| |
|
|
| #include "ocd_tire_models_cpp/mf_52.hpp" |
| namespace tam::ocd::tire_models |
| { |
| types::TireModelOutput MF52::evaluate(types::TireModelInput const & input) |
| { |
| types::TireModelOutput out; |
| double F_x_o = long_force_pure_slip(input.F_z_N, input.longitudinal_slip); |
| double F_y_o = lat_force_pure_slip(input.F_z_N, -input.slip_angle_rad, input.gamma_rad); |
| out.longitudinal_force_N = long_force_combined_slip( |
| input.F_z_N, input.longitudinal_slip, -input.slip_angle_rad, F_x_o, input.gamma_rad); |
| out.lateral_force_N = lat_force_combined_slip( |
| input.F_z_N, input.longitudinal_slip, -input.slip_angle_rad, F_y_o, input.gamma_rad); |
| |
| return out; |
| } |
| double MF52::long_force_pure_slip(double F_z, double kappa) const |
| { |
| double F_z_o_a = p_.LFZO * p_.FNOMIN; |
| double dfz = (F_z - F_z_o_a) / F_z_o_a; |
| double S_H_x = (p_.PHX1 + p_.PHX2 * dfz) * p_.LHX; |
| double S_V_x = F_z * (p_.PVX1 + p_.PVX2 * dfz) * p_.LVX * p_.LMUX; |
| double kappa_x = kappa + S_H_x; |
| double C_x = p_.PCX1 * p_.LCX; |
| double mu_x = (p_.PDX1 + p_.PDX2 * dfz) * p_.LMUX; |
| double D_x = mu_x * F_z; |
| double E_x = (p_.PEX1 + p_.PEX2 * dfz + p_.PEX3 * std::pow(dfz, 2)) * |
| (1.0 - p_.PEX4 * std::copysign(1.0, kappa_x)) * p_.LEX; |
| double K_x = F_z * (p_.PKX1 + p_.PKX2 * dfz) * std::exp(p_.PKX3 * dfz) * p_.LKX; |
| double B_x = K_x / (C_x * D_x); |
| |
| double F_x_o = |
| D_x * |
| std::sin(C_x * std::atan(B_x * kappa_x - E_x * (B_x * kappa_x - std::atan(B_x * kappa_x)))) + |
| S_V_x; |
| return F_x_o; |
| } |
| double MF52::lat_force_pure_slip(double F_z, double alpha, double gamma) const |
| { |
| double gamma_s = std::sin(gamma); |
| double F_z_o_a = p_.LFZO * p_.FNOMIN; |
| double dfz = (F_z - F_z_o_a) / F_z_o_a; |
| double K_y_g_o = F_z * (p_.PKY6 + p_.PKY7 * dfz) * p_.LKYG; |
| double S_V_y_g = F_z * (p_.PVY3 + p_.PVY4 * dfz) * gamma_s * p_.LKYG * p_.LMUY; |
| double S_V_y = F_z * (p_.PVY1 + p_.PVY2 * dfz) * p_.LVY * p_.LMUY + S_V_y_g; |
| double K_y = |
| p_.PKY1 * F_z_o_a * (1.0 - p_.PKY3 * std::abs(gamma_s)) * |
| std::sin(p_.PKY4 * std::atan(F_z / ((p_.PKY2 + p_.PKY5 * std::pow(gamma_s, 2)) * F_z_o_a))) * |
| p_.LKY; |
| double S_H_y = (p_.PHY1 + p_.PHY2 * dfz) * p_.LHY + (K_y_g_o * gamma_s - S_V_y_g) / K_y; |
| double C_y = p_.PCY1 * p_.LCY; |
| double mu_y = ((p_.PDY1 + p_.PDY2 * dfz) * (1.0 - p_.PDY3 * std::pow(gamma_s, 2))) * p_.LMUY; |
| double D_y = mu_y * F_z; |
| double B_y = K_y / (C_y * D_y); |
| double alpha_y = alpha + S_H_y; |
| double E_y = (p_.PEY1 + p_.PEY2 * dfz) * |
| (1.0 + p_.PEY5 * std::pow(gamma_s, 2) - |
| (p_.PEY3 + p_.PEY4 * gamma_s) * std::copysign(1.0, alpha_y)) * |
| p_.LEY; |
| double F_y_o = |
| D_y * |
| std::sin(C_y * std::atan(B_y * alpha_y - E_y * (B_y * alpha_y - std::atan(B_y * alpha_y)))) + |
| S_V_y; |
| return F_y_o; |
| } |
| double MF52::long_force_combined_slip( |
