本文介绍了Matlab中的pchiptx函数,该函数用于实现形状保持的分段三次Hermite插值。内容包括函数的使用方法、求解过程、一阶导数计算,以及如何在给定数据点间进行插值评估。涉及到的关键概念包括PCHIP插值、SPLINETX等。
function v = pchiptx(x,y,u)
%PCHIPTX Textbook piecewise cubic Hermite interpolation.
% v = pchiptx(x,y,u) finds the shape-preserving piecewise cubic
% interpolant P(x), with P(x(j)) = y(j), and returns v(k) = P(u(k)).
%
% See PCHIP, SPLINETX.
% First derivatives
h = diff(x);
delta = diff(y)./h;
d = pchipslopes(h,delta);
% Piecewise polynomial coefficients
n = length(x);
c = (3*delta - 2*d(1:n-1) - d(2:n))./h;
b = (d(1:n-1) - 2*delta + d(2:n))./h.^2;
% Find subinterval indices k so that x(k) <= u < x(k+1)
k = ones(size(u));
for j = 2:n-1
k(x(j) <= u) = j;
end
% Evaluate interpolant
s = u - x(k);
v = y(k) + s.*(d(k) + s.*(c(k) + s.*b(k)));
% -------------------------------------------------------
function d = pchipslopes(h,delta)
% PCHIPSLOPES Slopes for shape-preserving Hermite cubic
% interpolation. pchipslopes(h,delta) computes d(k) = P'(x(k)).
% Slopes at interior points
% delta = diff(y)./diff(x).
% d(k) = 0 if delta(k-1) and delta(k) have opposites signs
% or either is zero.
% d(k) = weighted harmonic mean of delta(k-1) and delta(k)
% if they have the same sign.
n = length(h)+1;
d = zeros(size(h));
k = find(sign(delta(1:n-2)).*sign(delta(2:n-1)) > 0) + 1;
w1 = 2*h(k)+h(k-1);
w2 = h(k)+2*h(k-1);
d(k) = (w1+w2)./(w1./delta(k-1) + w2./delta(k));
% Slopes at endpoints
d(1) = pchipendpoint(h(1),h(2),delta(1),delta(2));
d(n) = pchipendpoint(h(n-1),h(n-2),delta(n-1),delta(n-2));
% -------------------------------------------------------
function d = pchipendpoint(h1,h2,del1,del2)
% Noncentered, shape-preserving, three-point formula.
d = ((2*h1+h2)*del1 - h1*del2)/(h1+h2);
if sign(d) ~= sign(del1)
d = 0;
elseif (sign(del1) ~= sign(del2)) & (abs(d) > abs(3*del1))
d = 3*del1;
end
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