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generateIKFunction

Generate function for closed-form inverse kinematics

Description

example

ikFunction = generateIKFunction(analyticalIK,functionName) generates a function with a specified name, functionName, that computes the closed-form solutions for inverse kinematics (IK) for a selected kinematic group to achieve a desired end-effector pose. To generate a list of configurations that achieve the desired end-effector pose, use the generated function ikFunction. The specified analyticalInverseKinematics object analyticalIK must contain a valid kinematic group. For information on determining valid kinematic groups, see the showdetails function.

For the syntax of the generated function, see the ikFunction output argument.

Examples

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Generate closed-form inverse kinematics (IK) solutions for a desired end effector. Load the provided robot model and inspect details about the feasible kinematic groups of base and end-effector bodies. Generate a function for your desired kinematic group. Inspect the various configurations for a specific end-effector pose.

Robot Model

Load the ABB IRB 120 robot model into the workspace. Display the model.

robot = loadrobot('abbIrb120','DataFormat','row');
show(robot);

Figure contains an axes object. The axes object contains 24 objects of type patch, line. These objects represent base_link, base, link_1, link_2, link_3, link_4, link_5, link_6, tool0, link_1_mesh, link_2_mesh, link_3_mesh, link_4_mesh, link_5_mesh, link_6_mesh, base_link_mesh.

Analytical IK

Create the analytical IK solver. Show details for the robot model, which lists the different kinematic groups available for closed-form analytical IK solutions. Select the second kinematic group by clicking the Use this kinematic group link in the second row of the table.

aik = analyticalInverseKinematics(robot);
showdetails(aik)
--------------------
Robot: (8 bodies)

Index      Base Name   EE Body Name     Type                    Actions
-----      ---------   ------------     ----                    -------
    1      base_link         link_6   RRRSSS   Use this kinematic group
    2      base_link          tool0   RRRSSS   Use this kinematic group

Inspect the kinematic group, which lists the base and end-effector body names. For this robot, the group uses the 'base_link' and 'tool0' bodies, respectively.

aik.KinematicGroup
ans = struct with fields:
               BaseName: 'base_link'
    EndEffectorBodyName: 'tool0'

Generate Function

Generate the IK function for the selected kinematic group. Specify a name for the function, which is generated and saved in the current directory.

generateIKFunction(aik,'robotIK');

Specify a desired end-effector position. Convert the xyz-position to a homogeneous transformation.

eePosition = [0 0.5 0.5];
eePose = trvec2tform(eePosition);
hold on
plotTransforms(eePosition,tform2quat(eePose))
hold off

Figure contains an axes object. The axes object contains 28 objects of type patch, line. These objects represent base_link, base, link_1, link_2, link_3, link_4, link_5, link_6, tool0, link_1_mesh, link_2_mesh, link_3_mesh, link_4_mesh, link_5_mesh, link_6_mesh, base_link_mesh.

Generate Configuration for IK Solution

Specify the homogeneous transformation to the generated IK function, which generates all solutions for the desired end-effector pose. Display the first generated configuration to verify that the desired pose has been achieved.

ikConfig = robotIK(eePose); % Uses the generated file

show(robot,ikConfig(1,:));
hold on
plotTransforms(eePosition,tform2quat(eePose))
hold off

Figure contains an axes object. The axes object contains 28 objects of type patch, line. These objects represent base_link, base, link_1, link_2, link_3, link_4, link_5, link_6, tool0, link_1_mesh, link_2_mesh, link_3_mesh, link_4_mesh, link_5_mesh, link_6_mesh, base_link_mesh.

Display all of the closed-form IK solutions sequentially.

figure;
numSolutions = size(ikConfig,1);

for i = 1:size(ikConfig,1)
    subplot(1,numSolutions,i)
    show(robot,ikConfig(i,:));
end

Figure contains 4 axes objects. Axes object 1 contains 24 objects of type patch, line. These objects represent base_link, base, link_1, link_2, link_3, link_4, link_5, link_6, tool0, link_1_mesh, link_2_mesh, link_3_mesh, link_4_mesh, link_5_mesh, link_6_mesh, base_link_mesh. Axes object 2 contains 24 objects of type patch, line. These objects represent base_link, base, link_1, link_2, link_3, link_4, link_5, link_6, tool0, link_1_mesh, link_2_mesh, link_3_mesh, link_4_mesh, link_5_mesh, link_6_mesh, base_link_mesh. Axes object 3 contains 24 objects of type patch, line. These objects represent base_link, base, link_1, link_2, link_3, link_4, link_5, link_6, tool0, link_1_mesh, link_2_mesh, link_3_mesh, link_4_mesh, link_5_mesh, link_6_mesh, base_link_mesh. Axes object 4 contains 24 objects of type patch, line. These objects represent base_link, base, link_1, link_2, link_3, link_4, link_5, link_6, tool0, link_1_mesh, link_2_mesh, link_3_mesh, link_4_mesh, link_5_mesh, link_6_mesh, base_link_mesh.

Some manipulator robot models have large degrees-of-freedom (DOFs). To reach certain end-effector poses, however, only six DOFs are required. Use the analyticalInverseKinematics object, which supports six-DOF robots, to determine various valid kinematic groups for this large-DOF robot model. Use the showdetails object function to get information about the model.

Load Robot Model and Generate IK Solver

Load the robot model into the workspace, and create an analyicalInverseKinematics object. Use the showdetails object function to see the supported kinematic groups.

robot = loadrobot('willowgaragePR2','DataFormat','row');
aik = analyticalInverseKinematics(robot);
opts = showdetails(aik);
--------------------
Robot: (94 bodies)

Index                                          Base Name                                       EE Body Name     Type                    Actions
-----                                          ---------                                       ------------     ----                    -------
    1                                l_shoulder_pan_link                                  l_wrist_roll_link   RSSSSS   Use this kinematic group
    2                                r_shoulder_pan_link                                  r_wrist_roll_link   RSSSSS   Use this kinematic group
    3                                l_shoulder_pan_link                                l_gripper_palm_link   RSSSSS   Use this kinematic group
    4                                r_shoulder_pan_link                                r_gripper_palm_link   RSSSSS   Use this kinematic group
    5                                l_shoulder_pan_link                                l_gripper_led_frame   RSSSSS   Use this kinematic group
    6                                l_shoulder_pan_link                 l_gripper_motor_accelerometer_link   RSSSSS   Use this kinematic group
    7                                l_shoulder_pan_link                               l_gripper_tool_frame   RSSSSS   Use this kinematic group
    8                                r_shoulder_pan_link                                r_gripper_led_frame   RSSSSS   Use this kinematic group
    9                                r_shoulder_pan_link                 r_gripper_motor_accelerometer_link   RSSSSS   Use this kinematic group
   10                                r_shoulder_pan_link                               r_gripper_tool_frame   RSSSSS   Use this kinematic group

