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Causality


Definition: A system is causal if and only if the output y(t) at any given time depends on the input x(t) in present and/or past times; so $ y(a) $ depends on $ x(t) $ where $ t\le a $.

Side Note: All memoryless systems are causal.

Examples:

Causal System: $ y(t)=\frac{5t}{2}u(t-3) $

This system is causal because it has an output y(t) that depends on an input $ x(t)=\frac{5t}{2}u(t-3) $ where x(t) is zero for all values of $ t\le 0 $.

Non-Causal System: $ y(t)=\frac{e^{-2t}}{3}u(t+2) $

This system is not causal because it has an output y(t) that depends on an input $ x(t)=\frac{e^{-2t}}{3}u(t+2) $ where x(t) is not zero for all values of $ t\le 0 $. The input depends on values of time considered to be in the future => u(t+2).


-Tylor Thompson

Alumni Liaison

To all math majors: "Mathematics is a wonderfully rich subject."

Dr. Paul Garrett