傳輸線理論與傳統電路學之最大不同,主要在于組件之尺寸與傳導電波之波長的比值。當組件尺寸遠小于傳輸線之電波波長時,傳統的電路學理論才可以使用,一般以傳輸波長(Guide wavelength)的二十分之ㄧ(λ/20)為最大尺寸,稱為集總組件(Lumped elements);反之,若組件的尺寸接近傳輸波長,由于組件上不同位置之電壓或電流的大小與相位均可能不相同,因而稱為散布式組件(distributed elements)。 由于通訊應用的頻率越來越高,相對的傳輸波長也越來越小,要使電路之設計完全由集總組件所構成變得越來越難以實現,因此,運用散布式組件設計電路也成為無法避免的選擇。 當然,科技的進步已經使得集總組件的制作變得越來越小,例如運用半導體制程、高介電材質之低溫共燒陶瓷(LTCC)、微機電(MicroElectroMechanical Systems, MEMS)等技術制作集總組件,然而,其中電路之分析與設計能不乏運用到散布式傳輸線的理論,如微帶線(Microstrip Lines)、夾心帶線(Strip Lines)等的理論。因此,本章以討論散布式傳輸線的理論開始,進而以微帶傳輸線為例介紹其理論與公式,并討論微帶傳輸線之各種不連續之電路,以作為后續章節之被動組件的運用。

    標簽: 傳輸線

    上傳時間: 2014-01-10

    上傳用戶:sunshie

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