Select a group programmically using the output of the showdetails object function, opts. The selected group uses the left shoulder as the base with the left wrist as the end effector.

aik.KinematicGroup = opts(1).KinematicGroup;
disp(aik.KinematicGroup)
               BaseName: 'l_shoulder_pan_link'
    EndEffectorBodyName: 'l_wrist_roll_link'

Generate the IK function for the selected group.

generateIKFunction(aik,'willowRobotIK');

Solve Analytical IK

Define a target end-effector pose using a randomly-generated configuration.

rng(0);
expConfig = randomConfiguration(robot);

eeBodyName = aik.KinematicGroup.EndEffectorBodyName;
baseName = aik.KinematicGroup.BaseName;
expEEPose = getTransform(robot,expConfig,eeBodyName,baseName);

Solve for all robot configurations that achieve the defined end-effector pose using the generated IK function. To ignore joint limits, specify false as the second input argument.

ikConfig = willowRobotIK(expEEPose,false);

To display the target end-effector pose in the world frame, get the transformation from the base of the robot model, rather than the base of the kinematic group. Display all of the generated IK solutions by specifying the indices for your kinematic group IK solution in the configuration vector used with the show function.

eeWorldPose = getTransform(robot,expConfig,eeBodyName);

generatedConfig = repmat(expConfig, size(ikConfig,1), 1);
generatedConfig(:,aik.KinematicGroupConfigIdx) = ikConfig;

for i = 1:size(ikConfig,1)
    figure;
    ax = show(robot,generatedConfig(i,:));
    hold all;
    plotTransforms(tform2trvec(eeWorldPose),tform2quat(eeWorldPose),'Parent',ax);
    title(['Solution ' num2str(i)]);
end

Figure contains an axes object. The axes object with title Solution 1 contains 248 objects of type patch, line. These objects represent base_footprint, base_link, base_bellow_link, base_laser_link, bl_caster_rotation_link, bl_caster_l_wheel_link, bl_caster_r_wheel_link, br_caster_rotation_link, br_caster_l_wheel_link, br_caster_r_wheel_link, fl_caster_rotation_link, fl_caster_l_wheel_link, fl_caster_r_wheel_link, fr_caster_rotation_link, fr_caster_l_wheel_link, fr_caster_r_wheel_link, torso_lift_link, head_pan_link, head_tilt_link, head_plate_frame, head_mount_link, head_mount_kinect_ir_link, head_mount_kinect_ir_optical_frame, head_mount_kinect_rgb_link, head_mount_kinect_rgb_optical_frame, head_mount_prosilica_link, head_mount_prosilica_optical_frame, projector_wg6802418_frame, projector_wg6802418_child_frame, sensor_mount_link, double_stereo_link, narrow_stereo_link, narrow_stereo_l_stereo_camera_frame, narrow_stereo_l_stereo_camera_optical_frame, narrow_stereo_r_stereo_camera_frame, narrow_stereo_r_stereo_camera_optical_frame, narrow_stereo_optical_frame, wide_stereo_link, wide_stereo_l_stereo_camera_frame, wide_stereo_l_stereo_camera_optical_frame, wide_stereo_r_stereo_camera_frame, wide_stereo_r_stereo_camera_optical_frame, wide_stereo_optical_frame, high_def_frame, high_def_optical_frame, imu_link, l_shoulder_pan_link, l_shoulder_lift_link, l_upper_arm_roll_link, l_upper_arm_link, l_elbow_flex_link, l_forearm_roll_link, l_forearm_cam_frame, l_forearm_cam_optical_frame, l_forearm_link, l_wrist_flex_link, l_wrist_roll_link, l_gripper_palm_link, l_gripper_l_finger_link, l_gripper_l_finger_tip_link, l_gripper_led_frame, l_gripper_motor_accelerometer_link, l_gripper_motor_slider_link, l_gripper_motor_screw_link, l_gripper_r_finger_link, l_gripper_r_finger_tip_link, l_gripper_l_finger_tip_frame, l_gripper_tool_frame, l_torso_lift_side_plate_link, laser_tilt_mount_link, laser_tilt_link, r_shoulder_pan_link, r_shoulder_lift_link, r_upper_arm_roll_link, r_upper_arm_link, r_elbow_flex_link, r_forearm_roll_link, r_forearm_cam_frame, r_forearm_cam_optical_frame, r_forearm_link, r_wrist_flex_link, r_wrist_roll_link, r_gripper_palm_link, r_gripper_l_finger_link, r_gripper_l_finger_tip_link, r_gripper_led_frame, r_gripper_motor_accelerometer_link, r_gripper_motor_slider_link, r_gripper_motor_screw_link, r_gripper_r_finger_link, r_gripper_r_finger_tip_link, r_gripper_l_finger_tip_frame, r_gripper_tool_frame, r_torso_lift_side_plate_link, torso_lift_motor_screw_link, base_link_mesh, base_bellow_link_mesh, bl_caster_rotation_link_mesh, bl_caster_l_wheel_link_mesh, bl_caster_r_wheel_link_mesh, br_caster_rotation_link_mesh, br_caster_l_wheel_link_mesh, br_caster_r_wheel_link_mesh, fl_caster_rotation_link_mesh, fl_caster_l_wheel_link_mesh, fl_caster_r_wheel_link_mesh, fr_caster_rotation_link_mesh, fr_caster_l_wheel_link_mesh, fr_caster_r_wheel_link_mesh, torso_lift_link_mesh, head_pan_link_mesh, head_tilt_link_mesh, head_plate_frame_mesh, head_mount_kinect_ir_link_mesh, head_mount_kinect_rgb_link_mesh, head_mount_prosilica_link_mesh, sensor_mount_link_mesh, double_stereo_link_mesh, l_shoulder_pan_link_mesh, l_shoulder_lift_link_mesh, l_upper_arm_roll_link_mesh, l_upper_arm_link_mesh, l_elbow_flex_link_mesh, l_forearm_roll_link_mesh, l_forearm_link_mesh, l_wrist_flex_link_mesh, l_wrist_roll_link_mesh, l_gripper_palm_link_mesh, l_gripper_l_finger_link_mesh, l_gripper_l_finger_tip_link_mesh, l_gripper_motor_accelerometer_link_mesh, l_gripper_r_finger_link_mesh, l_gripper_r_finger_tip_link_mesh, laser_tilt_mount_link_mesh, r_shoulder_pan_link_mesh, r_shoulder_lift_link_mesh, r_upper_arm_roll_link_mesh, r_upper_arm_link_mesh, r_elbow_flex_link_mesh, r_forearm_roll_link_mesh, r_forearm_link_mesh, r_wrist_flex_link_mesh, r_wrist_roll_link_mesh, r_gripper_palm_link_mesh, r_gripper_l_finger_link_mesh, r_gripper_l_finger_tip_link_mesh, r_gripper_motor_accelerometer_link_mesh, r_gripper_r_finger_link_mesh, r_gripper_r_finger_tip_link_mesh, base_footprint_mesh.

