代码搜索:closed-loop
找到约 171 项符合「closed-loop」的源代码
代码结果 171
www.eeworm.com/read/439271/7713211
m sisobnd9.m
function bdb = sisobnd9(w,wbd,W,uP,vP,R,nom,uC,vC,loc,ph_r,info)
% Compute QFT bounds for the following closed-loop configuration
%
% | PH |
%
www.eeworm.com/read/439271/7713221
m sisobnd8.m
function bdb = sisobnd8(w,wbd,W,uP,vP,R,nom,uC,vC,loc,ph_r,info)
% Compute QFT bounds for the following closed-loop configuration
%
% | H |
%
www.eeworm.com/read/439271/7713245
m sisobnd2.m
function bdb = sisobnd2(w,wbd,W,uP,vP,R,nom,uC,vC,ctype,ph_r,info);
% Compute QFT bounds for the following closed-loop configuration
%
% | 1 |
%
www.eeworm.com/read/439271/7713264
m sisobnd6.m
function bdb = sisobnd6(w,wbd,W,uP,vP,R,nom,uC,vC,loc,ph_r,info)
% Compute QFT bounds for the following closed-loop configuration
%
% | PG |
%
www.eeworm.com/read/439271/7713289
m sisobnd4.m
function bdb = sisobnd4(w,wbd,W,uP,vP,R,nom,uC,vC,loc,ph_r,info)
% Compute QFT bounds for the following closed-loop configuration
%
% | G |
%
www.eeworm.com/read/244380/12869814
m dfr_rock.m
% Frequency responses of the discrete-time rocket
% stabilization system
%
% flight time
t = input ('Enter time t = ');
% closed-loop interconnection
sim_rock
% discrete model
dsim_ic = samhld
www.eeworm.com/read/271760/10981463
m ffbf.m
function cltfm = ffbf(w,g,h,k);
%FFBF Closed-loop frequency response with arbitrary feedback (MIMO).
%
% CLTFM = FFBF(W,G,H,K) calculates the closed loop MVFR matrix.
% CLTFM
www.eeworm.com/read/271760/10981581
m ffb.m
function cltfm = ffb(w,g,k);
%FFB Closed-loop frequency response with unity feedback (MIMO).
%
% [CLTFM] = FFB(W,G,K) calculates the closed loop MVFR matrix.
% CLTFM = inv(I
www.eeworm.com/read/316047/13531126
m ffbf.m
function cltfm = ffbf(w,g,h,k);
%FFBF Closed-loop frequency response with arbitrary feedback (MIMO).
%
% CLTFM = FFBF(W,G,H,K) calculates the closed loop MVFR matrix.
% CLTFM
www.eeworm.com/read/316047/13531195
m ffb.m
function cltfm = ffb(w,g,k);
%FFB Closed-loop frequency response with unity feedback (MIMO).
%
% [CLTFM] = FFB(W,G,K) calculates the closed loop MVFR matrix.
% CLTFM = inv(I