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pos_control.cpp
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#include "main.h"
int main(int argc, char* argv[]) {
auto binaryPath = raisim::Path::setFromArgv(argv[0]);
/// create raisim world
raisim::World::setActivationKey("/home/hxy/.raisim/activate.raisim");
raisim::World world;
/// create objects
auto mini_cheetah = world.addArticulatedSystem(binaryPath.getDirectory() + "\\rsc\\mini_cheetah\\urdf\\mini_cheetah.urdf");
auto ground = world.addGround();
world.setTimeStep(0.001);
/// calculate init position
simple_set(0.3,0.2,-0.3);
/// mini_cheetah init
Eigen::VectorXd jointNominalConfig(mini_cheetah->getGeneralizedCoordinateDim()), jointVelocityTarget(mini_cheetah->getDOF());
select_p(angle, jointNominalConfig);
jointVelocityTarget.setZero();
mini_cheetah->setGeneralizedCoordinate(jointNominalConfig);
mini_cheetah->setGeneralizedForce(Eigen::VectorXd::Zero(mini_cheetah->getDOF()));
mini_cheetah->setName("mini_cheetah");
/// mini_cheetah joint PD controller
Eigen::VectorXd pGain(mini_cheetah->getDOF()), dGain(mini_cheetah->getDOF());
pGain<< 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 10, 10, 10, 10, 10, 10, 10, 10, 10, 10, 10, 10;
dGain<< 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.1, 0.1, 0.1, 0.1, 0.1, 0.1, 0.1, 0.1, 0.1, 0.1, 0.1, 0.1;
pGain.tail(12).setConstant(100.0);
dGain.tail(12).setConstant(1.0);
mini_cheetah->setPdGains(pGain, dGain);
Eigen::VectorXd pTarget(mini_cheetah->getGeneralizedCoordinateDim()), vTarget(mini_cheetah->getDOF());
select_p(angle, pTarget);
select_v(angleV, vTarget);
mini_cheetah->setPdTarget(pTarget, vTarget);
/// launch raisim server for visualization. Can be visualized using raisimUnity
raisim::RaisimServer server(&world);
server.launchServer();
/// printf info
std::cout<<mini_cheetah->getGeneralizedCoordinate()<<std::endl;
std::cout<<mini_cheetah->getGeneralizedVelocity()<<std::endl;
//生成步态
create_gait();
std::cout<<x_position.size()<<std::endl;
//初始化,使腿末端运行到希望到位置
// setpoint(mini_cheetah->getGeneralizedCoordinate(),mini_cheetah->getGeneralizedVelocity(),0,0.062,-0.1);
// for(int i(0);i<period;i++){
// raisim::MSLEEP(1);
// for(int j(0);j<4;j++){
// chabu(&position[j],i+1,j);
// Inv_kinematics_ref(&angle[j],&position[j],j);
// }
// select_p(angle, pTarget);
// mini_cheetah->setPdTarget(pTarget, vTarget);
// server.integrateWorldThreadSafe();
// }
// //jump
// raisim::MSLEEP(1);
// simple_set2(0,0.062,-0.3);
// select_p(angle, pTarget);
// mini_cheetah->setPdTarget(pTarget, vTarget);
// server.integrateWorldThreadSafe();
setpoint(mini_cheetah->getGeneralizedCoordinate(),mini_cheetah->getGeneralizedVelocity(),0,0.062,-0.3);
for(int i(0);i<period;i++){
raisim::MSLEEP(1);
for(int j(0);j<4;j++){
chabu(&position[j],i+1,j);
Inv_kinematics_ref(&angle[j],&position[j],j);
}