Figure contains an axes object. The axes object with title Solution 2 contains 248 objects of type patch, line. These objects represent base_footprint, base_link, base_bellow_link, base_laser_link, bl_caster_rotation_link, bl_caster_l_wheel_link, bl_caster_r_wheel_link, br_caster_rotation_link, br_caster_l_wheel_link, br_caster_r_wheel_link, fl_caster_rotation_link, fl_caster_l_wheel_link, fl_caster_r_wheel_link, fr_caster_rotation_link, fr_caster_l_wheel_link, fr_caster_r_wheel_link, torso_lift_link, head_pan_link, head_tilt_link, head_plate_frame, head_mount_link, head_mount_kinect_ir_link, head_mount_kinect_ir_optical_frame, head_mount_kinect_rgb_link, head_mount_kinect_rgb_optical_frame, head_mount_prosilica_link, head_mount_prosilica_optical_frame, projector_wg6802418_frame, projector_wg6802418_child_frame, sensor_mount_link, double_stereo_link, narrow_stereo_link, narrow_stereo_l_stereo_camera_frame, narrow_stereo_l_stereo_camera_optical_frame, narrow_stereo_r_stereo_camera_frame, narrow_stereo_r_stereo_camera_optical_frame, narrow_stereo_optical_frame, wide_stereo_link, wide_stereo_l_stereo_camera_frame, wide_stereo_l_stereo_camera_optical_frame, wide_stereo_r_stereo_camera_frame, wide_stereo_r_stereo_camera_optical_frame, wide_stereo_optical_frame, high_def_frame, high_def_optical_frame, imu_link, l_shoulder_pan_link, l_shoulder_lift_link, l_upper_arm_roll_link, l_upper_arm_link, l_elbow_flex_link, l_forearm_roll_link, l_forearm_cam_frame, l_forearm_cam_optical_frame, l_forearm_link, l_wrist_flex_link, l_wrist_roll_link, l_gripper_palm_link, l_gripper_l_finger_link, l_gripper_l_finger_tip_link, l_gripper_led_frame, l_gripper_motor_accelerometer_link, l_gripper_motor_slider_link, l_gripper_motor_screw_link, l_gripper_r_finger_link, l_gripper_r_finger_tip_link, l_gripper_l_finger_tip_frame, l_gripper_tool_frame, l_torso_lift_side_plate_link, laser_tilt_mount_link, laser_tilt_link, r_shoulder_pan_link, r_shoulder_lift_link, r_upper_arm_roll_link, r_upper_arm_link, r_elbow_flex_link, r_forearm_roll_link, r_forearm_cam_frame, r_forearm_cam_optical_frame, r_forearm_link, r_wrist_flex_link, r_wrist_roll_link, r_gripper_palm_link, r_gripper_l_finger_link, r_gripper_l_finger_tip_link, r_gripper_led_frame, r_gripper_motor_accelerometer_link, r_gripper_motor_slider_link, r_gripper_motor_screw_link, r_gripper_r_finger_link, r_gripper_r_finger_tip_link, r_gripper_l_finger_tip_frame, r_gripper_tool_frame, r_torso_lift_side_plate_link, torso_lift_motor_screw_link, base_link_mesh, base_bellow_link_mesh, bl_caster_rotation_link_mesh, bl_caster_l_wheel_link_mesh, bl_caster_r_wheel_link_mesh, br_caster_rotation_link_mesh, br_caster_l_wheel_link_mesh, br_caster_r_wheel_link_mesh, fl_caster_rotation_link_mesh, fl_caster_l_wheel_link_mesh, fl_caster_r_wheel_link_mesh, fr_caster_rotation_link_mesh, fr_caster_l_wheel_link_mesh, fr_caster_r_wheel_link_mesh, torso_lift_link_mesh, head_pan_link_mesh, head_tilt_link_mesh, head_plate_frame_mesh, head_mount_kinect_ir_link_mesh, head_mount_kinect_rgb_link_mesh, head_mount_prosilica_link_mesh, sensor_mount_link_mesh, double_stereo_link_mesh, l_shoulder_pan_link_mesh, l_shoulder_lift_link_mesh, l_upper_arm_roll_link_mesh, l_upper_arm_link_mesh, l_elbow_flex_link_mesh, l_forearm_roll_link_mesh, l_forearm_link_mesh, l_wrist_flex_link_mesh, l_wrist_roll_link_mesh, l_gripper_palm_link_mesh, l_gripper_l_finger_link_mesh, l_gripper_l_finger_tip_link_mesh, l_gripper_motor_accelerometer_link_mesh, l_gripper_r_finger_link_mesh, l_gripper_r_finger_tip_link_mesh, laser_tilt_mount_link_mesh, r_shoulder_pan_link_mesh, r_shoulder_lift_link_mesh, r_upper_arm_roll_link_mesh, r_upper_arm_link_mesh, r_elbow_flex_link_mesh, r_forearm_roll_link_mesh, r_forearm_link_mesh, r_wrist_flex_link_mesh, r_wrist_roll_link_mesh, r_gripper_palm_link_mesh, r_gripper_l_finger_link_mesh, r_gripper_l_finger_tip_link_mesh, r_gripper_motor_accelerometer_link_mesh, r_gripper_r_finger_link_mesh, r_gripper_r_finger_tip_link_mesh, base_footprint_mesh.