| double F_z, double kappa, double alpha, double F_x_o, double gamma) const |
| { |
| double gamma_s = std::sin(gamma); |
| double F_z_o_a = p_.LFZO * p_.FNOMIN; |
| double dfz = (F_z - F_z_o_a) / F_z_o_a; |
| double S_H_x_a = p_.RHX1; |
| double E_x_a = p_.REX1 + p_.REX2 * dfz; |
| double C_x_a = p_.RCX1; |
| double B_x_a = |
| (p_.RBX1 + p_.RBX3 * std::pow(gamma_s, 2)) * std::cos(std::atan(p_.RBX2 * kappa)) * p_.LXAL; |
| double alpha_S = alpha + S_H_x_a; |
| double G_x_a_o = std::cos( |
| C_x_a * std::atan(B_x_a * S_H_x_a - E_x_a * (B_x_a * S_H_x_a - std::atan(B_x_a * S_H_x_a)))); |
| double G_x_a = |
| std::cos( |
| C_x_a * std::atan(B_x_a * alpha_S - E_x_a * (B_x_a * alpha_S - std::atan(B_x_a * alpha_S)))) / |
| G_x_a_o; |
| double F_x = G_x_a * F_x_o; |
| return F_x; |
| } |
| double MF52::lat_force_combined_slip( |
| double F_z, double kappa, double alpha, double F_y_o, double gamma) const |
| { |
| double gamma_s = std::sin(gamma); |
| double F_z_o_a = p_.LFZO * p_.FNOMIN; |
| double dfz = (F_z - F_z_o_a) / F_z_o_a; |
| double mu_y = ((p_.PDY1 + p_.PDY2 * dfz) / (1.0 + p_.PDY3 * std::pow(gamma_s, 2))) * p_.LMUY; |
| double D_V_y_k = mu_y * F_z * (p_.RVY1 + p_.RVY2 * dfz + p_.RVY3 * gamma_s) * |
| std::cos(std::atan(p_.RVY4 * alpha)); |
| double S_V_y_k = D_V_y_k * std::sin(p_.RVY5 * std::atan(p_.RVY6 * kappa)) * p_.LVYKA; |
| double S_H_y_k = p_.RHY1 + p_.RHY2 * dfz; |
| double E_y_k = p_.REY1 + p_.REY2 * dfz; |
| double C_y_k = p_.RCY1; |
| double B_y_k = (p_.RBY1 + p_.RBY4 * std::pow(gamma_s, 2)) * |
| std::cos(std::atan(p_.RBY2 * (alpha - p_.RBY3))) * p_.LYKA; |
| double kappa_S = kappa + S_H_y_k; |
| double G_y_k_o = std::cos( |
| C_y_k * std::atan(B_y_k * S_H_y_k - E_y_k * (B_y_k * S_H_y_k - std::atan(B_y_k * S_H_y_k)))); |
| double G_y_k = |
| std::cos( |
| C_y_k * std::atan(B_y_k * kappa_S - E_y_k * (B_y_k * kappa_S - std::atan(B_y_k * kappa_S)))) / |
| G_y_k_o; |
| double F_y = G_y_k * F_y_o + S_V_y_k; |
| return F_y; |
| } |
| void MF52::declare_parameters( |
| tam::pmg::ParamReferenceManager * param_manager, std::string name_prefix) |
| { |
| |
| |
| param_manager->declare_parameter(name_prefix + "PCX1", &(p_.PCX1), 1.6 , tam::pmg::ParameterType::DOUBLE, "Shape factor Cfx for longitudinal force"); |
| param_manager->declare_parameter(name_prefix + "PDX1", &(p_.PDX1), 1.5 , tam::pmg::ParameterType::DOUBLE, "Longitudinal friction Mux at Fznom"); |
| param_manager->declare_parameter(name_prefix + "PDX2", &(p_.PDX2), -0.04 , tam::pmg::ParameterType::DOUBLE, "Variation of friction Mux with load"); |
| param_manager->declare_parameter(name_prefix + "PDX3", &(p_.PDX3), 0.1 , tam::pmg::ParameterType::DOUBLE, "Variation of friction Mux with camber"); |
| param_manager->declare_parameter(name_prefix + "PEX1", &(p_.PEX1), 0.7 , tam::pmg::ParameterType::DOUBLE, "Longitudinal curvature Efx at Fznom"); |
| param_manager->declare_parameter(name_prefix + "PEX2", &(p_.PEX2), -0.17 , tam::pmg::ParameterType::DOUBLE, "Variation of curvature Efx with load"); |
