很多同学会把路径规划(Path Planning)和轨迹规划(Trajectory Planning)这两个概念混淆,路径规划只是表示了机械臂末端在操作空间中的几何信息,比如从工作台的一端(A点)沿直线移动到另一端(B点)。而轨迹规划则加上了时间律,比如它要完成的任务是从A点开始到B点结束,中间是以梯形的速度规律来运行的(先以一个加速度a加速运动到一定的速度Vmax,然后再以固定的速度Vmax巡航,最后再以加速度-a减速到0,同时到达B点),经过轨迹规划后,得到的是操作空间位置和时间的关系式。
(orocos_kinematics_dynamics-master\orocos_kdl\examples\trajectory_example.cpp)
int main(int argc,char* argv[]) {
using namespace KDL;
// Create the trajectory:
// use try/catch to catch any exceptions thrown.
// NOTE: exceptions will become obsolete in a future version.
try {
// Path_RoundedComposite defines the geometric path along
// which the robot will move.
//
Path_RoundedComposite* path = new Path_RoundedComposite(0.2,0.01,new RotationalInterpolation_SingleAxis());
path->Add(Frame(Rotation::RPY(M_PI,0,0), Vector(-1,0,0)));
path->Add(Frame(Rotation::RPY(M_PI/2,0,0), Vector(-0.5,0,0)));
path->Add(Frame(Rotation::RPY(0,0,0), Vector(0,0,0)));
path->Add(Frame(Rotation::RPY(0.7,0.7,0.7), Vector(1,1,1)));
path->Add(Frame(Rotation::RPY(0,0.7,0), Vector(1.5,0.3,0)));
path->Add(Frame(Rotation::RPY(0.7,0.7,0), Vector(1,1,0)));
path->Finish();
VelocityProfile* velpref = new VelocityProfile_Trap(0.5,0.1);
velpref->SetProfile(0,path->PathLength());
Trajectory* traject = new Trajectory_Segment(path, velpref);
Trajectory_Composite* ctraject = new Trajectory_Composite();
ctraject->Add(traject);
ctraject->Add(new Trajectory_Stationary(1.0,Frame(Rotation::RPY(0.7,0.7,0), Vector(1,1,0))));
// use the trajectory
double dt=0.1;
std::ofstream of("./trajectory.dat");
for (double t=0.0; t <= traject->Duration(); t+= dt) {
Frame current_pose;
current_pose = traject->Pos(t);
for (int i=0;i<4;++i)
for (int j=0;j<4;++j)
of << current_pose(i,j) << "\t";
of << "\n";
// also velocities and accelerations are available !
//traject->Vel(t);
//traject->Acc(t);
}
of.close();
// you can get some meta-info on the path:
for (int segmentnr=0; segmentnr < path->GetNrOfSegments(); segmentnr++) {
double starts,ends;
Path::IdentifierType pathtype;
if (segmentnr==0) {
starts = 0.0;
} else {
starts = path->GetLengthToEndOfSegment(segmentnr-1);
}
ends = path->GetLengthToEndOfSegment(segmentnr);
pathtype = path->GetSegment(segmentnr)->getIdentifier();
std::cout << "segment " << segmentnr << " runs from s="<<starts << " to s=" <<ends;
switch(pathtype) {
case Path::ID_CIRCLE:
std::cout << " circle";
break;
case Path::ID_LINE:
std::cout << " line ";
break;
default:
std::cout << " unknown ";
break;
}
std::cout << std::endl;
}
std::cout << " trajectory written to the ./trajectory.dat file " << std::endl;
delete ctraject;
} catch(Error& error) {
std::cout <<"I encountered this error : " << error.Description() << std::endl;
std::cout << "with the following type " << error.GetType() << std::endl;
}
}
关键代码详细解读: path->Add(Frame(Rotation::RPY(M_PI,0,0), Vector(-1,0,0)));
path->Add(Frame(Rotation::RPY(M_PI/2,0,0), Vector(-0.5,0,0)));
path->Add(Frame(Rotation::RPY(0,0,0), Vector(0,0,0)));
path->Add(Frame(Rotation::RPY(0.7,0.7,0.7), Vector(1,1,1)));
path->Add(Frame(Rotation::RPY(0,0.7,0), Vector(1.5,0.3,0)));
path->Add(Frame(Rotation::RPY(0.7,0.7,0), Vector(1,1,0)));
path->Finish();
这几段代码表示在操作空间中插入6个中间路径点,注意需要以path->Finish()结束。
VelocityProfile* velpref = new VelocityProfile_Trap(0.5,0.1);
velpref->SetProfile(0,path->PathLength());
Trajectory* traject = new Trajectory_Segment(path, velpref);
这几段表示将从起始到终点的速度设定为梯形波,最大速度为0.5,加速度为0.1。
Trajectory_Composite* ctraject = new Trajectory_Composite();
ctraject->Add(traject);
ctraject->Add(new Trajectory_Stationary(1.0,Frame(Rotation::RPY(0.7,0.7,0), Vector(1,1,0))));
这几段没看出起到了什么作用。 double dt=0.1;
std::ofstream of("./trajectory.dat");
for (double t=0.0; t <= traject->Duration(); t+= dt) {
Frame current_pose;
current_pose = traject->Pos(t);
for (int i=0;i<4;++i)
for (int j=0;j<4;++j)
of << current_pose(i,j) << "\t";
of << "\n";
}
of.close();
这几段用来输出轨迹,步长为0.1,将轨迹的位姿存放在trajectory.dat文件中。
for (int segmentnr=0; segmentnr < path->GetNrOfSegments(); segmentnr++) {
double starts,ends;
Path::IdentifierType pathtype;
if (segmentnr==0) {
starts = 0.0;
} else {
starts = path->GetLengthToEndOfSegment(segmentnr-1);
}
ends = path->GetLengthToEndOfSegment(segmentnr);
pathtype = path->GetSegment(segmentnr)->getIdentifier();
std::cout << "segment " << segmentnr << " runs from s="<<starts << " to s=" <<ends;
switch(pathtype) {
case Path::ID_CIRCLE:
std::cout << " circle";
break;
case Path::ID_LINE:
std::cout << " line ";
break;
default:
std::cout << " unknown ";
break;
}
std::cout << std::endl;
}
std::cout << " trajectory written to the ./trajectory.dat file " << std::endl;
这几段是打印出各个相邻的路径点的轨迹形式,在笛卡尔空间中,轨迹基元有直线和圆两种。
下面两张图是利用matlab绘出的轨迹曲线和机械臂末端与时间的关系,可以看出在明显的圆弧过渡。
Path velocity呈明显的梯形形状。
来源:CSDN
作者:gpeng832
链接:https://blog.csdn.net/gpeng832/article/details/56294536