Figure contains an axes object. The axes object with title Solution 3 contains 248 objects of type patch, line. These objects represent base_footprint, base_link, base_bellow_link, base_laser_link, bl_caster_rotation_link, bl_caster_l_wheel_link, bl_caster_r_wheel_link, br_caster_rotation_link, br_caster_l_wheel_link, br_caster_r_wheel_link, fl_caster_rotation_link, fl_caster_l_wheel_link, fl_caster_r_wheel_link, fr_caster_rotation_link, fr_caster_l_wheel_link, fr_caster_r_wheel_link, torso_lift_link, head_pan_link, head_tilt_link, head_plate_frame, head_mount_link, head_mount_kinect_ir_link, head_mount_kinect_ir_optical_frame, head_mount_kinect_rgb_link, head_mount_kinect_rgb_optical_frame, head_mount_prosilica_link, head_mount_prosilica_optical_frame, projector_wg6802418_frame, projector_wg6802418_child_frame, sensor_mount_link, double_stereo_link, narrow_stereo_link, narrow_stereo_l_stereo_camera_frame, narrow_stereo_l_stereo_camera_optical_frame, narrow_stereo_r_stereo_camera_frame, narrow_stereo_r_stereo_camera_optical_frame, narrow_stereo_optical_frame, wide_stereo_link, wide_stereo_l_stereo_camera_frame, wide_stereo_l_stereo_camera_optical_frame, wide_stereo_r_stereo_camera_frame, wide_stereo_r_stereo_camera_optical_frame, wide_stereo_optical_frame, high_def_frame, high_def_optical_frame, imu_link, l_shoulder_pan_link, l_shoulder_lift_link, l_upper_arm_roll_link, l_upper_arm_link, l_elbow_flex_link, l_forearm_roll_link, l_forearm_cam_frame, l_forearm_cam_optical_frame, l_forearm_link, l_wrist_flex_link, l_wrist_roll_link, l_gripper_palm_link, l_gripper_l_finger_link, l_gripper_l_finger_tip_link, l_gripper_led_frame, l_gripper_motor_accelerometer_link, l_gripper_motor_slider_link, l_gripper_motor_screw_link, l_gripper_r_finger_link, l_gripper_r_finger_tip_link, l_gripper_l_finger_tip_frame, l_gripper_tool_frame, l_torso_lift_side_plate_link, laser_tilt_mount_link, laser_tilt_link, r_shoulder_pan_link, r_shoulder_lift_link, r_upper_arm_roll_link, r_upper_arm_link, r_elbow_flex_link, r_forearm_roll_link, r_forearm_cam_frame, r_forearm_cam_optical_frame, r_forearm_link, r_wrist_flex_link, r_wrist_roll_link, r_gripper_palm_link, r_gripper_l_finger_link, r_gripper_l_finger_tip_link, r_gripper_led_frame, r_gripper_motor_accelerometer_link, r_gripper_motor_slider_link, r_gripper_motor_screw_link, r_gripper_r_finger_link, r_gripper_r_finger_tip_link, r_gripper_l_finger_tip_frame, r_gripper_tool_frame, r_torso_lift_side_plate_link, torso_lift_motor_screw_link, base_link_mesh, base_bellow_link_mesh, bl_caster_rotation_link_mesh, bl_caster_l_wheel_link_mesh, bl_caster_r_wheel_link_mesh, br_caster_rotation_link_mesh, br_caster_l_wheel_link_mesh, br_caster_r_wheel_link_mesh, fl_caster_rotation_link_mesh, fl_caster_l_wheel_link_mesh, fl_caster_r_wheel_link_mesh, fr_caster_rotation_link_mesh, fr_caster_l_wheel_link_mesh, fr_caster_r_wheel_link_mesh, torso_lift_link_mesh, head_pan_link_mesh, head_tilt_link_mesh, head_plate_frame_mesh, head_mount_kinect_ir_link_mesh, head_mount_kinect_rgb_link_mesh, head_mount_prosilica_link_mesh, sensor_mount_link_mesh, double_stereo_link_mesh, l_shoulder_pan_link_mesh, l_shoulder_lift_link_mesh, l_upper_arm_roll_link_mesh, l_upper_arm_link_mesh, l_elbow_flex_link_mesh, l_forearm_roll_link_mesh, l_forearm_link_mesh, l_wrist_flex_link_mesh, l_wrist_roll_link_mesh, l_gripper_palm_link_mesh, l_gripper_l_finger_link_mesh, l_gripper_l_finger_tip_link_mesh, l_gripper_motor_accelerometer_link_mesh, l_gripper_r_finger_link_mesh, l_gripper_r_finger_tip_link_mesh, laser_tilt_mount_link_mesh, r_shoulder_pan_link_mesh, r_shoulder_lift_link_mesh, r_upper_arm_roll_link_mesh, r_upper_arm_link_mesh, r_elbow_flex_link_mesh, r_forearm_roll_link_mesh, r_forearm_link_mesh, r_wrist_flex_link_mesh, r_wrist_roll_link_mesh, r_gripper_palm_link_mesh, r_gripper_l_finger_link_mesh, r_gripper_l_finger_tip_link_mesh, r_gripper_motor_accelerometer_link_mesh, r_gripper_r_finger_link_mesh, r_gripper_r_finger_tip_link_mesh, base_footprint_mesh.