| param_manager->declare_parameter(name_prefix + "PEX3", &(p_.PEX3), 0.023 , tam::pmg::ParameterType::DOUBLE, "Variation of curvature Efx with load squared"); |
| param_manager->declare_parameter(name_prefix + "PEX4", &(p_.PEX4), -0.14 , tam::pmg::ParameterType::DOUBLE, "Factor in curvature Efx while driving"); |
| param_manager->declare_parameter(name_prefix + "PKX1", &(p_.PKX1), 30.7 , tam::pmg::ParameterType::DOUBLE, "Longitudinal slip stiffness Kfx/Fz at Fznom"); |
| param_manager->declare_parameter(name_prefix + "PKX2", &(p_.PKX2), 0.27 , tam::pmg::ParameterType::DOUBLE, "Variation of slip stiffness Kfx/Fz with load"); |
| param_manager->declare_parameter(name_prefix + "PKX3", &(p_.PKX3), 0.13 , tam::pmg::ParameterType::DOUBLE, "Exponent in slip stiffness Kfx/Fz with load"); |
| param_manager->declare_parameter(name_prefix + "PHX1", &(p_.PHX1), 0.0 , tam::pmg::ParameterType::DOUBLE, "Horizontal shift Shx at Fznom"); |
| param_manager->declare_parameter(name_prefix + "PHX2", &(p_.PHX2), 0.0 , tam::pmg::ParameterType::DOUBLE, "Variation of shift Shx with load"); |
| param_manager->declare_parameter(name_prefix + "PVX1", &(p_.PVX1), 0.0 , tam::pmg::ParameterType::DOUBLE, "Vertical shift Svx/Fz at Fznom"); |
| param_manager->declare_parameter(name_prefix + "PVX2", &(p_.PVX2), 0.0 , tam::pmg::ParameterType::DOUBLE, "ariation of shift Svx/Fz with load"); |
| param_manager->declare_parameter(name_prefix + "RBX1", &(p_.RBX1), 17.4 , tam::pmg::ParameterType::DOUBLE, "Slope factor for combined slip Fx reduction"); |
| param_manager->declare_parameter(name_prefix + "RBX2", &(p_.RBX2), 12.9 , tam::pmg::ParameterType::DOUBLE, "Variation of slope Fx reduction with kappa"); |
| param_manager->declare_parameter(name_prefix + "RBX3", &(p_.RBX3), 0.0 , tam::pmg::ParameterType::DOUBLE, "Camber influence on combined slip longitudinal force"); |
| param_manager->declare_parameter(name_prefix + "RCX1", &(p_.RCX1), 1.1 , tam::pmg::ParameterType::DOUBLE, "Shape factor for combined slip Fx reduction"); |
| param_manager->declare_parameter(name_prefix + "REX1", &(p_.REX1), 0.0 , tam::pmg::ParameterType::DOUBLE, "Curvature factor of combined Fx"); |
| param_manager->declare_parameter(name_prefix + "REX2", &(p_.REX2), 0.0 , tam::pmg::ParameterType::DOUBLE, "Curvature factor of combined Fx with load"); |
| param_manager->declare_parameter(name_prefix + "RHX1", &(p_.RHX1), 0.001 , tam::pmg::ParameterType::DOUBLE, "Shift factor for combined slip Fx reduction"); |
| param_manager->declare_parameter(name_prefix + "PTX1", &(p_.PTX1), 0.75 , tam::pmg::ParameterType::DOUBLE, "Relaxation length SigKap0/Fz at Fznom"); |
| param_manager->declare_parameter(name_prefix + "PTX2", &(p_.PTX2), 0.007 , tam::pmg::ParameterType::DOUBLE, "Variation of SigKap0/Fz with load"); |
| param_manager->declare_parameter(name_prefix + "PTX3", &(p_.PTX3), -0.013 , tam::pmg::ParameterType::DOUBLE, "Variation of SigKap0/Fz with exponent of load"); |
