In signal processing, a shift invariant system is the discrete equivalent of a time-invariant system, defined such that if is the response of the system to , then is the response of the system to .[1] That is, in a shift-invariant system, the contemporaneous response of the output variable to a given value of the input variable does not depend on when the input occurs; time shifts are irrelevant in this regard.
Applications
editBecause digital systems need not be causal, some operations can be implemented in the digital ___domain that cannot be implemented using discrete analog components. Digital filters that require finite numbers of future values can be implemented while the analog counterparts cannot.
Notes
edit- ^ Oppenheim, Schafer, 12
References
edit- Oppenheim, Schafer, Digital Signal Processing, Prentice Hall, 1975, ISBN 0-13-214635-5
See also
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