function tl = plot_trajectory(t, ref, x) tl = tiledlayout(1,1,'Padding','tight', 'TileSpacing','compact'); nexttile; hold on grid minor label_interval = 1:1200:length(x); labels = strcat(num2str(round(t(label_interval),1)), "s"); %title("Reference trajectory / Robot position", "FontSize", 18) plot(ref(:, 1), ref(:, 2), "DisplayName", "Reference trajectory", 'Color', 'blue', 'Linewidth', 12); %plot(x(:, 1), x(:, 2), "DisplayName", "Robot position", 'Color', 'green', 'Linewidth', 6); [x_arr, y_arr] = arrowed_line(x(:, 1), x(:, 2), 600, 50, 50); plot(x_arr, y_arr, "DisplayName", "Robot position", 'Color', 'green', 'Linewidth', 4); labelpoints(x(label_interval, 1), x(label_interval, 2), labels, 'N', 0.3, 'FontWeight', 'bold', 'FontSize', 15, 'Color', 'k', 'BackgroundColor', 'w'); Axes = gca; Axes.FontSize=22; Axes.FontWeight='bold'; Axes.PlotBoxAspectRatio = [1 1 1]; xlabel('\textbf{x [m]}', 'Interpreter', 'latex'); ylabel('\textbf{y [m]}', 'Interpreter', 'latex'); legend('FontSize', 22, 'Location', 'southeast', 'AutoUpdate','off') %{ xlim = Axes.XLim; ylim = Axes.YLim; xl = xlim(2) - xlim(1); yl = ylim(2) - ylim(1); rx = 0.02 * abs(xl); ry = 0.02 * abs(yl); rectangle('Position', [x(1,1)-rx, x(1,2)-ry, 2*rx, 2*ry], 'Curvature', [1,1]); Axes.XLim = xlim; Axes.YLim = ylim; Axes.PlotBoxAspectRatio = [1 1 1]; Axes.Units='normalized' Axes.OuterPosition = [0 0 1.25 1.25]; %} hold off end