| |
|
|
| |
| |
| param_manager->declare_parameter(name_prefix + "PCY1", &(p_.PCY1), 1.5 , tam::pmg::ParameterType::DOUBLE, "Shape factor Cfy for lateral forces"); |
| param_manager->declare_parameter(name_prefix + "PDY1", &(p_.PDY1), 1.2 , tam::pmg::ParameterType::DOUBLE, "Lateral friction Muy "); |
| param_manager->declare_parameter(name_prefix + "PDY2", &(p_.PDY2), -0.09 , tam::pmg::ParameterType::DOUBLE, "Variation of friction Muy with load "); |
| param_manager->declare_parameter(name_prefix + "PDY3", &(p_.PDY3), 0.1 , tam::pmg::ParameterType::DOUBLE, "Variation of friction Muy with squared camber"); |
| param_manager->declare_parameter(name_prefix + "PEY1", &(p_.PEY1), 0.1 , tam::pmg::ParameterType::DOUBLE, "Lateral curvature Efy at Fznom"); |
| param_manager->declare_parameter(name_prefix + "PEY2", &(p_.PEY2), -1.2 , tam::pmg::ParameterType::DOUBLE, "Variation of curvature Efy with load"); |
| param_manager->declare_parameter(name_prefix + "PEY3", &(p_.PEY3), 0.05 , tam::pmg::ParameterType::DOUBLE, "Zero order camber dependency of curvature Efy"); |
| param_manager->declare_parameter(name_prefix + "PEY4", &(p_.PEY4), -8.1 , tam::pmg::ParameterType::DOUBLE, "Variation of curvature Efy with camber"); |
| param_manager->declare_parameter(name_prefix + "PKY1", &(p_.PKY1), -75.5 , tam::pmg::ParameterType::DOUBLE, "Maximum value of stiffness Kfy/Fznom"); |
| param_manager->declare_parameter(name_prefix + "PKY2", &(p_.PKY2), 4.65 , tam::pmg::ParameterType::DOUBLE, "Load at which Kfy reaches maximum value"); |
| param_manager->declare_parameter(name_prefix + "PKY3", &(p_.PKY3), -0.6 , tam::pmg::ParameterType::DOUBLE, "Variation of Kfy/Fznom with camber"); |
| param_manager->declare_parameter(name_prefix + "PHY1", &(p_.PHY1), 0.003 , tam::pmg::ParameterType::DOUBLE, "Horizontal shift Shy at Fznom"); |
| param_manager->declare_parameter(name_prefix + "PHY2", &(p_.PHY2), -0.0006, tam::pmg::ParameterType::DOUBLE, "Variation of shift Shy with load"); |
| param_manager->declare_parameter(name_prefix + "PHY3", &(p_.PHY3), 0.004 , tam::pmg::ParameterType::DOUBLE, "Variation of shift Shy with camber"); |
| param_manager->declare_parameter(name_prefix + "PVY1", &(p_.PVY1), 0.04 , tam::pmg::ParameterType::DOUBLE, "Vertical shift in Svy/Fz at Fznom"); |
| param_manager->declare_parameter(name_prefix + "PVY2", &(p_.PVY2), -0.02 , tam::pmg::ParameterType::DOUBLE, "Variation of shift Svy/Fz with load"); |
| param_manager->declare_parameter(name_prefix + "PVY3", &(p_.PVY3), -0.97 , tam::pmg::ParameterType::DOUBLE, "Variation of shift Svy/Fz with camber"); |
| param_manager->declare_parameter(name_prefix + "PVY4", &(p_.PVY4), -0.41 , tam::pmg::ParameterType::DOUBLE, "Variation of shift Svy/Fz with camber and load"); |
| param_manager->declare_parameter(name_prefix + "RBY1", &(p_.RBY1), 20.6 , tam::pmg::ParameterType::DOUBLE, "Slope factor for combined Fy reduction"); |