Figure contains an axes object. The axes object with title Solution 4 contains 248 objects of type patch, line. These objects represent base_footprint, base_link, base_bellow_link, base_laser_link, bl_caster_rotation_link, bl_caster_l_wheel_link, bl_caster_r_wheel_link, br_caster_rotation_link, br_caster_l_wheel_link, br_caster_r_wheel_link, fl_caster_rotation_link, fl_caster_l_wheel_link, fl_caster_r_wheel_link, fr_caster_rotation_link, fr_caster_l_wheel_link, fr_caster_r_wheel_link, torso_lift_link, head_pan_link, head_tilt_link, head_plate_frame, head_mount_link, head_mount_kinect_ir_link, head_mount_kinect_ir_optical_frame, head_mount_kinect_rgb_link, head_mount_kinect_rgb_optical_frame, head_mount_prosilica_link, head_mount_prosilica_optical_frame, projector_wg6802418_frame, projector_wg6802418_child_frame, sensor_mount_link, double_stereo_link, narrow_stereo_link, narrow_stereo_l_stereo_camera_frame, narrow_stereo_l_stereo_camera_optical_frame, narrow_stereo_r_stereo_camera_frame, narrow_stereo_r_stereo_camera_optical_frame, narrow_stereo_optical_frame, wide_stereo_link, wide_stereo_l_stereo_camera_frame, wide_stereo_l_stereo_camera_optical_frame, wide_stereo_r_stereo_camera_frame, wide_stereo_r_stereo_camera_optical_frame, wide_stereo_optical_frame, high_def_frame, high_def_optical_frame, imu_link, l_shoulder_pan_link, l_shoulder_lift_link, l_upper_arm_roll_link, l_upper_arm_link, l_elbow_flex_link, l_forearm_roll_link, l_forearm_cam_frame, l_forearm_cam_optical_frame, l_forearm_link, l_wrist_flex_link, l_wrist_roll_link, l_gripper_palm_link, l_gripper_l_finger_link, l_gripper_l_finger_tip_link, l_gripper_led_frame, l_gripper_motor_accelerometer_link, l_gripper_motor_slider_link, l_gripper_motor_screw_link, l_gripper_r_finger_link, l_gripper_r_finger_tip_link, l_gripper_l_finger_tip_frame, l_gripper_tool_frame, l_torso_lift_side_plate_link, laser_tilt_mount_link, laser_tilt_link, r_shoulder_pan_link, r_shoulder_lift_link, r_upper_arm_roll_link, r_upper_arm_link, r_elbow_flex_link, r_forearm_roll_link, r_forearm_cam_frame, r_forearm_cam_optical_frame, r_forearm_link, r_wrist_flex_link, r_wrist_roll_link, r_gripper_palm_link, r_gripper_l_finger_link, r_gripper_l_finger_tip_link, r_gripper_led_frame, r_gripper_motor_accelerometer_link, r_gripper_motor_slider_link, r_gripper_motor_screw_link, r_gripper_r_finger_link, r_gripper_r_finger_tip_link, r_gripper_l_finger_tip_frame, r_gripper_tool_frame, r_torso_lift_side_plate_link, torso_lift_motor_screw_link, base_link_mesh, base_bellow_link_mesh, bl_caster_rotation_link_mesh, bl_caster_l_wheel_link_mesh, bl_caster_r_wheel_link_mesh, br_caster_rotation_link_mesh, br_caster_l_wheel_link_mesh, br_caster_r_wheel_link_mesh, fl_caster_rotation_link_mesh, fl_caster_l_wheel_link_mesh, fl_caster_r_wheel_link_mesh, fr_caster_rotation_link_mesh, fr_caster_l_wheel_link_mesh, fr_caster_r_wheel_link_mesh, torso_lift_link_mesh, head_pan_link_mesh, head_tilt_link_mesh, head_plate_frame_mesh, head_mount_kinect_ir_link_mesh, head_mount_kinect_rgb_link_mesh, head_mount_prosilica_link_mesh, sensor_mount_link_mesh, double_stereo_link_mesh, l_shoulder_pan_link_mesh, l_shoulder_lift_link_mesh, l_upper_arm_roll_link_mesh, l_upper_arm_link_mesh, l_elbow_flex_link_mesh, l_forearm_roll_link_mesh, l_forearm_link_mesh, l_wrist_flex_link_mesh, l_wrist_roll_link_mesh, l_gripper_palm_link_mesh, l_gripper_l_finger_link_mesh, l_gripper_l_finger_tip_link_mesh, l_gripper_motor_accelerometer_link_mesh, l_gripper_r_finger_link_mesh, l_gripper_r_finger_tip_link_mesh, laser_tilt_mount_link_mesh, r_shoulder_pan_link_mesh, r_shoulder_lift_link_mesh, r_upper_arm_roll_link_mesh, r_upper_arm_link_mesh, r_elbow_flex_link_mesh, r_forearm_roll_link_mesh, r_forearm_link_mesh, r_wrist_flex_link_mesh, r_wrist_roll_link_mesh, r_gripper_palm_link_mesh, r_gripper_l_finger_link_mesh, r_gripper_l_finger_tip_link_mesh, r_gripper_motor_accelerometer_link_mesh, r_gripper_r_finger_link_mesh, r_gripper_r_finger_tip_link_mesh, base_footprint_mesh.

