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master
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@ -30,35 +30,19 @@ function [u_corr, U_corr_history, q_pred] = ucorr(t, q, sim_data)
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if eq(pred_hor, 0)
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return
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elseif eq(pred_hor, 1)
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if eq(sim_data.costfun, 1)
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% minimize vcorr_r^2 + wcorr_l^2
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H = eye(2);
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elseif eq(sim_data.costfun, 2)
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% ex1: minimize v=r(wr+wl)/2
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H = sim_data.r*sim_data.r*0.5*ones(2,2);
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elseif eq(sim_data.costfun, 3)
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% ex2: minimize w=r(wr-wl)/d
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H = sim_data.r*sim_data.r*2*[1, -1; -1, 1]/(sim_data.d*sim_data.d);
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elseif eq(sim_data.costfun, 4)
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rr = sim_data.r*sim_data.r;
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dd = sim_data.d*sim_data.d;
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bb = sim_data.b*sim_data.b;
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H1 = rr*ones(2)/4;
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H2 = bb*rr*[1 -1; -1 1]/dd;
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H = 2 * (H1 + H2);
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end
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f = zeros(2,1);
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T_inv = decouple_matrix(q_act, sim_data);
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ut = utrack(t, q_act, sim_data);
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%A = [T_inv; -T_inv];
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A = [eye(2); -eye(2)];
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d = T_inv*ut;
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b = [s_-d;s_+d];
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% solve qp problem
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options = optimoptions('quadprog', 'Algorithm','active-set','Display','off');
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u_corr = quadprog(H, f, [], [], [],[], -s_ - d, s_-d, zeros(2,1), options);
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options = optimoptions('quadprog', 'Display', 'off');
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u_corr = quadprog(H, f, A, b, [],[],[],[],[],options);
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q_pred = q_act;
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U_corr_history(:,:,1) = u_corr;
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@ -129,36 +113,35 @@ function [u_corr, U_corr_history, q_pred] = ucorr(t, q, sim_data)
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put in matrix (Ax <= b) form
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%}
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% box constraints
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lb = [];
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ub = [];
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% box constrains
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% A becomes sort of block-diagonal
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% A will be at most PREDICTION_HORIZON * 2 * 2 (2: size of T_inv; 2:
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% accounting for T_inv and -T_inv) by PREDICTION_HORIZON (number of
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% vectors in u_corr times the number of elements [2] in each vector)
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b_deq = [];
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for k=1:pred_hor
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T_inv = T_inv_pred(:,:,k);
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u_track = u_track_pred(:,:,k);
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d = T_inv*u_track;
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lb = [lb; -s_-d];
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ub = [ub; s_-d];
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b_deq = [b_deq; s_ - d; s_ + d];
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end
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if eq(sim_data.costfun, 1)
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% minimize vcorr_r^2 + wcorr_l^2
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A_deq = kron(eye(pred_hor), [eye(2); -eye(2)]);
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%A_deq
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%b_deq
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% unknowns
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% squared norm of u_corr. H must be identity,
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% PREDICTION_HORIZON*size(u_corr)
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H = eye(pred_hor*2)*2;
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elseif eq(sim_data.costfun, 2)
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% ex1: minimize v=r(wr+wl)/2
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H = kron(eye(pred_hor), sim_data.r*sim_data.r*0.5*ones(2,2));
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elseif eq(sim_data.costfun, 3)
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% ex2: minimize w=r(wr-wl)/d
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H = kron(eye(pred_hor), sim_data.r*sim_data.r*2*[1, -1; -1, 1]/(sim_data.d*sim_data.d));
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end
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% no linear terms
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f = zeros(pred_hor*2, 1);
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% solve qp problem
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options = optimoptions('quadprog', 'Algorithm','active-set','Display','off');
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U_corr = quadprog(H, f, [], [], [],[], lb, ub, zeros(2*pred_hor,1), options);
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options = optimoptions('quadprog', 'Display', 'off');
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U_corr = quadprog(H, f, A_deq, b_deq, [],[],[],[],[],options);
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%U_corr = lsqnonlin(@(pred_hor) ones(pred_hor, 1), U_corr_history(:,:,1), [], [], A_deq, b_deq, [], []);
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% reshape the vector of vectors to be an array, each element being
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% u_corr_j as a 2x1 vector
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% and add the prediction at t_k+C
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@ -5,7 +5,7 @@ function tl = plot_trajectory(t, ref, x)
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hold on
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grid minor
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label_interval = 1:5000:length(x);
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label_interval = 1:1800:length(x);
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labels = strcat(num2str(round(t(label_interval),1)), "s");
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%title("Reference trajectory / Robot position", "FontSize", 18)
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12
tesi.m
12
tesi.m
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@ -3,9 +3,9 @@ clear all
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close all
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% options
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ROBOT = 'diffdrive'
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%TESTS = ["straightline/chill", "straightline/chill_errortheta_pisixths", "straightline/toofast", "straightline/chill_errory", "circle/start_center", "figure8/chill", "figure8/toofast", "square"]
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TESTS = ["circle/start_center"]
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ROBOT = 'unicycle'
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TESTS = ["straightline/chill", "straightline/chill_errortheta_pisixths", "straightline/toofast", "straightline/chill_errory", "circle/start_center", "figure8/chill", "figure8/toofast", "square"]
