![SOLVED: a You are required to design a following frequency response. -TT -Tt/4 0 T/4 TT i. Derive the impulse response of the ideal filter; ii. Obtain a causal and linear-phase FIR SOLVED: a You are required to design a following frequency response. -TT -Tt/4 0 T/4 TT i. Derive the impulse response of the ideal filter; ii. Obtain a causal and linear-phase FIR](https://cdn.numerade.com/ask_images/4ee461daf3c846dbb232147af777db37.jpg)
SOLVED: a You are required to design a following frequency response. -TT -Tt/4 0 T/4 TT i. Derive the impulse response of the ideal filter; ii. Obtain a causal and linear-phase FIR
![transfer function - Consider an ideal low pass filter $H(\omega)$, and the input to this filter is the periodic square wave $x(t)$. Find the output $y(t)$ - Signal Processing Stack Exchange transfer function - Consider an ideal low pass filter $H(\omega)$, and the input to this filter is the periodic square wave $x(t)$. Find the output $y(t)$ - Signal Processing Stack Exchange](https://i.stack.imgur.com/pZsUS.png)
transfer function - Consider an ideal low pass filter $H(\omega)$, and the input to this filter is the periodic square wave $x(t)$. Find the output $y(t)$ - Signal Processing Stack Exchange
![frequency response - Definition of Ideal Low pass filter (Time Continous) - Signal Processing Stack Exchange frequency response - Definition of Ideal Low pass filter (Time Continous) - Signal Processing Stack Exchange](https://i.stack.imgur.com/qsTeg.png)