| param_manager->declare_parameter(name_prefix + "RBY2", &(p_.RBY2), -23.5 , tam::pmg::ParameterType::DOUBLE, "Variation of slope Fy reduction with alpha"); |
| param_manager->declare_parameter(name_prefix + "RBY3", &(p_.RBY3), 0.001 , tam::pmg::ParameterType::DOUBLE, "Shift term for alpha in slope Fy reduction"); |
| param_manager->declare_parameter(name_prefix + "RCY1", &(p_.RCY1), 1.0 , tam::pmg::ParameterType::DOUBLE, "Shape factor for combined Fy reduction"); |
| param_manager->declare_parameter(name_prefix + "REY1", &(p_.REY1), 0.0 , tam::pmg::ParameterType::DOUBLE, "Curvature factor of combined Fy"); |
| param_manager->declare_parameter(name_prefix + "REY2", &(p_.REY2), 0.0 , tam::pmg::ParameterType::DOUBLE, "Curvature factor of combined Fy with load"); |
| param_manager->declare_parameter(name_prefix + "RHY1", &(p_.RHY1), -0.02 , tam::pmg::ParameterType::DOUBLE, "Shift factor for combined Fy reduction"); |
| param_manager->declare_parameter(name_prefix + "RHY2", &(p_.RHY2), 0.0 , tam::pmg::ParameterType::DOUBLE, "Shift factor for combined Fy reduction with load"); |
| param_manager->declare_parameter(name_prefix + "RVY1", &(p_.RVY1), 0.16 , tam::pmg::ParameterType::DOUBLE, "Kappa induced side force Svyk/Muy*Fz at Fznom"); |
| param_manager->declare_parameter(name_prefix + "RVY2", &(p_.RVY2), 0.03 , tam::pmg::ParameterType::DOUBLE, "Variation of Svyk/Muy*Fz with load"); |
| param_manager->declare_parameter(name_prefix + "RVY3", &(p_.RVY3), 27.5 , tam::pmg::ParameterType::DOUBLE, "Variation of Svyk/Muy*Fz with camber"); |
| param_manager->declare_parameter(name_prefix + "RVY4", &(p_.RVY4), -29.7 , tam::pmg::ParameterType::DOUBLE, "Variation of Svyk/Muy*Fz with alpha"); |
| param_manager->declare_parameter(name_prefix + "RVY5", &(p_.RVY5), 0.03 , tam::pmg::ParameterType::DOUBLE, "Variation of Svyk/Muy*Fz with kappa"); |
| param_manager->declare_parameter(name_prefix + "RVY6", &(p_.RVY6), 0.0 , tam::pmg::ParameterType::DOUBLE, "Variation of Svyk/Muy*Fz with atan(kappa)"); |
| param_manager->declare_parameter(name_prefix + "PTY1", &(p_.PTY1), 3.8 , tam::pmg::ParameterType::DOUBLE, "Peak value of relaxation length SigAlp0/R0"); |
| param_manager->declare_parameter(name_prefix + "PTY2", &(p_.PTY2), 4.7 , tam::pmg::ParameterType::DOUBLE, "Value of Fz/Fznom where SigAlp0 is extreme"); |
| param_manager->declare_parameter(name_prefix + "PEY5", &(p_.PEY5), 0.0 , tam::pmg::ParameterType::DOUBLE, "Lateral curvature variation with camber squared"); |
| param_manager->declare_parameter(name_prefix + "PKY4", &(p_.PKY4), 2.0 , tam::pmg::ParameterType::DOUBLE, "Lateral force stiffness, KFy curvature"); |
| param_manager->declare_parameter(name_prefix + "PKY5", &(p_.PKY5), 0.0 , tam::pmg::ParameterType::DOUBLE, "Variation of peak stiffness with squared camber"); |
| param_manager->declare_parameter(name_prefix + "PKY6", &(p_.PKY6), 0.0 , tam::pmg::ParameterType::DOUBLE, "Lateral force, Fy, camber stiffness factor"); |
