Jacobian Matrix done
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@ -1,5 +1,7 @@
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%% Nass height
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Nass.h = 90 ; %mm
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Nass = struct();
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Nass.h = 90; %mm
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Nass.jacobian = 174.5; %mm
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%% Bottom Plate
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BP = struct();
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@ -1,7 +1,6 @@
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%%
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clear;
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clc;
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%%
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run Design_Nass.m
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@ -20,7 +19,7 @@ alpha_t = TP.leg.ang*deg2rad; % +- offset angle from 120 degree spacing on top
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height = (Nass.h-BP.thickness-TP.thickness-Leg.sphere.bottom-Leg.sphere.top-SP.thickness.bottom-SP.thickness.top)*0.001 ; % 2 meter height in home configuration
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radius_b = BP.leg.rad*0.001; % rayon emplacement support base
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radius_t = TP.leg.rad*0.001; % top radius in meters
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for i = 1:3,
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for i = 1:3
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% base points
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angle_m_b = (2*pi/3)* (i-1) - alpha_b;
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angle_p_b = (2*pi/3)* (i-1) + alpha_b;
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@ -44,7 +43,7 @@ body_pts = pos_top' - height*[zeros(2,6);ones(1,6)];
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legs = pos_top - pos_base;
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leg_length = [ ];
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leg_vectors = [ ];
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for i = 1:6,
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for i = 1:6
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leg_length(i) = norm(legs(i,:));
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leg_vectors(i,:) = legs(i,:) / leg_length(i);
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end
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@ -52,7 +51,7 @@ end
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Leg.lenght = 1000*leg_length(1)/1.5;
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% Calculate revolute and cylindrical axes
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for i = 1:6,
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for i = 1:6
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rev1(i,:) = cross(leg_vectors(i,:), z_axis);
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rev1(i,:) = rev1(i,:) / norm(rev1(i,:));
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rev2(i,:) = - cross(rev1(i,:), leg_vectors(i,:));
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@ -67,7 +66,7 @@ end
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lower_leg = struct('origin', [0 0 0], 'rotation', eye(3), 'end_point', [0 0 0]);
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upper_leg = struct('origin', [0 0 0], 'rotation', eye(3), 'end_point', [0 0 0]);
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for i = 1:6,
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for i = 1:6
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lower_leg(i).origin = pos_base(i,:) + (3/8)*legs(i,:);
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lower_leg(i).end_point = pos_base(i,:) + (3/4)*legs(i,:);
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lower_leg(i).rotation = [rev1(i,:)', rev2(i,:)', cyl1(i,:)'];
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@ -75,3 +74,6 @@ for i = 1:6,
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upper_leg(i).end_point = pos_base(i,:) + (1/4)*legs(i,:);
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upper_leg(i).rotation = [rev1(i,:)', rev2(i,:)', cyl1(i,:)'];
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end
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%%
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run JacobianMatrix.m
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27
JacobianMatrix.m
Normal file
27
JacobianMatrix.m
Normal file
@ -0,0 +1,27 @@
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%% Position Matrix
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M_pos_base = pos_base + (height+(TP.thickness+Leg.sphere.top+SP.thickness.top+Nass.jacobian)*1e-3)*[zeros(6, 2),ones(6, 1)];
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%% Rotation Matrix
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RM = leg_vectors;
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%%
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J = computeJacobian(RM, M_pos_base);
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%% Jacobian Matrix
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function J = computeJacobian(RM,M_pos_base)
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J = zeros(6);
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J(:, 1:3) = RM;
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for i = 1:6
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J(i, 4:6) = -RM(i, :)*getCrossProductMatrix(M_pos_base(i, :));
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end
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function M = getCrossProductMatrix(v)
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M = zeros(3);
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M(1, 2) = -v(3);
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M(1, 3) = v(2);
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M(2, 3) = -v(1);
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M(2, 1) = -M(1, 2);
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M(3, 1) = -M(1, 3);
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M(3, 2) = -M(2, 3);
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end
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end
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BIN
Nass_Matlab.slx
BIN
Nass_Matlab.slx
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