nonlinear ode to solve RMS power gives me fluctuating trend and zero values!!
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Hi,
I have a non-linear mechanical system, I am solving the power generated from the movement of the vehicle suspension system
I used simulink to solve the non-linear ode and extract the relative velocity to use it on the power equation.
I think my code is correct but don't know why I am getting zero values for the RMS power at some points. I should be getting
increasing trendline on my results figure! I noticed that changing the time steps play significate role in chaning the results, similarly when I change the variance for the white noise.
my code works fine when i solve for other parameters, but doesn't work good when i solve with respect to velocity changing overtime!
is there any why to make the graph looks more smoother and the code run faster?
clc
clear
close all
%% ((@@ calculating for power w/ respect to space Velocity changing @@))
% =================================================================
%% /// parameters for Piezoelectric harvester
T= 30; % period (Sec)
l=0.1; % length of the magnetic anf Piezo (m)
ld=0.01; % lead of the ball screw (m)
w=0.002; % wedith of the Piezo & magnetic (m)
d=0.0005; % spacing btw the rotator & stator (m)
r1=0.5; % inner raduis of the stator ring (m)
r2=0.05; % outer raduis of the rotator ring (m)
n1= 0; % initial value for suspension velocity (m)
Br= 1.5; % residual flux density of magnetic (T)
n2=abs(pi*r2/w); % #of magnet slabs only on rotator ring
d33= 6.4e-10; % piezoelectric coefficient (CN^-1)
num_trying=12; % final number of RMS-power we need to calculate
tm = 0.01; % thickness of magnetic slab (m)
tp = 0.01; % thickness of Piezo patches (m)
d0=0.001; % (m)
Cv_dash=0.375*10^-9 ; % Cv unit changed to farad (Farad)
Cv=Cv_dash*l*w*0.0001/(0.01*0.01*tp); % electric capacity of piezoe patch (Farad)
%% /// parameters for vehicle and road
mi=5.3; % is inertial mass (kg)
mb=362; % is the body mass (kg)
mt=30; % is the wheel mass (kg)
c=1.4*1000; % damper (N.s/m)
k=20.1*1000; % spring (N/m)
kt=182.1*1000; % Tire stiffness (N/m)
Gq=1024e-6; % road roughness coefficient m^3
no=0.1; % reference spatial frequency m^-1
n00=0.011; % minimal boundary frequency m^-1
v=linspace((10*1000)/3600,(120*1000)/3600,num_trying); % speed of the vehicle m/s
V=linspace(10,120,num_trying);
%% Numerical analysis
Pe= 0;
Pe_rms_arr=zeros(num_trying,1);
for s=1:1:num_trying
Bd=(Br/pi)*((atand((l*w)/(2*d*sqrt(4*(d)^2+(l)^2+(w)^2))))-(atand((l*w)/(2*(tm+d)*sqrt(4*(tm+d)^2+(l)^2+(w)^2)))));
fd=(1.749+1.145*exp(-d/d0))*(10^6);
Fm=l*w*((tm)^1/3)*Br*abs(Bd)*fd;
Fp=2*((d33)^2*(Fm)^2*(n2)^2)/Cv*ld;
%% /// (((( Run the Simulink model using the 'sim' command ))))
sim('nonlinear_model_v.slx')
%% /// extracting Data generated by Simulink
ZdotData = ans.z_dot;
Zdot = ZdotData.Data; % Z'= (Zb' - Zt')
n1 = Zdot/ld; % n1= (zb' - zt') / ld
%% Calculating the power generation
y= 1;
time_step=100*T;
delta_t=T/time_step;
Pe_arr=zeros(time_step,1);
for t=0:delta_t:T
% loop for all peizoelectric patches for one time step
for N2=1:1:2*n2
for s2=1:1:length(Zdot)
% Pe=Pe+(((d33)^2*n1(s2)*N2*pi*(Fm)^2*abs(sind(n1(s2)*N2*pi*t)*cosd(n1(s2)*N2*pi*t)))/Cv) ;
Pe=Pe+(((d33)^2*((Zdot(s2)/ld)*N2*pi*(Fm)^2*abs(sind((Zdot(s2))/ld)*N2*pi*t)*cosd(((Zdot(s2))/ld)*N2*pi*t)))/Cv) ;
end
end
Pe_arr(y)=Pe; % store the power here for each time step
Pe=0;
y=y+1;
end
% now calculate the RMS power we got
% loop for all power for j step
for j=2:1:time_step
% ************* sum=Pe_arr(j)^2+Pe_arr(j-1)^2;
sum=Pe_arr(j)^2-Pe_arr(j-1)^2;
end
Pe_rms=sqrt((delta_t/(2*(T-delta_t)))*sum);
Pe_rms_arr(s)=Pe_rms;
%asd=s
end
%% figures
figure
plot(ans.z_dot)
xlabel('Time/s')
ylabel('zdot(t)')
grid on
figure
plot(ans.road)
xlabel('Time/s')
ylabel('q(t)')
grid on
figure
plot(V,real(Pe_rms_arr),'b--*')
title('the RMS power versus with driving speed');
ylabel('RMS of the power (Watt)');
xlabel('speed (Km/h)');
legend('The RMS')
grid on
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