![SOLVED: Please MATLAB or Octave NO hand writing Consider the unit-step response of a unity-feedback control system whose open- loop transfer function is 1 Obtain the rise time. peak time, maximum overshoot. SOLVED: Please MATLAB or Octave NO hand writing Consider the unit-step response of a unity-feedback control system whose open- loop transfer function is 1 Obtain the rise time. peak time, maximum overshoot.](https://cdn.numerade.com/ask_images/dad8497a3fbe4379941e491c428f995d.jpg)
SOLVED: Please MATLAB or Octave NO hand writing Consider the unit-step response of a unity-feedback control system whose open- loop transfer function is 1 Obtain the rise time. peak time, maximum overshoot.
![Solved) - 1.Using MATLAB, obtain the unit-step response, unit-ramp response,... (1 Answer) | Transtutors Solved) - 1.Using MATLAB, obtain the unit-step response, unit-ramp response,... (1 Answer) | Transtutors](https://files.transtutors.com/book/qimg/65d490f7-4e2f-4818-a730-9c27cbf52355.png)
Solved) - 1.Using MATLAB, obtain the unit-step response, unit-ramp response,... (1 Answer) | Transtutors
![Unit step response of the closed-loop system, corresponding to Example 2. | Download Scientific Diagram Unit step response of the closed-loop system, corresponding to Example 2. | Download Scientific Diagram](https://www.researchgate.net/publication/262030240/figure/fig4/AS:668360492736514@1536360967093/Unit-step-response-of-the-closed-loop-system-corresponding-to-Example-2.png)
Unit step response of the closed-loop system, corresponding to Example 2. | Download Scientific Diagram
![control - how to obtain the parameters of the step response within matlab in open loop? - Electrical Engineering Stack Exchange control - how to obtain the parameters of the step response within matlab in open loop? - Electrical Engineering Stack Exchange](https://i.stack.imgur.com/iBcqc.jpg)
control - how to obtain the parameters of the step response within matlab in open loop? - Electrical Engineering Stack Exchange
![Step response of a first order system with derivative input contribution Matlab - Inside the Ivory Tower Step response of a first order system with derivative input contribution Matlab - Inside the Ivory Tower](http://josephcslater.github.io/images/output_2_0.png)