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%TESTS = ["circle/start_center"]
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% main
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s_ = size(TESTS);
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@ -29,14 +29,12 @@ for i = 1:length(TESTS)
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[ref dref] = set_trajectory(sim_data.TRAJECTORY, sim_data);
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sim_data.ref = ref;
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sim_data.dref = dref;
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sim_data.costfun=4
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sim_data.tc=0.05;
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% spawn a new worker for each controller
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% 1: track only
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% 2: track + 1step
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% 3: track + multistep
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spmd (2)
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spmd (3)
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worker_index = spmdIndex;
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% load controller-specific options
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data = load(['tests/' num2str(worker_index) '.mat']);
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@ -66,7 +64,7 @@ for i = 1:length(TESTS)
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% save simulation data
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f1 = [ TEST '/' char(datetime, 'dd-MM-yyyy-HH-mm-ss')]; % windows compatible name
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f = ['results-' ROBOT '-costfun-ddronly/' f1];
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f = ['results-' ROBOT '/' f1];
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mkdir(f)
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% save workspace
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dsave([f '/workspace_composite.mat']);
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44
video_all.m
44
video_all.m
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@ -5,33 +5,25 @@ disp('Waiting 5s')
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pause(1)
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PLOT_TESTS = [
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"results-diffdrive-costfun-ddronly/circle/start_center/ddr-minv-activeset-chattering"
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"results-diffdrive-costfun-ddronly/circle/start_center/ddr-minw-activeset-chattering"
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"results-diffdrive-costfun-ddronly/circle/start_center/09-10-2024-14-14-49"
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"results-diffdrive-costfun/circle/start_center/ddr-minv-Rtinv-asymH-tc05"
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"results-diffdrive-costfun/circle/start_center/ddr-minw-Rtinv-asymH-tc05"
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"results-unicycle-costfun/circle/start_center/uni-minv-Rtinv-tc05"
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"results-unicycle-costfun/circle/start_center/uni-minw-Rtinv-tc05"
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%"results-diffdrive/straightline/chill/11-09-2024-16-57-01";
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%"results-diffdrive/straightline/chill_errortheta_pisixths/11-09-2024-16-57-43";
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%"results-diffdrive/straightline/chill_errory/11-09-2024-16-59-04";
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%"results-diffdrive/straightline/toofast/11-09-2024-16-58-24";
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%"results-diffdrive/circle/start_center/11-09-2024-16-59-50";
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%"results-diffdrive/square/11-09-2024-17-06-14";
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%"results-diffdrive/figure8/chill/11-09-2024-17-00-53";
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"results-diffdrive/straightline/chill/11-09-2024-16-57-01";
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"results-diffdrive/straightline/chill_errortheta_pisixths/11-09-2024-16-57-43";
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"results-diffdrive/straightline/chill_errory/11-09-2024-16-59-04";
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"results-diffdrive/straightline/toofast/11-09-2024-16-58-24";
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"results-diffdrive/circle/start_center/11-09-2024-16-59-50";
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"results-diffdrive/square/11-09-2024-17-06-14";
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"results-diffdrive/figure8/chill/11-09-2024-17-00-53";
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%"results-diffdrive/figure8/fancyreps/11-09-2024--45-28";
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%"results-diffdrive/figure8/toofast/11-09-2024-17-01-43";
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"results-diffdrive/figure8/toofast/11-09-2024-17-01-43";
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%"results-unicycle/straightline/chill/11-09-2024-17-07-51";
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%"results-unicycle/straightline/chill_errortheta_pisixths/11-09-2024-17-08-35";
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%"results-unicycle/straightline/chill_errory/11-09-2024-17-10-00";
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%"results-unicycle/straightline/toofast/11-09-2024-17-09-18";
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%"results-unicycle/circle/start_center/11-09-2024-17-10-48";
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%"results-unicycle/square/11-09-2024-17-17-21";
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%"results-unicycle/figure8/chill/11-09-2024-17-11-53";
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"results-unicycle/straightline/chill/11-09-2024-17-07-51";
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"results-unicycle/straightline/chill_errortheta_pisixths/11-09-2024-17-08-35";
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"results-unicycle/straightline/chill_errory/11-09-2024-17-10-00";
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"results-unicycle/straightline/toofast/11-09-2024-17-09-18";
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"results-unicycle/circle/start_center/11-09-2024-17-10-48";
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"results-unicycle/square/11-09-2024-17-17-21";
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"results-unicycle/figure8/chill/11-09-2024-17-11-53";
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%"results-unicycle/figure8/fancyreps/11-09-2024--45-28";
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%"results-unicycle/figure8/toofast/11-09-2024-17-12-45";
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"results-unicycle/figure8/toofast/11-09-2024-17-12-45";
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]
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s_ = size(PLOT_TESTS)
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@ -45,9 +37,9 @@ for i = 1:s_(1)
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dir = ['videos-' ROBOT '/', sPLOT_TEST, '/']
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mkdir(dir);
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%close all; pause(2); video(q{1}', ref_t{1}', Q_pred{1}, U_track{1}, U_corr{1}, 0, 0.12, t{1}, 4, sim_data{1}.tc*0.25, "track only");
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close all; pause(2); video(q{1}', ref_t{1}', Q_pred{1}, U_track{1}, U_corr{1}, 0, 0.12, t{1}, 4, sim_data{1}.tc*0.25, "track only");
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close all; pause(2); video(q{2}', ref_t{2}', Q_pred{2}, U_track{2}, U_corr{2}, 1, 0.12, t{2}, 4, sim_data{2}.tc*0.25, "track and 1-step");
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%close all; pause(2); video(q{3}', ref_t{3}', Q_pred{3}, U_track{3}, U_corr{3}, 3, 0.12, t{3}, 4, sim_data{3}.tc*0.25, "track and multistep");
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close all; pause(2); video(q{3}', ref_t{3}', Q_pred{3}, U_track{3}, U_corr{3}, 3, 0.12, t{3}, 4, sim_data{3}.tc*0.25, "track and multistep");
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%movefile("*.gif", dir);
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movefile("*.avi", dir);
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