select_p(angle, pTarget);
mini_cheetah->setPdTarget(pTarget, vTarget);
server.integrateWorldThreadSafe();
}
int count = 0;
int count1 = T/dt/2.0;
while(1){
raisim::MSLEEP(1);
// ///获取数据
// mini_cheetah->getState(co,vel);
// R = mini_cheetah->getBaseOrientation().e();
// auto R_inv = R.transpose();
// raisim::Vec<3> footVelocity, footPosition;
// mini_cheetah->getFrameVelocity("toe_fr_joint",footVelocity);
// mini_cheetah->getFramePosition("toe_fr_joint",footPosition);
// mini_cheetah->getBasePosition(bodyPosition);
// raisim::Vec<3> footPosition_w,footPosition_b;
// footPosition_b = {0,0,-0.18};
// mini_cheetah->getPosition(mini_cheetah->getBodyIdx("shank_fr"),footPosition_b,footPosition_w);
// mini_cheetah->getVelocity(0,bodyVelocity);
// //获取接触力
// // auto force = mini_cheetah->getContacts()[0].impulse() / dt;
// // std::cout<<force<<std::endl;
// ///计算数据
// //计算关节角度
// Angle now_angle[4];
// int cou = 7;
// for(int i=0;i<4;i++){
// for(int j=0;j<3;j++){
// now_angle[i].q[j] = co[cou];
// cou ++;
// }
// }
// //计算关节角速度
// Angle now_angleV[4];
// cou = 6;
// for(int i=0;i<4;i++){
// for(int j=0;j<3;j++){
// now_angleV[i].q[j] = vel[cou];
// cou ++;
// }
// }
// Eigen::VectorXd angleV(3);
// angleV << now_angleV[0].q[0],now_angleV[0].q[1],now_angleV[0].q[2];
// //计算雅可比
// auto Jaco1 = calcu_Jaco(&now_angle[0],0);
// raisim::SparseJacobian Jaco;
// mini_cheetah->getSparseJacobian(mini_cheetah->getBodyIdx("shank_fr"),footPosition,Jaco);
// //计算末端速度
// auto footVel = R*Jaco1*angleV + bodyVelocity.e();
// auto footVel2 = Jaco.e() * vel.block(0,0,9,1);
// std::cout<<bodyVelocity.e()<<std::endl;
// std::cout<<"begin1"<<std::endl;
// std::cout<<calcu_endpoint_pos(0)<<std::endl;
// std::cout<<footPosition.e()<<std::endl;
// std::cout<<"begin2"<<std::endl;
// std::cout<<Jaco.e()<<std::endl;
// std::cout<<R*Jaco1<<std::endl;
// std::cout<<vel<<std::endl;
// std::cout<<"begin3"<<std::endl;
// std::cout<<footVel2<<std::endl;
// std::cout<<footVelocity.e()<<std::endl;
// std::cout<<" "<<std::endl;
int j = 1;
position[j].x = x_position[count];
position[j].z = z_position[count];
Inv_kinematics_ref(&angle[j],&position[j],j);
j = 2;
position[j].x = x_position[count];
position[j].z = z_position[count];
Inv_kinematics_ref(&angle[j],&position[j],j);
j = 0;
position[j].x = x_position[count1];
position[j].z = z_position[count1];
Inv_kinematics_ref(&angle[j],&position[j],j);
j = 3;
position[j].x = x_position[count1];
position[j].z = z_position[count1];
Inv_kinematics_ref(&angle[j],&position[j],j);
select_p(angle, pTarget);
mini_cheetah->setPdTarget(pTarget, vTarget);
count ++;
count1 ++;
if(count>=x_position.size()){
count = 0;
}
if(count1>=x_position.size()){
count1 = 0;
}
server.integrateWorldThreadSafe();
}
server.killServer();
std::cout<<"end of simulation"<<std::endl;
}
void simple_set(float xx,float yy,float zz){
