qinterp.m

来自「Robotics TOOLBOX The Toolbox provides m」· M 代码 · 共 58 行

%QINTERP Interpolate rotations expressed by quaternion objects
%
%	QI = qinterp(Q1, Q2, R)
%
% Return a unit-quaternion that interpolates between Q1 and Q2 as R moves
% from 0 to 1.  This is a spherical linear interpolation (slerp) that can
% be interpretted as interpolation along a great circle arc on a sphere.
%
% If r is a vector, QI, is a cell array of quaternions, each element
% corresponding to sequential elements of R.
%
% See also: CTRAJ, QUATERNION.

% MOD HISTORY
% 2/99 convert to use of objects
% $Log: qinterp.m,v $
% Revision 1.3  2002/04/14 11:02:54  pic
% Changed see also line.
%
% Revision 1.2  2002/04/01 12:06:48  pic
% General tidyup, help comments, copyright, see also, RCS keys.
%
% $Revision: 1.3 $
%
% Copyright (C) 1999-2002, by Peter I. Corke

function q = qinterp(Q1, Q2, r)


	q1 = double(Q1);
	q2 = double(Q2);

	if (r<0) | (r>1),
		error('R out of range');
	end

	theta = acos(q1*q2');
	q = {};
	count = 1;

	if length(r) == 1,
		if theta == 0,
			q = Q1;
		else
			q = quaternion( (sin((1-r)*theta) * q1 + sin(r*theta) * q2) / sin(theta) );
		end
	else
		for R=r(:)',
			if theta == 0,
				qq = Q1;
			else
				qq = quaternion( (sin((1-R)*theta) * q1 + sin(R*theta) * q2) / sin(theta) );
			end
			q{count} = qq;
			count = count + 1;
		end
	end