📄 flc3_samplea_acc.h
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real_T Gain1_Gain; /* Expression: SE
* '<S1>/Gain1'
*/
real_T Saturation_UpperSat; /* Expression: 2
* '<S2>/Saturation'
*/
real_T Saturation_LowerSat; /* Expression: -2
* '<S2>/Saturation'
*/
real_T mu_Value; /* Expression: mu
* '<S23>/mu'
*/
real_T sigma_Value; /* Expression: sigma
* '<S23>/sigma'
*/
real_T Gain_Gain_g; /* Expression: -0.5
* '<S23>/Gain'
*/
real_T Gain2_Gain; /* Expression: SDE
* '<S1>/Gain2'
*/
real_T Saturation1_UpperSat; /* Expression: 1
* '<S2>/Saturation1'
*/
real_T Saturation1_LowerSat; /* Expression: -1
* '<S2>/Saturation1'
*/
real_T mu_Value_b; /* Expression: mu
* '<S20>/mu'
*/
real_T sigma_Value_p; /* Expression: sigma
* '<S20>/sigma'
*/
real_T Gain_Gain_p; /* Expression: -0.5
* '<S20>/Gain'
*/
real_T Weight_Value_j; /* Expression: fis.rule(j_rule).weight
* '<S7>/Weight'
*/
real_T mu_Value_o; /* Expression: mu
* '<S22>/mu'
*/
real_T sigma_Value_pa; /* Expression: sigma
* '<S22>/sigma'
*/
real_T Gain_Gain_f; /* Expression: -0.5
* '<S22>/Gain'
*/
real_T Weight_Value_p; /* Expression: fis.rule(j_rule).weight
* '<S8>/Weight'
*/
real_T mu_Value_m; /* Expression: mu
* '<S21>/mu'
*/
real_T sigma_Value_b; /* Expression: sigma
* '<S21>/sigma'
*/
real_T Gain_Gain_a; /* Expression: -0.5
* '<S21>/Gain'
*/
real_T Weight_Value_n; /* Expression: fis.rule(j_rule).weight
* '<S9>/Weight'
*/
real_T mu_Value_mz; /* Expression: mu
* '<S25>/mu'
*/
real_T sigma_Value_k; /* Expression: sigma
* '<S25>/sigma'
*/
real_T Gain_Gain_e; /* Expression: -0.5
* '<S25>/Gain'
*/
real_T Weight_Value_o; /* Expression: fis.rule(j_rule).weight
* '<S10>/Weight'
*/
real_T Weight_Value_f; /* Expression: fis.rule(j_rule).weight
* '<S11>/Weight'
*/
real_T Weight_Value_b; /* Expression: fis.rule(j_rule).weight
* '<S12>/Weight'
*/
real_T mu_Value_n; /* Expression: mu
* '<S24>/mu'
*/
real_T sigma_Value_c; /* Expression: sigma
* '<S24>/sigma'
*/
real_T Gain_Gain_fi; /* Expression: -0.5
* '<S24>/Gain'
*/
real_T Weight_Value_k; /* Expression: fis.rule(j_rule).weight
* '<S13>/Weight'
*/
real_T Weight_Value_ne; /* Expression: fis.rule(j_rule).weight
* '<S14>/Weight'
*/
real_T LinearCoeff_Value[2]; /* Expression: a
* '<S26>/Linear Coeff'
*/
real_T ConstantCoeff_Value; /* Expression: b
* '<S26>/Constant Coeff'
*/
real_T LinearCoeff_Value_b[2]; /* Expression: a
* '<S27>/Linear Coeff'
*/
real_T ConstantCoeff_Value_d; /* Expression: b
* '<S27>/Constant Coeff'
*/
real_T LinearCoeff_Value_a[2]; /* Expression: a
* '<S30>/Linear Coeff'
*/
real_T ConstantCoeff_Value_g; /* Expression: b
* '<S30>/Constant Coeff'
*/
real_T LinearCoeff_Value_i[2]; /* Expression: a
* '<S29>/Linear Coeff'
*/
real_T ConstantCoeff_Value_m; /* Expression: b
* '<S29>/Constant Coeff'
*/
real_T LinearCoeff_Value_m[2]; /* Expression: a
* '<S28>/Linear Coeff'
*/
real_T ConstantCoeff_Value_e; /* Expression: b
* '<S28>/Constant Coeff'
*/
real_T MidRange_Value; /* Expression: mean(cat(1,fis.output.range),2)
* '<S4>/MidRange'
*/
real_T Zero_Value; /* Expression: 0
* '<S4>/Zero'
*/
real_T Switch_Threshold; /* Expression: 1
* '<S4>/Switch'
*/
real_T Gain3_Gain; /* Expression: SU
* '<S1>/Gain3'
*/
real_T Gain4_Gain; /* Expression: SU
* '<S1>/Gain4'
*/
real_T Integrator_IC; /* Expression: 0
* '<S1>/Integrator'
*/
real_T Gain4_Gain_e; /* Expression: SA
* '<Root>/Gain4'
*/
real_T Out1_Y0; /* Expression: 0
* 'synthesized block'
*/
real_T One_Value; /* Expression: 1
* '<S18>/One'
*/
};
extern flc3_sampleA_Parameters flc3_sampleA_DefaultParameters; /* parameters */
#endif /* _RTW_HEADER_flc3_sampleA_acc_h_ */
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