代码搜索:parabolic
找到约 137 项符合「parabolic」的源代码
代码结果 137
www.eeworm.com/read/457303/7328176
cpp separator.cpp
/***************************************************************************
* Copyright (C) 2006 by The KSmoothDock team *
* dangvd@yahoo.com *
*
www.eeworm.com/read/349226/10840506
lif sawtoot2.lif
#Life 1.05
#D Parabolic sawtooth
#D Population is unbounded but does not tend to infinity; its graph as
#D a function of time is a sawtooth with a parabolic envelope.
#D The pattern works by repea
www.eeworm.com/read/393688/2472771
f90 kmppm.f90
!-----------------------------------------------------------------------
!BOP
! !ROUTINE: kmppm --- Perform piecewise parabolic method in vertical
!
! !INTERFACE:
subroutine kmppm(dm, a4, itot
www.eeworm.com/read/419697/10842887
c alg122.c
/*
* HEAT EQUATION BACKWARD-DIFFERENCE ALGORITHM 12.2
*
* To approximate the solution to the parabolic partial-differential
* equation subject to the boundary conditions
*
www.eeworm.com/read/140698/13066488
c alg122.c
/*
* HEAT EQUATION BACKWARD-DIFFERENCE ALGORITHM 12.2
*
* To approximate the solution to the parabolic partial-differential
* equation subject to the boundary conditions
*
www.eeworm.com/read/378919/9212998
m parab.m
% PARAB Provides the radiation intensity U, the antenna gain GA
% in dBi and the aperture efficiency (in %) for a parabolic
% reflector.
%
% [U, GA, EAP] = PARAB(
www.eeworm.com/read/140700/13065933
txt alg122.txt
> restart;
> # HEAT EQUATION BACKWARD-DIFFERENCE ALGORITHM 12.2
> #
> # To approximate the solution to the parabolic partial-differential
> # equation subject to the boundary conditions
> #
www.eeworm.com/read/140700/13066235
txt alg122.txt
> restart;
> # HEAT EQUATION BACKWARD-DIFFERENCE ALGORITHM 12.2
> #
> # To approximate the solution to the parabolic partial-differential
> # equation subject to the boundary conditions
> #
www.eeworm.com/read/303435/3811209
main suradon.su.main
SURADON - compute forward or reverse Radon transform or remove multiples
by using the parabolic Radon transform to estimate multiples
and subtract.
suradon s
www.eeworm.com/read/288303/8644052
m fmpar.m
function [x,iflaw]=fmpar(N,p1,p2,p3)
%FMPAR Parabolic frequency modulated signal.
% [X,IFLAW]=FMPAR(N,P1,P2,P3) generates a signal with
% parabolic frequency modulation law.
% X(T) = exp(j*2*pi(A0.T +