/* Function: Inverse Velocity
 * Inputs: current task position (X, Y, Z) and desired task velocities (Xd, Yd, Zd)
 * Outputs: resulting joint velocities (Ad, Bd, Cd)
 */
int servostock_velInverse(float X, float Y, float Z, float Xd, float Yd, float Zd,
		float * Ad, float * Bd, float * Cd){

	// Calculate Current Joint Positions from given Tool Positions
	float A = 0;
	float B = 0;
	float C = 0;
	if (servostock_calcInverse(X, Y, Z, &A, &B, &C))
		return 1;


	// Form Inverse Jacobian
	float J[3][3] = {{0}};
	if (formJacobian(A, B, C, J, getBaseRadius(), getEndEffectorRadius(), getRodLength()))
		return 2;
	float Jinv[3][3] = {{0}};
	if (formInvJacobian(A, B, C, J, Jinv))
		return 3;

	// Inverse calculation: jointVel = Jinv * taskVel
	float jointVel[3] = {0};
	float taskVel[3] = {Xd, Yd, Zd};
	if (mtxMlt_ThreeByOne(Jinv, taskVel, jointVel))
		return 4;

	// Return Values
	Ad[0] = jointVel[0];
	Bd[0] = jointVel[1];
	Cd[0] = jointVel[2];

	return 0; //success
}
Esempio n. 2
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void HomeLinks(){
    if(homingAllLinks){
       if ( GetPIDCalibrateionState(linkToHWIndex(0))==CALIBRARTION_DONE&&
            GetPIDCalibrateionState(linkToHWIndex(1))==CALIBRARTION_DONE&&
            GetPIDCalibrateionState(linkToHWIndex(2))==CALIBRARTION_DONE
               ){
          homingAllLinks = FALSE;
          configured = TRUE;
          println_W("All linkes reported in");
          pidReset(hwMap.Extruder0.index,0);
          int i;
          float Alpha,Beta,Gama;
          servostock_calcInverse(0, 0, getmaxZ(), &Alpha, &Beta, &Gama);
          for(i=0;i<3;i++){
             pidReset(linkToHWIndex(i), (Alpha+getRodLength()/3)/getLinkScale(i));
          }
          initializeCartesianController();
          cancelPrint();
       }


    }
}