sigwin.triang Class

Namespace: sigwin

Construct triangular window object

Description

Note

The use of sigwin.triang is not recommended. Use triang instead.

sigwin.triang is a triangular window object.

sigwin.triang creates a handle to a triangular window object for use in spectral analysis and FIR filtering by the window method. Object methods enable workspace import and ASCII file export of the window values.

For L odd, the triangular window is defined as:

$w (n) = {\begin{array}{l} \frac{2 n}{L + 1} & 1 \leq n \leq \frac{L + 1}{2} \\ 2 - \frac{2 n}{L + 1} & \frac{L + 1}{2} + 1 \leq n \leq L \end{array}$

For L even, the triangular window is defined as:

$w (n) = {\begin{array}{l} \frac{(2 n - 1)}{L} & 1 \leq n \leq \frac{L}{2} \\ 2 - \frac{(2 n - 1)}{L} & \frac{L}{2} + 1 \leq n \leq L \end{array}$

Construction

H = sigwin.triang returns a triangular window object H of length 64.

H = sigwin.triang(Length) returns a triangular window object H of length Length. Entering a positive non-integer value for Length rounds the length to the nearest integer. Entering a 1 for Length results in a window with a single value of 1.

Properties

Length

Triangular window length. The window length requires a positive integer. Entering a positive non-integer value for Length rounds the length to the nearest integer. Entering a 1 for Length results in a window with a single value of 1.

Methods

generate	Generates triangular window
info	Display information about triangular window
winwrite	Save triangular window in ASCII file

Copy Semantics

Handle. To learn how copy semantics affect your use of the class, see Copying Objects in the MATLAB^® Programming Fundamentals documentation.

Examples

collapse all

Triangular Window

Open Live Script

Generate a triangular window of length N = 16. Return its values as a column vector. Show information about the window object. Display the window.

H = sigwin.triang(16);

win = generate(H)

wininfo = info(H)

wininfo = 3×17 char array
    'Triangular Window'
    '-----------------'
    'Length  : 16     '

wvtool(H)

$Figure Window Visualization Tool contains 2 axes objects and other objects of type uimenu, uitoolbar, uipanel. Axes object 1 with title Time domain, xlabel Samples, ylabel Amplitude contains an object of type line. Axes object 2 with title Frequency domain, xlabel Normalized Frequency (\times\pi rad/sample), ylabel Magnitude (dB) contains an object of type line.$

References

Oppenheim, Alan V., and Ronald W. Schafer. Discrete-Time Signal Processing. Upper Saddle River, NJ: Prentice Hall, 1989.