Пример #1
0
void ForwardDynamicsABM::calcABMPhase2()
{
    const LinkTraverse& traverse = body->linkTraverse();
    const int n = traverse.numLinks();

    for(int i = n-1; i >= 0; --i){
        DyLink* link = static_cast<DyLink*>(traverse[i]);

        link->pf()   -= link->f_ext();
        link->ptau() -= link->tau_ext();

        // compute articulated inertia (Eq.(6.48) of Kajita's textbook)
        for(DyLink* child = link->child(); child; child = child->sibling()){

            if(child->isFixedJoint()){
                link->Ivv() += child->Ivv();
                link->Iwv() += child->Iwv();
                link->Iww() += child->Iww();

            }else{
                const Vector3 hhv_dd = child->hhv() / child->dd();
                link->Ivv().noalias() += child->Ivv() - child->hhv() * hhv_dd.transpose();
                link->Iwv().noalias() += child->Iwv() - child->hhw() * hhv_dd.transpose();
                link->Iww().noalias() += child->Iww() - child->hhw() * (child->hhw() / child->dd()).transpose();
            }

            link->pf()  .noalias() += child->Ivv() * child->cv() + child->Iwv().transpose() * child->cw() + child->pf();
            link->ptau().noalias() += child->Iwv() * child->cv() + child->Iww() * child->cw() + child->ptau();

            if(!child->isFixedJoint()){
                const double uu_dd = child->uu() / child->dd();
                link->pf()   += uu_dd * child->hhv();
                link->ptau() += uu_dd * child->hhw();
            }
        }

        if(i > 0){
            if(!link->isFixedJoint()){
                // hh = Ia * s
                link->hhv().noalias() = link->Ivv() * link->sv() + link->Iwv().transpose() * link->sw();
                link->hhw().noalias() = link->Iwv() * link->sv() + link->Iww() * link->sw();
                // dd = Ia * s * s^T
                link->dd() = link->sv().dot(link->hhv()) + link->sw().dot(link->hhw()) + link->Jm2();
                // uu = u - hh^T*c + s^T*pp
                link->uu() = link->u() -
                    (link->hhv().dot(link->cv()) + link->hhw().dot(link->cw()) +
                     link->sv().dot(link->pf()) + link->sw().dot(link->ptau()));
            }
        }
    }
}
Пример #2
0
// A part of phase 2 (inbound loop) that can be calculated before external forces are given
void ForwardDynamicsABM::calcABMPhase2Part1()
{
    const LinkTraverse& traverse = body->linkTraverse();
    const int n = traverse.numLinks();

    for(int i = n-1; i >= 0; --i){
        DyLink* link = static_cast<DyLink*>(traverse[i]);

        for(DyLink* child = link->child(); child; child = child->sibling()){

            if(child->isFixedJoint()){
                link->Ivv() += child->Ivv();
                link->Iwv() += child->Iwv();
                link->Iww() += child->Iww();

            }else{
                const Vector3 hhv_dd = child->hhv() / child->dd();
                link->Ivv().noalias() += child->Ivv() - child->hhv() * hhv_dd.transpose();
                link->Iwv().noalias() += child->Iwv() - child->hhw() * hhv_dd.transpose();
                link->Iww().noalias() += child->Iww() - child->hhw() * (child->hhw() / child->dd()).transpose();
            }

            link->pf()  .noalias() += child->Ivv() * child->cv() + child->Iwv().transpose() * child->cw();
            link->ptau().noalias() += child->Iwv() * child->cv() + child->Iww() * child->cw();
        }

        if(i > 0){
            if(!link->isFixedJoint()){
                link->hhv().noalias() = link->Ivv() * link->sv() + link->Iwv().transpose() * link->sw();
                link->hhw().noalias() = link->Iwv() * link->sv() + link->Iww() * link->sw();
                link->dd() = link->sv().dot(link->hhv()) + link->sw().dot(link->hhw()) + link->Jm2();
                link->uu() = -(link->hhv().dot(link->cv()) + link->hhw().dot(link->cw()));
            }
        }
    }
}
Пример #3
0
void ForwardDynamicsABM::initialize()
{
    DyLink* rootLink = body->rootLink();
    rootLink->sw().setZero();
    rootLink->sv().setZero();
    rootLink->cv().setZero();
    rootLink->cw().setZero();
    rootLink->hhv().setZero();
    rootLink->hhw().setZero();
    rootLink->uu() = 0.0;
    rootLink->dd() = 0.0;

    initializeSensors();
    calcABMFirstHalf();
}
Пример #4
0
void ForwardDynamicsABM::calcABMPhase3()
{
    const LinkTraverse& traverse = body->linkTraverse();

    DyLink* root = static_cast<DyLink*>(traverse[0]);

    if(root->isFreeJoint()){

        // - | Ivv  trans(Iwv) | * | dvo | = | pf   |
        //   | Iwv     Iww     |   | dw  |   | ptau |

        Eigen::Matrix<double, 6, 6> M;
        M << root->Ivv(), root->Iwv().transpose(),
            root->Iwv(), root->Iww();
        
        Eigen::Matrix<double, 6, 1> f;
        f << root->pf(),
            root->ptau();
        f *= -1.0;

        Eigen::Matrix<double, 6, 1> a(M.colPivHouseholderQr().solve(f));

        root->dvo() = a.head<3>();
        root->dw() = a.tail<3>();