| param_manager->declare_parameter(name_prefix + "PKY7", &(p_.PKY7), 0.0 , tam::pmg::ParameterType::DOUBLE, "Camber stiffness vertical load dependency"); |
| param_manager->declare_parameter(name_prefix + "PPY1", &(p_.PPY1), 0.0 , tam::pmg::ParameterType::DOUBLE, "Cornering stiffness variation with inflation pressure"); |
| param_manager->declare_parameter(name_prefix + "PPY2", &(p_.PPY2), 0.0 , tam::pmg::ParameterType::DOUBLE, "Cornering stiffness variation with inflation pressure induced nominal load dependency"); |
| param_manager->declare_parameter(name_prefix + "PPY3", &(p_.PPY3), 0.0 , tam::pmg::ParameterType::DOUBLE, "Linear inflation pressure on peak lateral friction"); |
| param_manager->declare_parameter(name_prefix + "PPY4", &(p_.PPY4), 0.0 , tam::pmg::ParameterType::DOUBLE, "Quadratic inflation pressure on peak lateral friction"); |
| param_manager->declare_parameter(name_prefix + "PPY5", &(p_.PPY5), 0.0 , tam::pmg::ParameterType::DOUBLE, "Inflation pressure effect on camber stiffness"); |
| param_manager->declare_parameter(name_prefix + "RBY4", &(p_.RBY4), 0.0 , tam::pmg::ParameterType::DOUBLE, "Lateral force, Fy, combined stiffness variation from camber"); |
| |
|
|
| |
| |
| param_manager->declare_parameter(name_prefix + "LFZO" , &(p_.LFZO) , 1.0 , tam::pmg::ParameterType::DOUBLE, "Scale factor of nominal (rated) load"); |
| param_manager->declare_parameter(name_prefix + "LCX" , &(p_.LCX) , 1.0 , tam::pmg::ParameterType::DOUBLE, "Scale factor of Fx shape factor"); |
| param_manager->declare_parameter(name_prefix + "LMUX" , &(p_.LMUX) , 0.97 , tam::pmg::ParameterType::DOUBLE, "Scale factor of Fx peak friction coefficient"); |
| param_manager->declare_parameter(name_prefix + "LEX" , &(p_.LEX) , 1.0 , tam::pmg::ParameterType::DOUBLE, "Scale factor of Fx curvature factor"); |
| param_manager->declare_parameter(name_prefix + "LKX" , &(p_.LKX) , 1.0 , tam::pmg::ParameterType::DOUBLE, "Scale factor of Fx slip stiffness"); |
| param_manager->declare_parameter(name_prefix + "LHX" , &(p_.LHX) , 1.0 , tam::pmg::ParameterType::DOUBLE, "Scale factor of Fx horizontal shift"); |
| param_manager->declare_parameter(name_prefix + "LVX" , &(p_.LVX) , 1.0 , tam::pmg::ParameterType::DOUBLE, "Scale factor of Fx vertical shift"); |
| param_manager->declare_parameter(name_prefix + "LGAX" , &(p_.LGAX) , 1.0 , tam::pmg::ParameterType::DOUBLE, "Scale factor of camber for Fx"); |
| param_manager->declare_parameter(name_prefix + "LCY" , &(p_.LCY) , 1.0 , tam::pmg::ParameterType::DOUBLE, "Scale factor of Fy shape factor"); |
| param_manager->declare_parameter(name_prefix + "LMUY" , &(p_.LMUY) , 0.97 , tam::pmg::ParameterType::DOUBLE, "Scale factor of Fy peak friction coefficient"); |
| param_manager->declare_parameter(name_prefix + "LEY" , &(p_.LEY) , 1.0 , tam::pmg::ParameterType::DOUBLE, "Scale factor of Fy curvature factor"); |
