Spacecraft trajectory optimization with GA in Matlab (on/off constant thrust)

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Yakov Bobrov 2022년 8월 20일

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https://kr.mathworks.com/matlabcentral/answers/1782455-spacecraft-trajectory-optimization-with-ga-in-matlab-on-off-constant-thrust

댓글: Sam Chak 2022년 8월 25일

Hello.

I would like to kindly ask for support or any advice on how to implement my problem in Matlab, perhaps using the (Global) Optimization Toolbox, and whether it is even possible.

My goal is to find a time-history of control (σ,

) during a fuel-optimal spacecraft rendezous with constant low-thrust.

Problem description:

The control variables are defined as:

σ - total thrust acceleration
- thrust acceleration projections

And the state vector is:

The objective is to minimise:

subject to:

The state equations in state-space representation (CW equations):

Control variables constraint: and σ can be equal to either 0 or (on/off)
Initial conditions: given
Terminal constraints: given
Final time inequality constraint:

As I understand, this problem can be categorised as a dynamical optimization problem, that involves integer programming. Could it be solved in Matlab, perhaps using the Genetic Algorithms which I believe allow for integer programming?

Are there any available examples on how to implement a spacecraft (or not necessarily spacecraft) trajectory optimization problem in Matlab, using GA? I have been looking for examples for a very long time, but I could not find any. In fact, I could not find any examples even without the on/off thursting constraints, and I would be grateful if anyone could direct me to other spacecraft trajectory optimization implementations in Matlab, perhaps using the fmincon function.

Thank you very much.

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Sam Chak 2022년 8월 25일

Hi @Yakov Bobrov

I'm looking deeper into your problem. Do you expect GA to return a constant integer value for sigma σ from

using the following command?

sigma = ga(fun, nvars, A, b, Aeq, beq, lb, ub, nonlcon, intcon, options)

Sam Chak 2022년 8월 25일

I'm just testing on the dynamics, and I want to see what objective function would I choose if I want to optimize the trajectory in terms of fastest arrival time, minimum error, minimum

effort, subject to the constraint:

[t, x] = ode45(@system, [0 10], [0.9; 0.6; 0.3; 0; 0; 0]);

plot(t, x(:,1:3), 'linewidth', 1.5)

grid on, xlabel('t'), ylabel('y(t)'), % ylim([-0.2 1.2])

function dxdt = system(t, x)

dxdt = zeros(6, 1);

% parameters

xf = 0.6; % final x-position

yf = 0.3; % final y-position

zf = 0.9; % final z-position

n = 1;

sigma = 1;

ux = - 2*x(4) - (x(1) - xf) - (2*n*x(5) + 3*(n^2)*x(1));

uy = - 2*x(5) - (x(2) - yf) - (-2*n*x(4));

uz = - 2*x(6) - (x(3) - zf) - (-(n^2)*x(3));

% the dynamics

dxdt(1) = x(4);

dxdt(2) = x(5);

dxdt(3) = x(6);

dxdt(4) = 2*n*x(5) + 3*(n^2)*x(1) + sigma*ux;

dxdt(5) = -2*n*x(4) + sigma*uy;

dxdt(6) = -(n^2)*x(3) + sigma*uz;

end

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답변 (1개)

Alan Weiss 2022년 8월 21일

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https://kr.mathworks.com/matlabcentral/answers/1782455-spacecraft-trajectory-optimization-with-ga-in-matlab-on-off-constant-thrust#answer_1029955

You might be interested in this example: Discretized Optimal Trajectory, Problem-Based. The problem formulation is different than yours, so it is probably not directly applicable, but you might be able to make it work for you. One thing to note: I recently found out that this sort of optimal trajectory problem works better when you lower the optimality tolerance, as described here: https://www.mathworks.com/matlabcentral/answers/1774135-possible-bug-with-coneprog.

Alan Weiss

MATLAB mathematical toolbox documentation

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Yakov Bobrov 2022년 8월 25일

편집: Yakov Bobrov 2022년 8월 25일

Alan,

Thank you a lot for your advice. So, I understand that you suggested to assume the following structure: ON-OFF-ON, and choose

and

as variables of integration. Then I would integrate my equations of motion over these intervals using an ode45 function, and include the state error into the fitness function. (Please correct me if I am wrong anywhere).

But how do I then split each of these three intervals (0→

→T) further into N smaller intervals of length j, such that at each of the intervals the thrust angles (θ and ψ) may take any of the values in the range [0, 360deg]? Also, how do I define the accuracy to which GA would be choosing the angle values (0.5deg, 1deg)?

If N = 10, then would I have the following optimization variables in my problem?

+ 10*3*2 = 60 variables (θ and ψ at each N = 1,2,..,10 of each time interval)

In total, 62 optimization variables?

Also, could you please explain, is there a way to leave T constrained to Tmin<T<Tmax, but not to strictly define it?

Sam Chak 2022년 8월 25일

Can you test if the GA is capable of producing a result for a simple system that is similar to Hohmann maneuver?

If it works, perhaps the code can be modified to solve your case.

Yakov Bobrov 2022년 8월 25일

Hi Sam, in the Hohmann transfer, two impulsive maneuvers are performed, while I am trying to model continuous thrust. There is literature available where this was done, but I am tyring to understand how to implement it.

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