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pracma (version 1.9.3)

polyApprox: Polynomial Approximation

Description

Generate a polynomial approximation.

Usage

polyApprox(f, a, b, n, ...)

Arguments

f
function to be approximated.
a, b
end points of the interval.
n
degree of the polynomial.
...
further variables for function f.

Value

List with four components:
p
the approximating polynomial.
f
a function evaluating this polynomial.
cheb.coeff
the Chebyshev coefficients.
estim.prec
the estimated precision over the given interval.

Details

Uses the Chebyshev coefficients to derive polynomial coefficients.

References

Carothers, N. L. (1998). A Short Course on Approximation Theory. Bowling Green State University, URL: http://personal.bgsu.edu/~carother/Approx.html.

See Also

chebApprox, polyfit

Examples

Run this code
##  Example
#   Polynomial approximation for sin
polyApprox(sin, -pi, pi, 9)
# $p
#  [1]  2.197296e-06  0.000000e+00 -1.937495e-04  0.000000e+00  8.317144e-03
#  [6]  0.000000e+00 -1.666468e-01  0.000000e+00  9.999961e-01  0.000000e+00
#
# $f
# function (x) 
# polyval(p, x)
#
# $cheb.coeff
#  [1]  0.06549943  0.00000000 -0.58518036  0.00000000  2.54520983  0.00000000
#  [7] -5.16709776  0.00000000  3.14158037  0.00000000
#
# $estim.prec
# [1] 1.151207e-05

## Not run: 
# f <- polyApprox(sin, -pi, pi, 9)$f
# x <- seq(-pi, pi, length.out = 100)
# y <- sin(x) - f(x)
# plot(x, y, type = "l", col = "blue")
# grid()## End(Not run)

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