Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I am plotting the azimuth and elevation of some satellites, where the color of each trajectory represents the S4 index, from low (blue) to high (red). I would like however, to be able to format the colors and corresponding values, so that more of the lower effects of scintillation can actually be distinguished. This is because the high end of scintillation (red) only shows one or two points. Here is a picture of the trajectory and the code.

satellite trajectory showing color coded scintillation

clc; close all; clear all
load combo_323_full
circular_plot
x = [];
y = [];
for s = 1:samples       
  % plot each satellite location for that sample
  for sv = 1:sats
    % check if positive or negative elevation
    if (elevation((s - 1) * sats + sv) < 0)
      elNeg = 1;
    else
      elNeg = 0;
    end
    % convert to plottable cartesian coordinates
    el = elevation((s - 1) * sats + sv);
    az = azimuth((s - 1) * sats + sv);
    x = [x;(pi/2-abs(el))/(pi/2).*cos(az-pi/2)];
    y = [y;-1*(pi/2-abs(el))/(pi/2).*sin(az-pi/2)];
    % check for final sample
%     if (s == samples)
%       plot(x,y,'r*');
%       text(x,y+.07,int2str(SVs(sv)), ...
%            'horizontalalignment', ...
%            'center','color','r');
%     else
      % check for +/- elevation
%       if (elNeg == 0)
%         plot(x,y,'.','color',rgb('DarkBlue'));
%       else
%         plot(x,y,'g.');
% %       end
%     end
  end
end
z = combo(:,5);
for j = 1:10
%     hold on
%     circular_plot
lRef = length(x);
l1 = floor(lRef*(1/100));
l2 = floor(l1*j);
x_time = x(1:l2);
y_time = y(1:l2);
zr = z(1:l2);

navConstants;

% find out from 'plotMat' if plotting satellite locations or trajectories in
% addition determine how many satellites are being tracked and how many
% samples for each satellite (# samples / satellite must always be equal)
gpsTime = combo(1,2);
i = 1;
t = gpsTime;
while ((i ~= size(combo,1)) & (t == gpsTime))
  i = i + 1;
  t = combo(i,2);
end
if (t == gpsTime)
  sats = i;
else
  sats = i - 1;
end;
samples = size(combo,1) / sats;
SVs = combo(1:sats,1);
elevation = combo(:,20).*pi/180;
azimuth = combo(:,19).*pi/180;
% initialize polar - plotting area
figure(j);
axis([-1.4 1.4 -1.1 1.1]);
axis('off');
axis(axis);
hold on;
% plot circular axis and labels
th = 0:pi/50:2*pi;
x_c = [ cos(th) .67.*cos(th) .33.*cos(th) ];
y_c = [ sin(th) .67.*sin(th) .33.*sin(th) ];
plot(x_c,y_c,'color','w');
text(1.1,0,'90','horizontalalignment','center');
text(0,1.1,'0','horizontalalignment','center');
text(-1.1,0,'270','horizontalalignment','center');
text(0,-1.1,'180','horizontalalignment','center'); 
% plot spoke axis and labels
th = (1:6)*2*pi/12;
x_c = [ -cos(th); cos(th) ];
y_c = [ -sin(th); sin(th) ];
plot(x_c,y_c,'color','w');
text(-.46,.93,'0','horizontalalignment','center');
text(-.30,.66,'30','horizontalalignment','center');
text(-.13,.36,'60','horizontalalignment','center');
text(.04,.07,'90','horizontalalignment','center');

scatter(x_time,y_time,3,zr)
colorbar
axis equal
end
share|improve this question
3  
A simple solution, if it is sufficient for your purposes: Try setting the clim (color limit) to the range of data you care about. Google 'matlab clim' if you need help. –  tmpearce Dec 12 '12 at 3:43

1 Answer 1

You can make your own colormap, it's just a N by 3 matrix where the columns are the red, green and blue components respectively.

The default colormap is jet. If you type for instance

>>> jet(16)

you will get a 16 by 3 matrix and you can see how it is made.

Then use colormap(your_own_colormap) to change it.

share|improve this answer

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.