RunningL2Norm function

Fast Running L2 Norm Computation

Computes running L2 norm between between time-series x and short-time pattern y.

RunningL2Norm(x, y, circular = FALSE)

Arguments

• x: A numeric vector.
• y: A numeric vector, of equal or shorter length than x.
• circular: logical; whether running L2 norm is computed assuming circular nature of x time-series (see Details).

Returns

A numeric vector.

Details

Computes running L2 norm between between time-series x and short-time pattern y. The length of output vector equals the length of x. Parameter circular determines whether x time-series is assumed to have a circular nature. Assume $l_x$ is the length of time-series x, $l_y$ is the length of short-time pattern y.

If circular equals TRUE then

• first element of the output vector corresponds to sample L2 norm between x[1:l_y] and y,
• last element of the output vector corresponds to sample L2 norm between c(x[l_x], x[1:(l_y - 1)]) and y.

If circular equals FALSE then

• first element of the output vector corresponds to sample L2 norm between x[1:l_y] and y,
• the $l_x - W + 1$-th element of the output vector corresponds to sample L2 norm between x[(l_x - l_y + 1):l_x],
• last W-1 elements of the output vector are filled with NA.

See runstats.demo(func.name = "RunningL2Norm") for a detailed presentation.

Examples

## Ex.1.
x <- sin(seq(0, 1, length.out = 1000) * 2 * pi * 6)
y1 <- x[1:100] + rnorm(100)
y2 <- rnorm(100)
out1 <- RunningL2Norm(x, y1)
out2 <- RunningL2Norm(x, y2)
plot(out1, type = "l"); points(out2, col = "blue")
## Ex.2.
x <- sin(seq(0, 1, length.out = 1000) * 2 * pi * 6)
y <- x[1:100] + rnorm(100)
out1 <- RunningL2Norm(x, y, circular = TRUE)
out2 <- RunningL2Norm(x, y, circular = FALSE)
plot(out1, type = "l"); points(out2, col = "red")