# dsp.SpectrumEstimator

Estimate power spectrum or power density spectrum

## Description

The `dsp.SpectrumEstimator`

System object™ computes the power spectrum or the power density spectrum of a signal using the
Welch algorithm or the filter bank approach.

When you choose the Welch method, the object computes the averaged modified periodograms to compute the spectral estimate. When you choose the filter bank approach, an analysis filter bank splits the broadband input signal into multiple narrow subbands. The object computes the power in each narrow frequency band, and the computed value is the spectral estimate over the respective frequency band. For signals with relatively small FFT lengths, the filter bank approach produces a spectral estimate with a higher resolution, a more accurate noise floor, and peaks more precise than the Welch method, with low or no spectral leakage. These advantages come at the expense of increased computation and slower tracking.

The spectrum can be expressed in watts or in decibels. This object can also estimate the max-hold and min-hold spectra of the signal.

To estimate the power density spectrum:

Create the

`dsp.SpectrumEstimator`

object and set its properties.Call the object with arguments, as if it were a function.

To learn more about how System objects work, see What Are System Objects?

## Creation

### Description

returns a
System object, `SE`

= dsp.SpectrumEstimator`SE`

, that computes the frequency power spectrum or the
power density spectrum of real or complex signals. This System object uses the Welch’s averaged modified periodogram method or the filter
bank-based spectral estimation method.

returns a `SE`

= dsp.SpectrumEstimator(`Name,Value`

)`dsp.SpectrumEstimator`

System object with each specified property name set to the specified value. Unspecified
properties have default values.

## Properties

## Usage

### Description

### Input Arguments

### Output Arguments

## Object Functions

To use an object function, specify the
System object as the first input argument. For
example, to release system resources of a System object named `obj`

, use
this syntax:

release(obj)

## Examples

## Algorithms

## References

[1] Hayes, Monson H. *Statistical Digital Signal
Processing and Modeling.* Hoboken, NJ: John Wiley & Sons, 1996

[2] Kay, Steven M. *Modern Spectral Estimation: Theory
and Application.* Englewood Cliffs, NJ: Prentice Hall, 1999

[3] Stoica, Petre and Randolph L. Moses. *Spectral
Analysis of Signals.* Upper Saddle River, NJ: Prentice Hall, 2005

[4] Welch, P. D. “The use of fast Fourier transforms for the
estimation of power spectra: A method based on time averaging over short modified
periodograms,” *IEEE Transactions on Audio and Electroacoustics*,
Vol. 15, 1967, pp. 70–73.

[5] Harris, F.J. *Multirate Signal Processing for Communication
Systems*. Prentice Hall. 2004, pp. 208–209.

## Extended Capabilities

## See Also

### Functions

### Objects

### Blocks

**Introduced in R2013b**