Getting an array of points along an arc

11 views (last 30 days)
MJ
MJ on 27 Jul 2021
Edited: DGM on 27 Jul 2021
How can I replicate the following code, which plots an arc given 2 endpoints and the radius, to instead output an array of points? (Which I can then plot using plot(x,y))
i.e. I want an array of points that will give me an arc, given two endpoints a and b, and a radius r.
figure;
a = [124.0102 62.2260];
b = [33.3602 77.9434];
r=250;
syms x y
[x,y]=solve((x-a(1))^2+(y-a(2))^2==r^2,(x-b(1))^2+(y-b(2))^2==r^2,x,y);
%plot arc
syms X Y
fig = ezplot((X-x(2))^2+(Y-y(2))^2==r^2,[min(a(1),b(1)),max(a(1),b(1)), ...
min(a(2),b(2)),max(a(2),b(2))]);
set(fig,'color','black','LineStyle', '--','LineWidth',2)

Accepted Answer

KSSV
KSSV on 27 Jul 2021
clc; clear all ;
figure;
a = [124.0102 62.2260];
b = [33.3602 77.9434];
r=250;
syms x y
[x,y]=solve((x-a(1))^2+(y-a(2))^2==r^2,(x-b(1))^2+(y-b(2))^2==r^2,x,y);
x = double(x) ;
y = double(y) ;
xi = linspace(b(1),a(1)) ;
yi = linspace(a(2),b(2)) ;
[X1,Y1] = meshgrid(xi,yi) ;
R = (X1-x(2)).^2+(Y1-y(2)).^2 ;
idx = abs(R-r^2)<15 ;
Xa = X1(idx) ; Ya = Y1(idx) ;
[Xa,idx] = sort(Xa) ;
Ya = Ya(idx) ;
plot(Xa,Ya,'-*b')

More Answers (1)

DGM
DGM on 27 Jul 2021
Edited: DGM on 27 Jul 2021
This is basically the same as this answer, but maybe the explanation helps a bit:
a = [124.0102 62.2260]; % endpoints [x y]
b = [33.3602 77.9434];
r = 250; % radius
npoints = 100; % number of points to draw
% Finding the coordinates of the centers of circles
p = [a(:) b(:)];
c = sym('c',[2,1],'real');
eqs = [1,1]*(p - repmat(c(:),1,2)).^2 - r^2;
[cx cy] = vpasolve(eqs,c);
C = double([cx cy]); % solutions for centers [cx(:) cy(:)]
% each set of points with distance < 2*r
% will yield two solutions for the center coordinates
% each solution describes a circle, for which there are two possible arcs
% the arc angles are conjugate and inequal; we usually want the shorter one
% draw both short arcs and their corresponding centers
for ka = 1:size(C,1)
% find the shortest arc for this solution
v = C(ka,:);
p1 = p - v(:);
alp = atand(p1(2,:)./p1(1,:));
alp = alp + 180*(p1(1,:) < 0 & p1(2,:) > 0) - 180*(p1(1,:) < 0 & p1(2,:) < 0);
%alp = sort(alp); % only matters if you care about parameter direction
% generate points
phi = linspace(alp(1),alp(2),npoints)';
x = r*cosd(phi) + v(1);
y = r*sind(phi) + v(2);
% plot the short arc and center for this solution
plot(x,y); hold on
plot(v(1),v(2),'ok');
end
grid on
axis equal

Categories

Find more on Interpolation in Help Center and File Exchange

Community Treasure Hunt

Find the treasures in MATLAB Central and discover how the community can help you!

Start Hunting!