for(int i=0;i<4;i++){
position[i].z = zz;
}
position[fr].x = xx;
position[fr].y = -yy;
position[fl].x = xx;
position[fl].y = yy;
position[hr].x = -xx;
position[hr].y = -yy;
position[hl].x = -xx;
position[hl].y = yy;
Inv_kinematics(&angle[fr],&position[fr],fr);
Inv_kinematics(&angle[fl],&position[fl],fl);
Inv_kinematics(&angle[hr],&position[hr],hr);
Inv_kinematics(&angle[hl],&position[hl],hl);
}
void simple_set2(float xx,float yy,float zz){
for(int i=0;i<4;i++){
position[i].x = xx;
position[i].z = zz;
}
position[fl].y = yy;
position[hl].y = yy;
position[fr].y = -yy;
position[hr].y = -yy;
Inv_kinematics_ref(&angle[fr],&position[fr],fr);
Inv_kinematics_ref(&angle[fl],&position[fl],fl);
Inv_kinematics_ref(&angle[hr],&position[hr],hr);
Inv_kinematics_ref(&angle[hl],&position[hl],hl);
}
void set_position(Leg leg,float xx,float yy,float zz){
position[leg].x = xx;
position[leg].y = yy;
position[leg].z = zz;
Inv_kinematics(&angle[leg],&position[leg],leg);
}
void setpoint(const raisim::VecDyn & pos,const raisim::VecDyn & vel,float xx,float yy,float zz){
Angle now_angle[4];
Angle now_angleV[4];
Position now_position[4];
Position now_velocity[4];
//get the joint angle position and velocity
int count = 7;
for(int i=0;i<4;i++){
for(int j=0;j<3;j++){
now_angle[i].q[j] = pos[count];
count ++;
}
}
count = 6;
for(int i=0;i<4;i++){
for(int j=0;j<3;j++){
now_angleV[i].q[j] = vel[count];
count ++;
}
}
//get the end point position and velocity using forward kinematics and jacobian
for(int i=0;i<4;i++){
Kinematics_ref(&now_angle[i],&now_position[i],i);
}
for(int i=0;i<4;i++){
now_velocity[i].x = 0;
now_velocity[i].y = 0;
now_velocity[i].z = 0;
}
//input the desire position and velocity
Position pdes[4];
Position vdes[4];
for(int i=0;i<4;i++){
vdes[i].x = 0;
vdes[i].y = 0;
vdes[i].z = 0;
}
for(int i=0;i<4;i++){
pdes[i].x = xx;
pdes[i].z = zz;
}
pdes[fl].y = yy;
pdes[hl].y = yy;
pdes[fr].y = -yy;
pdes[hr].y = -yy;
//init chabu
for(int i(0);i<4;i++){
init_chabu(&pdes[i],&vdes[i],&now_position[i],&now_velocity[i],period,i);
}
}
void create_gait(void){
float t;
float x_sw,z_sw,x_st,z_st;
//赋值
tf = T*swing_time;
std::cout<<tf<<std::endl;
p0 = -0.1;
pf = 0.1;
vf = -1;
v0 = -1;
//计算三次样条
float a0,a1,a2,a3;
a0 = p0;
a1 = v0;
a2 = 3.0/(tf*tf)*(pf-p0)-2.0/tf*v0-1.0/tf*vf;
a3 = -2.0/(tf*tf*tf)*(pf-p0)+1.0/(tf*tf)*(vf+v0);
for(int i(1);i<tf/dt+1;i++){
t = i*dt;
x_sw = a0+a1*t+a2*t*t+a3*t*t*t;
z_sw = -Hb + Hf*0.5*(1+cos(2*PI*t/(tf)+PI));
x_position.push_back(x_sw);
z_position.push_back(z_sw);
}
//赋值
tf = T*(1-swing_time);
p0 = 0.1;
pf = -0.1;
vf = -1;
v0 = -1;
//计算三次样条
a0 = p0;
a1 = v0;
a2 = 3.0/(tf*tf)*(pf-p0)-2.0/tf*v0-1.0/tf*vf;
a3 = -2.0/(tf*tf*tf)*(pf-p0)+1.0/(tf*tf)*(vf+v0);
for(int i(1);i<tf/dt+1;i++){
t = i*dt;
x_sw = a0+a1*t+a2*t*t+a3*t*t*t;
z_sw = -Hb;
x_position.push_back(x_sw);
z_position.push_back(z_sw);
}
}