    } else {
        root->dvo().setZero();
        root->dw().setZero();
    }

    const int n = traverse.numLinks();
    for(int i=1; i < n; ++i){
        DyLink* link = static_cast<DyLink*>(traverse[i]);
        const DyLink* parent = link->parent();
        if(!link->isFixedJoint()){
            link->ddq() = (link->uu() - (link->hhv().dot(parent->dvo()) + link->hhw().dot(parent->dw()))) / link->dd();
            link->dvo().noalias() = parent->dvo() + link->cv() + link->sv() * link->ddq();
            link->dw().noalias()  = parent->dw()  + link->cw() + link->sw() * link->ddq();
        }else{
            link->ddq() = 0.0;
            link->dvo() = parent->dvo();
            link->dw()  = parent->dw(); 
        }
    }
}
Пример #5
0
/**
   \note v, dv, dw are not used in the forward dynamics, but are calculated
   for forward dynamics users.
*/
void ForwardDynamicsABM::calcABMPhase1(bool updateNonSpatialVariables)
{
    const LinkTraverse& traverse = body->linkTraverse();
    const int n = traverse.numLinks();

    for(int i=0; i < n; ++i){
        DyLink* link = static_cast<DyLink*>(traverse[i]);
        const DyLink* parent = link->parent();

        if(parent){
            
            switch(link->jointType()){
                
            case Link::ROTATIONAL_JOINT:
            {
                const Vector3 arm = parent->R() * link->b();
                link->R().noalias() = parent->R() * AngleAxisd(link->q(), link->a());
                link->p().noalias() = arm + parent->p();
                link->sw().noalias() = parent->R() * link->a();
                link->sv().noalias() = link->p().cross(link->sw());
                link->w().noalias() = link->dq() * link->sw() + parent->w();
                if(updateNonSpatialVariables){
                    link->dw().noalias() =
                        parent->dw() + link->dq() * parent->w().cross(link->sw()) + (link->ddq() * link->sw());
                    link->dv().noalias() =
                        parent->dv() + parent->w().cross(parent->w().cross(arm)) + parent->dw().cross(arm);
                }
                break;
            }
                
            case Link::SLIDE_JOINT:
                link->p().noalias() = parent->R() * (link->b() + link->q() * link->d()) + parent->p();
                link->R() = parent->R();
                link->sw().setZero();
                link->sv().noalias() = parent->R() * link->d();
                link->w() = parent->w();
                if(updateNonSpatialVariables){
                    link->dw() = parent->dw();
                    const Vector3 arm = parent->R() * link->b();
                    link->dv().noalias() =
                        parent->dv() + parent->w().cross(parent->w().cross(arm)) + parent->dw().cross(arm)
                        + 2.0 * link->dq() * parent->w().cross(link->sv()) + link->ddq() * link->sv();
                }
                break;
                
            case Link::FIXED_JOINT:
            default:
                link->p().noalias() = parent->R() * link->b() + parent->p();
                link->R() = parent->R();
                link->w() = parent->w();
                link->vo() = parent->vo();
                link->sw().setZero();
                link->sv().setZero();
                link->cv().setZero();
                link->cw().setZero();
                if(updateNonSpatialVariables){
                    link->dw() = parent->dw();
                    const Vector3 arm = parent->R() * link->b();
                    link->dv().noalias() = parent->dv() +
                        parent->w().cross(parent->w().cross(arm)) + parent->dw().cross(arm);
                }
                
                goto COMMON_CALCS_FOR_ALL_JOINT_TYPES;
            }
            
            // Common for ROTATE and SLIDE
            link->vo().noalias() = link->dq() * link->sv() + parent->vo();
            const Vector3 dsv = parent->w().cross(link->sv()) + parent->vo().cross(link->sw());
            const Vector3 dsw = parent->w().cross(link->sw());
            link->cv() = link->dq() * dsv;
            link->cw() = link->dq() * dsw;
        }
        
COMMON_CALCS_FOR_ALL_JOINT_TYPES:

        if(updateNonSpatialVariables){
            link->v().noalias() = link->vo() + link->w().cross(link->p());
        }
        link->wc().noalias() = link->R() * link->c() + link->p();
        
        // compute I^s (Eq.(6.24) of Kajita's textbook))
        const Matrix3 Iw = link->R() * link->I() * link->R().transpose();
        
        const double m = link->m();
        const Matrix3 c_hat = hat(link->wc());
        link->Iww().noalias() = m * c_hat * c_hat.transpose() + Iw;

        link->Ivv() <<
            m,  0.0, 0.0,
            0.0,  m,  0.0,
            0.0, 0.0,  m;
        
        link->Iwv() = m * c_hat;
        
        // compute P and L (Eq.(6.25) of Kajita's textbook)
        const Vector3 P = m * (link->vo() + link->w().cross(link->wc()));
        const Vector3 L = link->Iww() * link->w() + m * link->wc().cross(link->vo());
        
        link->pf().noalias() = link->w().cross(P);
        link->ptau().noalias() = link->vo().cross(P) + link->w().cross(L);
        
        const Vector3 fg = m * g;
        const Vector3 tg = link->wc().cross(fg);
        
        link->pf() -= fg;
        link->ptau() -= tg;
    }
}