MIT Electronic Feedback Systems (1985) View the complete course: ocw.mit.edu/RES6-010S13 Instructor: James K. Roberge License: Creative Commons BY-NC-SA More information at ocw.mit.edu/terms More courses at ocw.mit.edu
An excellent teacher, he could explain complex and unusual and counter-intuitive things with simplicity and clarity so that anyone could understand. I was luck I got a copy of his precious books. We are lucky we have these videos. I hope he didn't suffer, he will be in paradise now,. Thank you Professor Roberge, we learnt a lot and we are indebted to you.
Even though quality cannot be defined, I know what quality is whenever I watch these great lectures from our GREAT HERO, J. K. ROBERGE. Thank you, sir!!
I struggled with control feedback systems, how prof Roberge shows comparison of circuit diagram with a block diagram gets me thinking how did I miss that. James will live forever.
Thank you MIT for making it possible to learn from the best for free. Will you be uploading the Modern Control Theory Course which Prof. Roberge mentions in this video?
They sure put in a lot more effort in creating opencourseware at MIT in 1985 than they do now... This is better than the average newer courseware lectures. This is indeed "produced" and a well thought-through production - clearly polished and edited to be delivered in video format-- this is not just a captured live lecture. MIT'ers were youtubers "avant la lettre"! Impressive man, by the way, he radiates dignity and authority. (In other words he looks more like a US president than most real US presidents!)
Please fix the link to the complete course in the description, as it is not working. thank you MIT for your great effort in providing free excellent education to the world.
Scaling a circuit parameter (resistance) to get an open-loop system with the same voltage transfer function as a closed-loop system seems like a math hack.
+ibrahim osamaa The version that we have on MIT OpenCourseWare was taught in Spring 2007. See the course on MIT OCW for more details: ocw.mit.edu/courses/electrical-engineering-and-computer-science/6-302-feedback-systems-spring-2007/
Uh, what? This stuff is foundational and has not changed for about 8 decades now. Laws of physics haven’t changed, the systems being analyzed have not changed. The classical theory works quite well with a large group of everyday systems.
Still, it’s a solid foundation and a lot of analysis can be done using it. More advanced techniques also take more effrontery if you want to go pen and paper route.