Control System Analysis Techniques course error

1 Mai 2026
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Aktualisiert 21 Mai 2026
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In the Time domain section of the course when I use the step function to plot the grpah it keeps saying i am wrong even though it is the exact same code and graph. Those anyone have anny solutions
below is the code
s = tf('s');
quadcopter_ol = 0.04133/(s + 0.01479);
controller = zpk(-5,0,100);
Task 1
step(quadcopter_ol)

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Walter Roberson
Walter Roberson am 2 Mai 2026 um 0:00
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Is it look for step(controller) ?
s = tf('s');
quadcopter_ol = 0.04133/(s + 0.01479);
controller = zpk(-5,0,100);
step(controller)
Dunbarin
Dunbarin am 3 Mai 2026 um 10:06
No it’s you’re meant to use the step function on the quadcopter, even the solution in the course does the same thing I do and the graphs are the same but it keeps saying I’m wrong

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Dunbarin
Dunbarin am 12 Mai 2026 um 8:57

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I reached out to technical support and they were able to give me a work around to the problem,I will paste it below
Use stepplot function instead of step function as follows:
output = stepplot(<variable_name>); output.Responses.Name = '<variable_name>';
Similarly, the following function mapping + output.Responses.Name workaround can be used to get around the issue in other parts of the course:
bode -> bodeplot nyquist -> nyquistplot pzmap -> pzplot

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Sam Chak
Sam Chak am 12 Mai 2026 um 9:35
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Hi @Dunbarin
Thanks for the update. Virtually no difference between "step(sys)" and "stepplot(sys)", but the grading system can only accept one answer. The "stepplot(sys, plotoptions)" command can be used if targeted customization of the step plot is required, but "step(sys, timeDuration)" is generally good enough for initial visualization of the step response.
s = tf('s');
% Open-loop system
quadcopter_ol = 0.04133/(s + 0.01479)
quadcopter_ol = 0.04133 ----------- s + 0.01479 Continuous-time transfer function.
% method 1
figure(1)
step(quadcopter_ol)
% method 2
figure(2)
stepplot(quadcopter_ol)
Agasthya
Agasthya am 21 Mai 2026 um 5:01
It seems to work for me. Thankyou

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Sam Chak
Sam Chak am 4 Mai 2026 um 13:04
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Hi @Dunbarin
If this topic is related to control systems, you are probably required to implement the controller on the open-loop quadcopter to form a closed-loop control system with the desired characteristics, such as the settling time.
s = tf('s');
% Open-loop system
quadcopter_ol = 0.04133/(s + 0.01479)
quadcopter_ol = 0.04133 ----------- s + 0.01479 Continuous-time transfer function.
% Controller
controller = zpk(-5,0,100)
controller = 100 (s+5) --------- s Continuous-time zero/pole/gain model.
% Closed-loop system
closedLoop = feedback(controller*quadcopter_ol, 1)
closedLoop = 4.133 (s+5) ---------------------- (s^2 + 4.148s + 20.66) Continuous-time zero/pole/gain model.
% Step response of the closed-loop system
step(closedLoop), grid on
Warning: Graphics acceleration hardware is unavailable. Graphics quality and performance might be diminished. See MATLAB System Requirements.

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Dunbarin
Dunbarin am 4 Mai 2026 um 13:56
Thank you for your reply but the task specifically askes you to use the step function on quadcopter_ol, and what you did is the immediate task after completing what I said.
My issue is that I used the step function correctly but it still says I failed
Sam Chak
Sam Chak am 5 Mai 2026 um 14:08
Hi @Dunbarin
I’m sorry to hear that. Have you resolved the issue? If not, please contact technical support for assistance.
Dunbarin
Dunbarin am 6 Mai 2026 um 9:34
No I haven't resolved the issue yet but I have reached to tech support
Andre
Andre am 6 Mai 2026 um 19:50
Is there anything yet on this issue? I'm stuck on it.
Elijah
Elijah am 7 Mai 2026 um 23:32
I am trying to do the same but it isn't working and I am stuck on it.

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