- Set the “MaxAngleView” property in the “conicalSensor” function to resemble a rectangular sensor as close as possible. This approach has limitations as this will always be an approximation and may not work in all the cases.
- Build a custom sensor: You can create a new sensor class with 2 defined FOV angles and your desired measurement logic. This approach will offer greater accuracy and control to implement the desired logic.
Is it possible to add a custom sensor with rectangular FOV with the aerospace toolbox?
10 views (last 30 days)
Show older comments
Hi all,
I have a simple satellite scenario
startTime = datetime(2023,2,21,18,0,0);
stopTime = startTime + hours(1);
sampleTime = 60; % seconds
sc = satelliteScenario(startTime,stopTime,sampleTime);
numSat = 33;
sats = walkerStar(sc, 500e3+6378.14e3, 86.4, numSat, 3, 2);
% sensor
g = gimbal(sats);
camSensor = conicalSensor(g,MaxViewAngle=60);
I would like to use, instead of a conical sensor that's built in in the aerospace toolbox, a rectangular sensor with two FOV angles. Is there a way to modify the conical sensor object or to build a new one that can be parented to the satellites?
0 Comments
Accepted Answer
Moksh
on 13 Dec 2023
Hi Enrico,
I understand that in your satellite scenario generated from the “Aerospace Toolbox” in MATLAB, you want to use a rectangular sensor instead of a “conicalSensor”.
There is no built-in function for a rectangular sensor in the Aerospace toolbox, instead you can try the following possible workarounds:
Here is an example template for the custom class "RectangularSensor":
classdef RectangularSensor
properties
ParentSatellite % Parent satellite object
MaxViewAngleX % Maximum view angle in the X direction
MaxViewAngleY % Maximum view angle in the Y direction
end
methods
% Constructor for the custom Rectangular Sensor class
function obj = RectangularSensor(parentSatellite, maxViewAngleX, maxViewAngleY)
obj.ParentSatellite = parentSatellite;
obj.MaxViewAngleX = maxViewAngleX;
obj.MaxViewAngleY = maxViewAngleY;
end
function measurement = takeMeasurement(obj)
% Implement measurement logic for the rectangular sensor as per
% requirements
measurement = None;
end
end
end
Usage code for the above defined custom class:
% Create a satellite scenario
startTime = datetime(2023, 2, 21, 18, 0, 0);
stopTime = startTime + hours(1);
sampleTime = 60; % seconds
sc = satelliteScenario(startTime, stopTime, sampleTime);
% Create satellites
numSat = 33;
sats = walkerStar(sc, 500e3+6378.14e3, 86.4, numSat, 3, 2);
g = gimbal(sats);
% Create the custom rectangular sensor and attach it to the satellites
rectSensor = RectangularSensor(sats, 30, 40); % Example FOV angle
Refer to the following document, for more information about user-defined classes in MATLAB:
Hope this information helps resolve the query.
Best Regards,
Moksh Aggarwal
0 Comments
More Answers (0)
See Also
Categories
Find more on Reference Applications 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!