I am creating a plot in Matlab that maps the azimuth and elevation of several GPS satellites over time. Below is an example of an image of the plotted GPS satellite trajectories.

However, I also want to plot the `S_4`

index (scintillation effect caused by the ionosphere) on the same plot. I want to color code each of the GPS satellite paths to show a high `S_4`

index as red, and a low `S_4`

index as blue. I have data for all of this, but I cannot figure out a way to color code each GPS path.

Currently I know the position of each satellite at every second of a day (this is how I am able to plot the trajectory). I also have `S_4`

index values at different times and for different satellites (the `S_4`

index matrix is not the same size as the satellite position matrix).

Any ideas?

This is the function I used. It uses as input a matrix called `plotMat`

:

```
plotMat=[svID(satellite id number), gpsSec, elevation(radians), azimuth(radians)]
```

My function:

```
% 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 = plotMat(1,2);
i = 1;
t = gpsTime;
while ((i ~= size(plotMat,1)) & (t == gpsTime))
i = i + 1;
t = plotMat(i,2);
end
if (t == gpsTime)
sats = i;
else
sats = i - 1;
end;
samples = size(plotMat,1) / sats;
SVs = plotMat(1:sats,1);
elevation = plotMat(:,3);
azimuth = plotMat(:,4);
% initialize polar - plotting area
figure(10);clf;
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 = [ cos(th) .67.*cos(th) .33.*cos(th) ];
y = [ sin(th) .67.*sin(th) .33.*sin(th) ];
plot(x,y,'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 = [ -cos(th); cos(th) ];
y = [ -sin(th); sin(th) ];
plot(x,y,'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');
% plot titles
if (samples == 1)
title('Satellite Position Plot');
subtitle = sprintf('GPS time : %.2f sec',plotMat(1,2));
else
title('Satellite Trajectory Plot');
subtitle = sprintf('GPS time range : %.2f sec to %.2f sec', ...
plotMat(1,2),plotMat(size(plotMat,1),2));
text(-1.6,1,'SVID/Last Position','color','r');
text(-1.6,.9,'Positive Elevation','color','y');
text(-1.6,.8,'Negative Elevation','color','b');
end
text(0,-1.3,subtitle,'horizontalalignment','center');
% plot trajectories (or positions) and label the last postion with the
% satellite SV id; in addition, last postions are in red, otherwise position
% elevations are yellow and negative elavations are blue
%
% loop through samples
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 = (pi/2-abs(el))/(pi/2).*cos(az-pi/2);
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,'y.');
else
plot(x,y,'b.');
end
end
end
end
axis equal;
```

On the previous code I haven't added the `S_4`

index. The following code compares the GPS seconds on the scintillation (`S_4`

) data with the GPS seconds with the satellite position data. The matrix `scint.mat`

refers to the scintillation data, while `txinfo.mat`

refers to the satellite position data. This code creates a combination code that agrees on the GPS second and satellite identification number.

```
load('scint_324_first')
scint = scint';
load('txinfo_324_first_wrw')
txinfo = txinfo';
k = 0;
for i = 1:length(scint)
disp(num2str(i))
for j = 1:length(txinfo)
if scint(i,2) == txinfo(j,2) && scint(i,15) == txinfo(j,8)
k = k+1;
combo(k,:) = [scint(i,:) txinfo(j,:)];
end
end
end
```