Figure contains an axes object. The axes object with title Solution 5 contains 248 objects of type patch, line. These objects represent base_footprint, base_link, base_bellow_link, base_laser_link, bl_caster_rotation_link, bl_caster_l_wheel_link, bl_caster_r_wheel_link, br_caster_rotation_link, br_caster_l_wheel_link, br_caster_r_wheel_link, fl_caster_rotation_link, fl_caster_l_wheel_link, fl_caster_r_wheel_link, fr_caster_rotation_link, fr_caster_l_wheel_link, fr_caster_r_wheel_link, torso_lift_link, head_pan_link, head_tilt_link, head_plate_frame, head_mount_link, head_mount_kinect_ir_link, head_mount_kinect_ir_optical_frame, head_mount_kinect_rgb_link, head_mount_kinect_rgb_optical_frame, head_mount_prosilica_link, head_mount_prosilica_optical_frame, projector_wg6802418_frame, projector_wg6802418_child_frame, sensor_mount_link, double_stereo_link, narrow_stereo_link, narrow_stereo_l_stereo_camera_frame, narrow_stereo_l_stereo_camera_optical_frame, narrow_stereo_r_stereo_camera_frame, narrow_stereo_r_stereo_camera_optical_frame, narrow_stereo_optical_frame, wide_stereo_link, wide_stereo_l_stereo_camera_frame, wide_stereo_l_stereo_camera_optical_frame, wide_stereo_r_stereo_camera_frame, wide_stereo_r_stereo_camera_optical_frame, wide_stereo_optical_frame, high_def_frame, high_def_optical_frame, imu_link, l_shoulder_pan_link, l_shoulder_lift_link, l_upper_arm_roll_link, l_upper_arm_link, l_elbow_flex_link, l_forearm_roll_link, l_forearm_cam_frame, l_forearm_cam_optical_frame, l_forearm_link, l_wrist_flex_link, l_wrist_roll_link, l_gripper_palm_link, l_gripper_l_finger_link, l_gripper_l_finger_tip_link, l_gripper_led_frame, l_gripper_motor_accelerometer_link, l_gripper_motor_slider_link, l_gripper_motor_screw_link, l_gripper_r_finger_link, l_gripper_r_finger_tip_link, l_gripper_l_finger_tip_frame, l_gripper_tool_frame, l_torso_lift_side_plate_link, laser_tilt_mount_link, laser_tilt_link, r_shoulder_pan_link, r_shoulder_lift_link, r_upper_arm_roll_link, r_upper_arm_link, r_elbow_flex_link, r_forearm_roll_link, r_forearm_cam_frame, r_forearm_cam_optical_frame, r_forearm_link, r_wrist_flex_link, r_wrist_roll_link, r_gripper_palm_link, r_gripper_l_finger_link, r_gripper_l_finger_tip_link, r_gripper_led_frame, r_gripper_motor_accelerometer_link, r_gripper_motor_slider_link, r_gripper_motor_screw_link, r_gripper_r_finger_link, r_gripper_r_finger_tip_link, r_gripper_l_finger_tip_frame, r_gripper_tool_frame, r_torso_lift_side_plate_link, torso_lift_motor_screw_link, base_link_mesh, base_bellow_link_mesh, bl_caster_rotation_link_mesh, bl_caster_l_wheel_link_mesh, bl_caster_r_wheel_link_mesh, br_caster_rotation_link_mesh, br_caster_l_wheel_link_mesh, br_caster_r_wheel_link_mesh, fl_caster_rotation_link_mesh, fl_caster_l_wheel_link_mesh, fl_caster_r_wheel_link_mesh, fr_caster_rotation_link_mesh, fr_caster_l_wheel_link_mesh, fr_caster_r_wheel_link_mesh, torso_lift_link_mesh, head_pan_link_mesh, head_tilt_link_mesh, head_plate_frame_mesh, head_mount_kinect_ir_link_mesh, head_mount_kinect_rgb_link_mesh, head_mount_prosilica_link_mesh, sensor_mount_link_mesh, double_stereo_link_mesh, l_shoulder_pan_link_mesh, l_shoulder_lift_link_mesh, l_upper_arm_roll_link_mesh, l_upper_arm_link_mesh, l_elbow_flex_link_mesh, l_forearm_roll_link_mesh, l_forearm_link_mesh, l_wrist_flex_link_mesh, l_wrist_roll_link_mesh, l_gripper_palm_link_mesh, l_gripper_l_finger_link_mesh, l_gripper_l_finger_tip_link_mesh, l_gripper_motor_accelerometer_link_mesh, l_gripper_r_finger_link_mesh, l_gripper_r_finger_tip_link_mesh, laser_tilt_mount_link_mesh, r_shoulder_pan_link_mesh, r_shoulder_lift_link_mesh, r_upper_arm_roll_link_mesh, r_upper_arm_link_mesh, r_elbow_flex_link_mesh, r_forearm_roll_link_mesh, r_forearm_link_mesh, r_wrist_flex_link_mesh, r_wrist_roll_link_mesh, r_gripper_palm_link_mesh, r_gripper_l_finger_link_mesh, r_gripper_l_finger_tip_link_mesh, r_gripper_motor_accelerometer_link_mesh, r_gripper_r_finger_link_mesh, r_gripper_r_finger_tip_link_mesh, base_footprint_mesh.

