Defines a complete robot state in Cartesian space. More...
#include <robot_state_cartesian.h>
Public Member Functions | |
RobotStateCartesian (int n_ee) | |
Constructs a zero initialized robot state with n_ee endeffectors. More... | |
~RobotStateCartesian ()=default | |
Public Attributes | |
State3d | base_ |
EndeffectorsContact | ee_contact_ |
Endeffectors< Vector3d > | ee_forces_ |
EndeffectorsMotion | ee_motion_ |
double | t_global_ |
Defines a complete robot state in Cartesian space.
This is the alternative represenation to defining the robot by it's joint angles. Here each endeffector (foot, hand) is given by a 3D-state and joints angles could be obtained through Inverse Kinematics.
see also robot_state_joint.h.
Definition at line 74 of file robot_state_cartesian.h.
xpp::RobotStateCartesian::RobotStateCartesian | ( | int | n_ee | ) |
Constructs a zero initialized robot state with n_ee endeffectors.
n_ee | Number of endeffectors. |
Definition at line 61 of file robot_state_cartesian.cc.
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default |
State3d xpp::RobotStateCartesian::base_ |
Definition at line 111 of file robot_state_cartesian.h.
EndeffectorsContact xpp::RobotStateCartesian::ee_contact_ |
Definition at line 114 of file robot_state_cartesian.h.
Endeffectors<Vector3d> xpp::RobotStateCartesian::ee_forces_ |
Definition at line 113 of file robot_state_cartesian.h.
EndeffectorsMotion xpp::RobotStateCartesian::ee_motion_ |
Definition at line 112 of file robot_state_cartesian.h.
double xpp::RobotStateCartesian::t_global_ |
Definition at line 115 of file robot_state_cartesian.h.