Response of LTI System A to x(t): y(t)=x(t)-x(t-2a)

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In summary, the conversation discusses the relation between x(t) and y(t), where y(t) is the response of LTI system A to x(t). The equation for y(t) can be written as y(t) = 2t - 2(t-a) - 4(t-2a) + 4(t-3a) + 2(t-4a) - 2(t-5a) + 2(t-6a), while the equation for x(t) is x(t) = 2t - 2(t-a) + 2(t-3a) - 2(t-4a). By examining the equations for 0<t<2a and 4a<t<
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peripatein
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Hi,
y(t) is the response of LTI system A to x(t). How could I have figured out that y(t) = x(t) - x(t-2a) (please see attachment). By looking at the graphs this isn't apparent to me :S.
 

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  • #2
Write out the equations of the lines. You know that the equations are equal for 0<t<2a and 4a<t<6a.

Write out the equation of y(t) for 2a<t<4a. Relate that equation to the equation for x(t).
 
  • #3
x(t) = 2t - 2(t-a) + 2(t-3a) - 2(t-4a)
y(t) = 2t - 2(t-a) - 4(t-2a) + 4(t-3a) + 2(t-4a) - 2(t-5a) + 2(t-6a)
These are the equations of the lines. Would you agree?
 

1. What is an LTI system?

An LTI system, or linear time-invariant system, is a type of system in which the output response is directly proportional to the input signal and is not affected by any time shifts or delays.

2. What is the significance of the term "a" in the response equation?

The term "a" represents the time delay or shift in the input signal. It plays a critical role in determining the output response of the LTI system.

3. How does the output response of an LTI system differ from the input signal?

The output response of an LTI system is a modified version of the input signal, as it may undergo amplification, attenuation, or phase shifts depending on the characteristics of the system.

4. Can the response of an LTI system change over time?

No, the response of an LTI system remains constant over time, as it is not affected by any time shifts or delays in the input signal.

5. Is the response of an LTI system affected by the type of input signal?

The response of an LTI system is only affected by the characteristics of the input signal, such as its amplitude, frequency, and phase. The type of input signal (e.g. sinusoidal, step function, etc.) does not impact the output response of the system.

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