Consciousness Videos

Introduction to System Stability and Control



Brian Douglas

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This video attempts to provide an intuitive understanding of concepts like stability and stability margin. I briefly describe both of these topics with examples and explain how you can artificially generate stability in a system by adding a closed loop control system.

I will be loading a new video each week and welcome suggestions for new topics. Please leave a comment or question below and I will do my best to address it. Thanks for watching!

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39 thoughts on “Introduction to System Stability and Control
  1. Seems like teachers really like you and your content, my teacher for online school has pointed us to your videos a few times already

  2. If our goal is always the very top of the mountain, then my actuators and sensors will be the intermolecular forces of a bit of glue.

    However, for a more general sense, I would likely be designing the ball itself to navigate, so probably GPS and an internal weight.

  3. Thank you sir very much! I'm an undergraduate student from China. I feel so grateful that I can learn such great and free control system course on youtube. Teaching with PhotoShop is really cool! You make some knowledge point like convolution so clear and easy to understand.

  4. Eureka, Brian! Consegui, pela 1ª vez na vida, entender gráficos de Estabilidade e Instabilidade, em relação ao tempo t. Obrigado!

  5. How about building electrostatic charge so that ball will always be attractive towards top of curve, and be repelled by any deviation caused when getiing closer to instability, making the system as a capacitor..

  6. I wish my curiosity lead me to this channel bit earlier

    I am in the endgame of the semester now, I will watch it anyways (after the tests )but would've loved to understand the concept rather than just solving everything without intuitivation in the test

  7. first of all this is extremely helpful , thank you very much
    secondly, i wound use a curved up (positive slope) slides that would convert the unstable system into a stable one like the example of stable system, and that is triggered by a sensor when the ball comes near it

  8. Hi, I was a little confused on why shooting a dart backward produces an unstable system… The motion of the dart is the same (except its flipped) to the stable system

  9. Very great video, very intuitive. I have one long pending doubt on small signal analysis, Is it possible to include one intuitive video on the meaning of small signal model, and also can you explain the intuitive link of small signal model to the control problem of keeping the ball on mountain top that you have described in the above video. Thanks for the video and thanks in advance

  10. shooting off a first idea to that question which popped up in my mind. Maybe I would try to introduce electro-magnetic surfaces on my mountain and ball so that as soon as it starts tumbling down either side, a similar polarity can be induced and the ball would be repelled to come back to the equilibrium point.

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