Noncoherent receivers are attractive for pulsed UWB systems due to the implementation simplicity. To alleviate the noise effect in detecting UWB PPM signals, this letter proposes a simple yet flexible weighted noncoherent receiver structure, which adopts a Square-law integrator multiplied with a window function.
标签: implementation Noncoherent attractive simplicity
上传时间: 2013-12-01
上传用户:wys0120
Its functions are: n order within (excluding n) At the same time, 3 and 7 can be integral to all natural and a few of the Square root of s, and function as a value to return, the final result s output to file out.dat China.
标签: functions excluding integral within
上传时间: 2016-11-12
上传用户:王者A
针对静止图像经整数小波变换(integer wavelet transform)后,各子带系数的幅值动态变化范围小,不利 于零树编码(embedded zerotree wavelet coding)的缺点,采用“从 1 开始的整数平方”代替“2 的整数次幂”作为零树 编码的量化阈值,缩短了量化阈值间隔.通过减少重要系数在较低量化阈值中出现的机会,增加了编码过程中的 零树数量 同时通过减少参与编码的字符数及对最高频带零树不编码,简化了编码过程.实验结果表明,整数平方 量化阈值下的零树编码(integer Square zerotree wavelet coding)解决了整数小波变换中零树编码的低效问题,提 高了静止图像的编码效率.
标签: wavelet transform embedded zerotree
上传时间: 2017-01-29
上传用户:as275944189
SuperLU is a general purpose library for the direct solution of large, sparse, nonsymmetric systems of linear equations on high performance machines. The library is written in C and is callable from either C or Fortran. The library routines will perform an LU decomposition with partial pivoting and triangular system solves through forward and back substitution. The LU factorization routines can handle non-Square matrices but the triangular solves are performed only for Square matrices. The matrix columns may be preordered (before factorization) either through library or user supplied routines. This preordering for sparsity is completely separate from the factorization. Working precision iterative refinement subroutines are provided for improved backward stability. Routines are also provided to equilibrate the system, estimate the condition number, calculate the relative backward error, and estimate error bounds for the refined solutions.
标签: nonsymmetric solution SuperLU general
上传时间: 2017-02-20
上传用户:lepoke
cordic methods describe essentially the same algorithm that with suitably chosen inputs can be used to calculate a whole range of scientific functions including sin, cos, tan, arctan, arcsin, arccos, sinh, cosh, tanh, arctanh, log, exp, Square root and even multiply and divide. the method dates back to volder [1959], and due to its versatility and compactness, it made possible the microcoding of the hp35 pocket scientific calculator in 1972. here is some code to illustrate the techniques. ive split the methods into three parts linear, circular and hyperbolic. in the hp35 microcode these would be unified into one function (for space reasons). because the linear mode can perform multiply and divide, you only need add/subtract and shift to complete the implementation. you can select in the code whether to do the multiples and divides also by cordic means. other multiplies and divides are all powers of 2 (these dont count). to eliminate these too, would involve ieee hackery.
标签: essentially algorithm describe suitably
上传时间: 2017-03-02
上传用户:litianchu
/*请分别定义图形类Shape(抽象基类),继承类矩形类Rectangle、正方形类Square、 圆形类Circle;它们具有的方法是计算周长和面积。在另一个类的main函数中分别创建矩形、 正方形和圆形对象,设置所需的属性值,打印其周长和面积。*/
上传时间: 2014-01-16
上传用户:lili123
分别定义图形类Shape(抽象基类),继承类矩形类Rectangle、正方形类Square、 圆形类Circle;并且计算周长和面积。在另一个main函数中分别创建矩形、 正方形和圆形对象,设置所需的属性值,打印其周长和面积。(备注:只要把该文件解压,把里面的东东COPY去即可使用)
上传时间: 2017-07-25
上传用户:wuyuying
The radially averaged power spectrum (RAPS) is the direction-independent mean spectrum, i.e. the average of all possible directional power spectra. This function computes and plots the RAPS of an input image. The function was written to produce the RAPS for Square weather radar reflectivity images so you will have to relabel the plot axes and title to suit your needs. The radially averaged power spectrum provides a convenient means to view and compare information contained in 2D spectra in 1D
标签: spectrum direction-independent i.e. the
上传时间: 2013-12-17
上传用户:watch100
Main program running when workpiece is ready on deferent belt(deferent_ready=ture). * Call Square_Wave subroutine to generate 0.5ms Square wave on P1.2 to drive * electromotor,then drive deferent belt step forward. When it steps to the measure * zone, it stops to be measured. Then call A_D subroutine to transform analog * signals to digital signals , after then call serial subroutine to transfer * digital signals to PC. Call Square wave subroutine to drive deferent belt step to * original position waitting for defere ready flag to run the next circle.
标签: deferent_ready workpiece deferent program
上传时间: 2017-08-31
上传用户:baiom
I can remember buying my first electronic calculator. I was teaching a graduate level statistics course and I had to have a calculator with a Square root function. Back in the late 1960s, that was a pretty high-end requirement for a calculator. I managed to purchase one at the “educational discount price” of $149.95! Now, I look down at my desk at an ATmega2560 that is half the size for less than a quarter of the cost and think of all the possibilities built into that piece of hardware. I am amazed by what has happened to everything from toasters to car engines. Who-da-thunk-it 40 years ago?
上传时间: 2020-06-09
上传用户:shancjb