| param_manager->declare_parameter(name_prefix + "LKY" , &(p_.LKY) , 1.0 , tam::pmg::ParameterType::DOUBLE, "Scale factor of Fy cornering stiffness"); |
| param_manager->declare_parameter(name_prefix + "LKYG" , &(p_.LKYG) , 1.0 , tam::pmg::ParameterType::DOUBLE, "Scale factor of Fy camber force stiffness"); |
| param_manager->declare_parameter(name_prefix + "LHY" , &(p_.LHY) , 1.0 , tam::pmg::ParameterType::DOUBLE, "Scale factor of Fy horizontal shift"); |
| param_manager->declare_parameter(name_prefix + "LVY" , &(p_.LVY) , 1.0 , tam::pmg::ParameterType::DOUBLE, "Scale factor of Fy vertical shift"); |
| param_manager->declare_parameter(name_prefix + "LGAY" , &(p_.LGAY) , 1.0 , tam::pmg::ParameterType::DOUBLE, "Scale factor of camber for Fy"); |
| param_manager->declare_parameter(name_prefix + "LTR" , &(p_.LTR) , 1.0 , tam::pmg::ParameterType::DOUBLE, "Scale factor of Peak of pneumatic trail"); |
| param_manager->declare_parameter(name_prefix + "LRES" , &(p_.LRES) , 1.0 , tam::pmg::ParameterType::DOUBLE, "Scale factor for offset of residual torque"); |
| param_manager->declare_parameter(name_prefix + "LGAZ" , &(p_.LGAZ) , 1.0 , tam::pmg::ParameterType::DOUBLE, "Scale factor of camber for Mz"); |
| param_manager->declare_parameter(name_prefix + "LXAL" , &(p_.LXAL) , 1.0 , tam::pmg::ParameterType::DOUBLE, "Scale factor of alpha influence on Fx"); |
| param_manager->declare_parameter(name_prefix + "LYKA" , &(p_.LYKA) , 1.0 , tam::pmg::ParameterType::DOUBLE, "Scale factor of alpha influence on Fx"); |
| param_manager->declare_parameter(name_prefix + "LVYKA", &(p_.LVYKA) , 1.0 , tam::pmg::ParameterType::DOUBLE, "Scale factor of kappa induced Fy"); |
| param_manager->declare_parameter(name_prefix + "LS" , &(p_.LS) , 1.0 , tam::pmg::ParameterType::DOUBLE, "Scale factor of Moment arm of Fx"); |
| param_manager->declare_parameter(name_prefix + "LSGKP", &(p_.LSGKP) , 1.0 , tam::pmg::ParameterType::DOUBLE, "Scale factor of Relaxation length of Fx"); |
| param_manager->declare_parameter(name_prefix + "LSGAL", &(p_.LSGAL) , 1.0 , tam::pmg::ParameterType::DOUBLE, "Scale factor of Relaxation length of Fy"); |
| param_manager->declare_parameter(name_prefix + "LGYR" , &(p_.LGYR) , 1.0 , tam::pmg::ParameterType::DOUBLE, "Scale factor of gyroscopic torque"); |
| param_manager->declare_parameter(name_prefix + "LMX" , &(p_.LMX) , 1.0 , tam::pmg::ParameterType::DOUBLE, "Scale factor of overturning couple"); |
| param_manager->declare_parameter(name_prefix + "LVMX" , &(p_.LVMX) , 1.0 , tam::pmg::ParameterType::DOUBLE, "Scale factor of Mx vertical shift"); |
| param_manager->declare_parameter(name_prefix + "LMY" , &(p_.LMY) , 1.0 , tam::pmg::ParameterType::DOUBLE, "Scale factor of rolling resistance torque"); |
| |
|
|
| |
| param_manager->declare_parameter( |
| name_prefix + "FNOMIN", &(p_.FNOMIN), 3000.0, tam::pmg::ParameterType::DOUBLE, |
| "Nominal wheel load"); |
| } |
| } |
|
|
