The Impulse response is the output of a filter or control system when it is given an impulse as an input. The impulse response of a combined system is the sum of impulse responses from each system.
These systems can be physical systems or they can be waveforms for radio signals such as satellite communication waveforms.
[[Impulse Function]]
[[Digital Filter Design]] – get the impulse response from the IFT of the desired frequency response
Digital Filters – are characterized by the length of their impulse response.
[[Advantages of FDTD Simulations]] – FDT can be fed with a source impulse
[[ETSI Rician Channel]] – filters waveforms with impulse responses.
[[Unit Impulse]]
Damping Curve Charts – shows the step or impulse response of a 2nd order system with varying damping parameters
[[Frequency Response]]
[[System Identification]] – We can use an impulse response to identify a system
[[Impulse Response of an FIR Filter]]
[[Discrete Input Signal]]
Backlinks
[[FIR FIlters]]
[[Step Response]]
Sources
- [1] Phil’s Lab, FIR Filter Design and Software Implementation – Phil’s Lab #17, (Dec. 20, 2020). Accessed: Jan. 02, 2023. [Online Video]. Available: https://www.youtube.com/watch?v=uNNNj9AZisM
- [2] “Satellite Communications and NTN Design with MATLAB Video.” Accessed: Feb. 09, 2023. [Online]. Available: https://www.mathworks.com/videos/satellite-communications-and-ntn-design-with-matlab-1658934527694.html
- [3] D. Boschen, “Answer to ‘How to determine the step response given a transfer function?,’” Signal Processing Stack Exchange. Accessed: Feb. 17, 2023. [Online]. Available: https://dsp.stackexchange.com/a/66199