Figure contains an axes object. The axes object with title Solution 6 contains 248 objects of type patch, line. These objects represent base_footprint, base_link, base_bellow_link, base_laser_link, bl_caster_rotation_link, bl_caster_l_wheel_link, bl_caster_r_wheel_link, br_caster_rotation_link, br_caster_l_wheel_link, br_caster_r_wheel_link, fl_caster_rotation_link, fl_caster_l_wheel_link, fl_caster_r_wheel_link, fr_caster_rotation_link, fr_caster_l_wheel_link, fr_caster_r_wheel_link, torso_lift_link, head_pan_link, head_tilt_link, head_plate_frame, head_mount_link, head_mount_kinect_ir_link, head_mount_kinect_ir_optical_frame, head_mount_kinect_rgb_link, head_mount_kinect_rgb_optical_frame, head_mount_prosilica_link, head_mount_prosilica_optical_frame, projector_wg6802418_frame, projector_wg6802418_child_frame, sensor_mount_link, double_stereo_link, narrow_stereo_link, narrow_stereo_l_stereo_camera_frame, narrow_stereo_l_stereo_camera_optical_frame, narrow_stereo_r_stereo_camera_frame, narrow_stereo_r_stereo_camera_optical_frame, narrow_stereo_optical_frame, wide_stereo_link, wide_stereo_l_stereo_camera_frame, wide_stereo_l_stereo_camera_optical_frame, wide_stereo_r_stereo_camera_frame, wide_stereo_r_stereo_camera_optical_frame, wide_stereo_optical_frame, high_def_frame, high_def_optical_frame, imu_link, l_shoulder_pan_link, l_shoulder_lift_link, l_upper_arm_roll_link, l_upper_arm_link, l_elbow_flex_link, l_forearm_roll_link, l_forearm_cam_frame, l_forearm_cam_optical_frame, l_forearm_link, l_wrist_flex_link, l_wrist_roll_link, l_gripper_palm_link, l_gripper_l_finger_link, l_gripper_l_finger_tip_link, l_gripper_led_frame, l_gripper_motor_accelerometer_link, l_gripper_motor_slider_link, l_gripper_motor_screw_link, l_gripper_r_finger_link, l_gripper_r_finger_tip_link, l_gripper_l_finger_tip_frame, l_gripper_tool_frame, l_torso_lift_side_plate_link, laser_tilt_mount_link, laser_tilt_link, r_shoulder_pan_link, r_shoulder_lift_link, r_upper_arm_roll_link, r_upper_arm_link, r_elbow_flex_link, r_forearm_roll_link, r_forearm_cam_frame, r_forearm_cam_optical_frame, r_forearm_link, r_wrist_flex_link, r_wrist_roll_link, r_gripper_palm_link, r_gripper_l_finger_link, r_gripper_l_finger_tip_link, r_gripper_led_frame, r_gripper_motor_accelerometer_link, r_gripper_motor_slider_link, r_gripper_motor_screw_link, r_gripper_r_finger_link, r_gripper_r_finger_tip_link, r_gripper_l_finger_tip_frame, r_gripper_tool_frame, r_torso_lift_side_plate_link, torso_lift_motor_screw_link, base_link_mesh, base_bellow_link_mesh, bl_caster_rotation_link_mesh, bl_caster_l_wheel_link_mesh, bl_caster_r_wheel_link_mesh, br_caster_rotation_link_mesh, br_caster_l_wheel_link_mesh, br_caster_r_wheel_link_mesh, fl_caster_rotation_link_mesh, fl_caster_l_wheel_link_mesh, fl_caster_r_wheel_link_mesh, fr_caster_rotation_link_mesh, fr_caster_l_wheel_link_mesh, fr_caster_r_wheel_link_mesh, torso_lift_link_mesh, head_pan_link_mesh, head_tilt_link_mesh, head_plate_frame_mesh, head_mount_kinect_ir_link_mesh, head_mount_kinect_rgb_link_mesh, head_mount_prosilica_link_mesh, sensor_mount_link_mesh, double_stereo_link_mesh, l_shoulder_pan_link_mesh, l_shoulder_lift_link_mesh, l_upper_arm_roll_link_mesh, l_upper_arm_link_mesh, l_elbow_flex_link_mesh, l_forearm_roll_link_mesh, l_forearm_link_mesh, l_wrist_flex_link_mesh, l_wrist_roll_link_mesh, l_gripper_palm_link_mesh, l_gripper_l_finger_link_mesh, l_gripper_l_finger_tip_link_mesh, l_gripper_motor_accelerometer_link_mesh, l_gripper_r_finger_link_mesh, l_gripper_r_finger_tip_link_mesh, laser_tilt_mount_link_mesh, r_shoulder_pan_link_mesh, r_shoulder_lift_link_mesh, r_upper_arm_roll_link_mesh, r_upper_arm_link_mesh, r_elbow_flex_link_mesh, r_forearm_roll_link_mesh, r_forearm_link_mesh, r_wrist_flex_link_mesh, r_wrist_roll_link_mesh, r_gripper_palm_link_mesh, r_gripper_l_finger_link_mesh, r_gripper_l_finger_tip_link_mesh, r_gripper_motor_accelerometer_link_mesh, r_gripper_r_finger_link_mesh, r_gripper_r_finger_tip_link_mesh, base_footprint_mesh.

Figure contains an axes object. The axes object with title Solution 7 contains 248 objects of type patch, line. These objects represent base_footprint, base_link, base_bellow_link, base_laser_link, bl_caster_rotation_link, bl_caster_l_wheel_link, bl_caster_r_wheel_link, br_caster_rotation_link, br_caster_l_wheel_link, br_caster_r_wheel_link, fl_caster_rotation_link, fl_caster_l_wheel_link, fl_caster_r_wheel_link, fr_caster_rotation_link, fr_caster_l_wheel_link, fr_caster_r_wheel_link, torso_lift_link, head_pan_link, head_tilt_link, head_plate_frame, head_mount_link, head_mount_kinect_ir_link, head_mount_kinect_ir_optical_frame, head_mount_kinect_rgb_link, head_mount_kinect_rgb_optical_frame, head_mount_prosilica_link, head_mount_prosilica_optical_frame, projector_wg6802418_frame, projector_wg6802418_child_frame, sensor_mount_link, double_stereo_link, narrow_stereo_link, narrow_stereo_l_stereo_camera_frame, narrow_stereo_l_stereo_camera_optical_frame, narrow_stereo_r_stereo_camera_frame, narrow_stereo_r_stereo_camera_optical_frame, narrow_stereo_optical_frame, wide_stereo_link, wide_stereo_l_stereo_camera_frame, wide_stereo_l_stereo_camera_optical_frame, wide_stereo_r_stereo_camera_frame, wide_stereo_r_stereo_camera_optical_frame, wide_stereo_optical_frame, high_def_frame, high_def_optical_frame, imu_link, l_shoulder_pan_link, l_shoulder_lift_link, l_upper_arm_roll_link, l_upper_arm_link, l_elbow_flex_link, l_forearm_roll_link, l_forearm_cam_frame, l_forearm_cam_optical_frame, l_forearm_link, l_wrist_flex_link, l_wrist_roll_link, l_gripper_palm_link, l_gripper_l_finger_link, l_gripper_l_finger_tip_link, l_gripper_led_frame, l_gripper_motor_accelerometer_link, l_gripper_motor_slider_link, l_gripper_motor_screw_link, l_gripper_r_finger_link, l_gripper_r_finger_tip_link, l_gripper_l_finger_tip_frame, l_gripper_tool_frame, l_torso_lift_side_plate_link, laser_tilt_mount_link, laser_tilt_link, r_shoulder_pan_link, r_shoulder_lift_link, r_upper_arm_roll_link, r_upper_arm_link, r_elbow_flex_link, r_forearm_roll_link, r_forearm_cam_frame, r_forearm_cam_optical_frame, r_forearm_link, r_wrist_flex_link, r_wrist_roll_link, r_gripper_palm_link, r_gripper_l_finger_link, r_gripper_l_finger_tip_link, r_gripper_led_frame, r_gripper_motor_accelerometer_link, r_gripper_motor_slider_link, r_gripper_motor_screw_link, r_gripper_r_finger_link, r_gripper_r_finger_tip_link, r_gripper_l_finger_tip_frame, r_gripper_tool_frame, r_torso_lift_side_plate_link, torso_lift_motor_screw_link, base_link_mesh, base_bellow_link_mesh, bl_caster_rotation_link_mesh, bl_caster_l_wheel_link_mesh, bl_caster_r_wheel_link_mesh, br_caster_rotation_link_mesh, br_caster_l_wheel_link_mesh, br_caster_r_wheel_link_mesh, fl_caster_rotation_link_mesh, fl_caster_l_wheel_link_mesh, fl_caster_r_wheel_link_mesh, fr_caster_rotation_link_mesh, fr_caster_l_wheel_link_mesh, fr_caster_r_wheel_link_mesh, torso_lift_link_mesh, head_pan_link_mesh, head_tilt_link_mesh, head_plate_frame_mesh, head_mount_kinect_ir_link_mesh, head_mount_kinect_rgb_link_mesh, head_mount_prosilica_link_mesh, sensor_mount_link_mesh, double_stereo_link_mesh, l_shoulder_pan_link_mesh, l_shoulder_lift_link_mesh, l_upper_arm_roll_link_mesh, l_upper_arm_link_mesh, l_elbow_flex_link_mesh, l_forearm_roll_link_mesh, l_forearm_link_mesh, l_wrist_flex_link_mesh, l_wrist_roll_link_mesh, l_gripper_palm_link_mesh, l_gripper_l_finger_link_mesh, l_gripper_l_finger_tip_link_mesh, l_gripper_motor_accelerometer_link_mesh, l_gripper_r_finger_link_mesh, l_gripper_r_finger_tip_link_mesh, laser_tilt_mount_link_mesh, r_shoulder_pan_link_mesh, r_shoulder_lift_link_mesh, r_upper_arm_roll_link_mesh, r_upper_arm_link_mesh, r_elbow_flex_link_mesh, r_forearm_roll_link_mesh, r_forearm_link_mesh, r_wrist_flex_link_mesh, r_wrist_roll_link_mesh, r_gripper_palm_link_mesh, r_gripper_l_finger_link_mesh, r_gripper_l_finger_tip_link_mesh, r_gripper_motor_accelerometer_link_mesh, r_gripper_r_finger_link_mesh, r_gripper_r_finger_tip_link_mesh, base_footprint_mesh.

