function [stewart] = initializeJointDynamics(stewart, args) % initializeJointDynamics - Add Stiffness and Damping properties for the spherical joints % % Syntax: [stewart] = initializeJointDynamics(args) % % Inputs: % - args - Structure with the following fields: % - type_F - 'universal', 'spherical', 'universal_p', 'spherical_p' % - type_M - 'universal', 'spherical', 'universal_p', 'spherical_p' % - Kf_M [6x1] - Bending (Rx, Ry) Stiffness for each top joints [(N.m)/rad] % - Kt_M [6x1] - Torsion (Rz) Stiffness for each top joints [(N.m)/rad] % - Cf_M [6x1] - Bending (Rx, Ry) Damping of each top joint [(N.m)/(rad/s)] % - Ct_M [6x1] - Torsion (Rz) Damping of each top joint [(N.m)/(rad/s)] % - Kz_M [6x1] - Translation (Tz) Stiffness for each top joints [N/m] % - Cz_M [6x1] - Translation (Tz) Damping of each top joint [N/m] % - Kf_F [6x1] - Bending (Rx, Ry) Stiffness for each bottom joints [(N.m)/rad] % - Kt_F [6x1] - Torsion (Rz) Stiffness for each bottom joints [(N.m)/rad] % - Cf_F [6x1] - Bending (Rx, Ry) Damping of each bottom joint [(N.m)/(rad/s)] % - Cf_F [6x1] - Torsion (Rz) Damping of each bottom joint [(N.m)/(rad/s)] % - Kz_F [6x1] - Translation (Tz) Stiffness for each bottom joints [N/m] % - Cz_F [6x1] - Translation (Tz) Damping of each bottom joint [N/m] % % Outputs: % - stewart - updated Stewart structure with the added fields: % - stewart.joints_F and stewart.joints_M: % - type - 1 (universal), 2 (spherical), 3 (universal perfect), 4 (spherical perfect) % - Kx, Ky, Kz [6x1] - Translation (Tx, Ty, Tz) Stiffness [N/m] % - Kf [6x1] - Flexion (Rx, Ry) Stiffness [(N.m)/rad] % - Kt [6x1] - Torsion (Rz) Stiffness [(N.m)/rad] % - Cx, Cy, Cz [6x1] - Translation (Rx, Ry) Damping [N/(m/s)] % - Cf [6x1] - Flexion (Rx, Ry) Damping [(N.m)/(rad/s)] % - Cb [6x1] - Torsion (Rz) Damping [(N.m)/(rad/s)] arguments stewart args.type_F char {mustBeMember(args.type_F,{'universal', 'spherical', 'universal_p', 'spherical_p', 'universal_3dof'})} = 'universal' args.type_M char {mustBeMember(args.type_M,{'universal', 'spherical', 'universal_p', 'spherical_p', 'spherical_3dof'})} = 'spherical' args.Kf_M (6,1) double {mustBeNumeric, mustBeNonnegative} = 15*ones(6,1) args.Cf_M (6,1) double {mustBeNumeric, mustBeNonnegative} = 1e-4*ones(6,1) args.Kt_M (6,1) double {mustBeNumeric, mustBeNonnegative} = 20*ones(6,1) args.Ct_M (6,1) double {mustBeNumeric, mustBeNonnegative} = 1e-3*ones(6,1) args.Kz_M (6,1) double {mustBeNumeric, mustBeNonnegative} = 60e6*ones(6,1) args.Cz_M (6,1) double {mustBeNumeric, mustBeNonnegative} = 1e2*ones(6,1) args.Kf_F (6,1) double {mustBeNumeric, mustBeNonnegative} = 15*ones(6,1) args.Cf_F (6,1) double {mustBeNumeric, mustBeNonnegative} = 1e-4*ones(6,1) args.Kt_F (6,1) double {mustBeNumeric, mustBeNonnegative} = 20*ones(6,1) args.Ct_F (6,1) double {mustBeNumeric, mustBeNonnegative} = 1e-3*ones(6,1) args.Kz_F (6,1) double {mustBeNumeric, mustBeNonnegative} = 60e6*ones(6,1) args.Cz_F (6,1) double {mustBeNumeric, mustBeNonnegative} = 1e2*ones(6,1) end switch args.type_F case 'universal' stewart.joints_F.type = 1; case 'spherical' stewart.joints_F.type = 2; case 'universal_p' stewart.joints_F.type = 3; case 'spherical_p' stewart.joints_F.type = 4; case 'universal_3dof' stewart.joints_F.type = 5; end switch args.type_M case 'universal' stewart.joints_M.type = 1; case 'spherical' stewart.joints_M.type = 2; case 'universal_p' stewart.joints_M.type = 3; case 'spherical_p' stewart.joints_M.type = 4; case 'spherical_3dof' stewart.joints_M.type = 6; end stewart.joints_M.Kx = zeros(6,1); stewart.joints_M.Ky = zeros(6,1); stewart.joints_M.Kz = args.Kz_M; stewart.joints_F.Kx = zeros(6,1); stewart.joints_F.Ky = zeros(6,1); stewart.joints_F.Kz = args.Kz_F; stewart.joints_M.Cx = zeros(6,1); stewart.joints_M.Cy = zeros(6,1); stewart.joints_M.Cz = args.Cz_M; stewart.joints_F.Cx = zeros(6,1); stewart.joints_F.Cy = zeros(6,1); stewart.joints_F.Cz = args.Cz_F; stewart.joints_M.Kf = args.Kf_M; stewart.joints_M.Kt = args.Kf_M; stewart.joints_F.Kf = args.Kf_F; stewart.joints_F.Kt = args.Kf_F; stewart.joints_M.Cf = args.Cf_M; stewart.joints_M.Ct = args.Cf_M; stewart.joints_F.Cf = args.Cf_F; stewart.joints_F.Ct = args.Cf_F;