How does a down-sampler work as a time-varying discrete-time system?

What is a down-sampler and why is it considered a time-varying discrete-time system?

Explain the concept of downsampling and its relation to the time instant at which the input is sampled.

Explanation:

A down-sampler is a system that reduces the number of samples in a discrete-time signal by a factor known as the downsampling factor. It selects every nth sample from the input signal x[n], where n represents the discrete time index. The output of the down-sampler is the sequence y[m], with m as the discrete time index of the down-sampled signal.

The down-sampler is considered a time-varying discrete-time system because its output depends on the specific time instant at which the input signal is sampled. By changing the downsampling factor, the output signal is also altered. This variability in the output signal based on the time instant of sampling classifies the down-sampler as a time-varying system.

Additional Information:

In summary, the down-sampler operates by selecting specific samples from the input signal based on the downsampling factor, effectively reducing the signal's sampling rate. This reduction in samples leads to a downscaled version of the original signal, where the output signal varies depending on the time instant at which the input is sampled. Understanding the dynamics of a down-sampler as a time-varying discrete-time system is essential for signal processing applications.

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