示例#1
0
int hrp::calcSRInverse(const dmatrix& _a, dmatrix &_a_sr, double _sr_ratio, dmatrix _w) {
    // J# = W Jt(J W Jt + kI)-1 (Weighted SR-Inverse)
    // SR-inverse :
    // Y. Nakamura and H. Hanafusa : "Inverse Kinematic Solutions With
    // Singularity Robustness for Robot Manipulator Control"
    // J. Dyn. Sys., Meas., Control  1986. vol 108, Issue 3, pp. 163--172.

    const int c = _a.rows(); // 6
    const int n = _a.cols(); // n

    if ( _w.cols() != n || _w.rows() != n ) {
        _w = dmatrix::Identity(n, n);
    }

    dmatrix at = _a.transpose();
    dmatrix a1(c, c);
    a1 = (_a * _w * at +  _sr_ratio * dmatrix::Identity(c,c)).inverse();

    //if (DEBUG) { dmatrix aat = _a * at; std::cerr << " a*at :" << std::endl << aat; }

    _a_sr  = _w * at * a1;
    //if (DEBUG) { dmatrix ii = _a * _a_sr; std::cerr << "    i :" << std::endl << ii; }
}
示例#2
0
bool JointPathEx::calcJacobianInverseNullspace(dmatrix &J, dmatrix &Jinv, dmatrix &Jnull) {
    const int n = numJoints();
                
    hrp::dmatrix w = hrp::dmatrix::Identity(n,n);
    //
    // wmat/weight: weighting joint angle weight
    //
    // w_i = 1 + | dH/dt |      if d|dH/dt| >= 0
    //     = 1                  if d|dH/dt| <  0
    // dH/dt = (t_max - t_min)^2 (2t - t_max - t_min)
    //         / 4 (t_max - t)^2 (t - t_min)^2
    //
    // T. F. Chang and R.-V. Dubey: "A weighted least-norm solution based
    // scheme for avoiding joint limits for redundant manipulators", in IEEE
    // Trans. On Robotics and Automation, 11((2):286-292, April 1995.
    //
    for ( int j = 0; j < n ; j++ ) {
        double jang = joints[j]->q;
        double jmax = joints[j]->ulimit;
        double jmin = joints[j]->llimit;
        double e = deg2rad(1);
        if ( eps_eq(jang, jmax,e) && eps_eq(jang, jmin,e) ) {
        } else if ( eps_eq(jang, jmax,e) ) {
            jang = jmax - e;
        } else if ( eps_eq(jang, jmin,e) ) {
            jang = jmin + e;
        }

        double r;
        if ( eps_eq(jang, jmax,e) && eps_eq(jang, jmin,e) ) {
            r = DBL_MAX;
        } else {
            r = fabs( (pow((jmax - jmin),2) * (( 2 * jang) - jmax - jmin)) /
                      (4 * pow((jmax - jang),2) * pow((jang - jmin),2)) );
            if (std::isnan(r)) r = 0;
        }

        // If use_inside_joint_weight_retrieval = true (true by default), use T. F. Chang and R.-V. Dubeby weight retrieval inward.
        // Otherwise, joint weight is always calculated from limit value to resolve https://github.com/fkanehiro/hrpsys-base/issues/516.
        if (( r - avoid_weight_gain[j] ) >= 0 ) {
	  w(j, j) = optional_weight_vector[j] * ( 1.0 / ( 1.0 + r) );
	} else {
            if (use_inside_joint_weight_retrieval)
                w(j, j) = optional_weight_vector[j] * 1.0;
            else
                w(j, j) = optional_weight_vector[j] * ( 1.0 / ( 1.0 + r) );
	}
        avoid_weight_gain[j] = r;
    }
    if ( DEBUG ) {
        std::cerr << " cost :";
        for(int j = 0; j < n; j++ ) { std::cerr << std::setw(8) << std::setiosflags(std::ios::fixed) << std::setprecision(4) << avoid_weight_gain[j]; }
        std::cerr << std::endl;
        std::cerr << " optw :";
        for(int j = 0; j < n; j++ ) { std::cerr << std::setw(8) << std::setiosflags(std::ios::fixed) << std::setprecision(4) << optional_weight_vector[j]; }
        std::cerr << std::endl;
        std::cerr << "    w :";
        for(int j = 0; j < n; j++ ) { std::cerr << std::setw(8) << std::setiosflags(std::ios::fixed) << std::setprecision(4) << w(j, j); }
        std::cerr << std::endl;
    }

    double manipulability = sqrt((J*J.transpose()).determinant());
    double k = 0;
    if ( manipulability < manipulability_limit ) {
	k = manipulability_gain * pow((1 - ( manipulability / manipulability_limit )), 2);
    }
    if ( DEBUG ) {
	std::cerr << " manipulability = " <<  manipulability << " < " << manipulability_limit << ", k = " << k << " -> " << sr_gain * k << std::endl;
    }

    calcSRInverse(J, Jinv, sr_gain * k, w);

    Jnull = ( hrp::dmatrix::Identity(n, n) - Jinv * J);

    return true;
}