13.2:

Classification of Signals

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Electrical Engineering
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JoVE Core Electrical Engineering
Classification of Signals

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01:30 min

September 26, 2024

In signal processing, signals are classified based on various characteristics: continuous-time versus discrete-time, periodic versus aperiodic, analog versus digital, and causal versus noncausal. Each category highlights distinct properties crucial for understanding and manipulating signals.

A continuous-time signal holds a value at every instant in time, representing information seamlessly. In contrast, a discrete-time signal holds values only at specific moments, often denoted as x(n), where n is an integer. Discrete-time signals typically arise from phenomena with inherently discrete variables, such as digital audio samples.

Periodic signals repeat patterns over time. A continuous-time periodic signal, like a sinusoidal wave, repeats every t seconds, satisfying the periodicity condition.

Equation1

Signals not meeting this condition are termed aperiodic. For discrete-time signals, periodicity implies the signal remains unchanged after a time shift of n periods, as described by,

Equation2

These signals can also be represented in complex exponential form, crucial for many applications.

Analog and digital signals are differentiated based on amplitude. An analog signal, continuous in time, can assume any value within a range, providing a smooth data representation. A digital signal, a type of discrete-time signal, can adopt values only from a finite set, making it suitable for digital systems and computation.

The causality of a signal is determined by its existence over time. A continuous-time signal is causal if it is zero for all negative time instances, indicating the signal does not anticipate future values. Conversely, a noncausal signal holds values for negative times, implying it relies on future input values. Understanding these classifications is essential for effective signal analysis and processing in fields like telecommunications, control systems, and digital signal processing.