Figure contains an axes object. The axes object with title Solution 8 contains 248 objects of type patch, line. These objects represent base_footprint, base_link, base_bellow_link, base_laser_link, bl_caster_rotation_link, bl_caster_l_wheel_link, bl_caster_r_wheel_link, br_caster_rotation_link, br_caster_l_wheel_link, br_caster_r_wheel_link, fl_caster_rotation_link, fl_caster_l_wheel_link, fl_caster_r_wheel_link, fr_caster_rotation_link, fr_caster_l_wheel_link, fr_caster_r_wheel_link, torso_lift_link, head_pan_link, head_tilt_link, head_plate_frame, head_mount_link, head_mount_kinect_ir_link, head_mount_kinect_ir_optical_frame, head_mount_kinect_rgb_link, head_mount_kinect_rgb_optical_frame, head_mount_prosilica_link, head_mount_prosilica_optical_frame, projector_wg6802418_frame, projector_wg6802418_child_frame, sensor_mount_link, double_stereo_link, narrow_stereo_link, narrow_stereo_l_stereo_camera_frame, narrow_stereo_l_stereo_camera_optical_frame, narrow_stereo_r_stereo_camera_frame, narrow_stereo_r_stereo_camera_optical_frame, narrow_stereo_optical_frame, wide_stereo_link, wide_stereo_l_stereo_camera_frame, wide_stereo_l_stereo_camera_optical_frame, wide_stereo_r_stereo_camera_frame, wide_stereo_r_stereo_camera_optical_frame, wide_stereo_optical_frame, high_def_frame, high_def_optical_frame, imu_link, l_shoulder_pan_link, l_shoulder_lift_link, l_upper_arm_roll_link, l_upper_arm_link, l_elbow_flex_link, l_forearm_roll_link, l_forearm_cam_frame, l_forearm_cam_optical_frame, l_forearm_link, l_wrist_flex_link, l_wrist_roll_link, l_gripper_palm_link, l_gripper_l_finger_link, l_gripper_l_finger_tip_link, l_gripper_led_frame, l_gripper_motor_accelerometer_link, l_gripper_motor_slider_link, l_gripper_motor_screw_link, l_gripper_r_finger_link, l_gripper_r_finger_tip_link, l_gripper_l_finger_tip_frame, l_gripper_tool_frame, l_torso_lift_side_plate_link, laser_tilt_mount_link, laser_tilt_link, r_shoulder_pan_link, r_shoulder_lift_link, r_upper_arm_roll_link, r_upper_arm_link, r_elbow_flex_link, r_forearm_roll_link, r_forearm_cam_frame, r_forearm_cam_optical_frame, r_forearm_link, r_wrist_flex_link, r_wrist_roll_link, r_gripper_palm_link, r_gripper_l_finger_link, r_gripper_l_finger_tip_link, r_gripper_led_frame, r_gripper_motor_accelerometer_link, r_gripper_motor_slider_link, r_gripper_motor_screw_link, r_gripper_r_finger_link, r_gripper_r_finger_tip_link, r_gripper_l_finger_tip_frame, r_gripper_tool_frame, r_torso_lift_side_plate_link, torso_lift_motor_screw_link, base_link_mesh, base_bellow_link_mesh, bl_caster_rotation_link_mesh, bl_caster_l_wheel_link_mesh, bl_caster_r_wheel_link_mesh, br_caster_rotation_link_mesh, br_caster_l_wheel_link_mesh, br_caster_r_wheel_link_mesh, fl_caster_rotation_link_mesh, fl_caster_l_wheel_link_mesh, fl_caster_r_wheel_link_mesh, fr_caster_rotation_link_mesh, fr_caster_l_wheel_link_mesh, fr_caster_r_wheel_link_mesh, torso_lift_link_mesh, head_pan_link_mesh, head_tilt_link_mesh, head_plate_frame_mesh, head_mount_kinect_ir_link_mesh, head_mount_kinect_rgb_link_mesh, head_mount_prosilica_link_mesh, sensor_mount_link_mesh, double_stereo_link_mesh, l_shoulder_pan_link_mesh, l_shoulder_lift_link_mesh, l_upper_arm_roll_link_mesh, l_upper_arm_link_mesh, l_elbow_flex_link_mesh, l_forearm_roll_link_mesh, l_forearm_link_mesh, l_wrist_flex_link_mesh, l_wrist_roll_link_mesh, l_gripper_palm_link_mesh, l_gripper_l_finger_link_mesh, l_gripper_l_finger_tip_link_mesh, l_gripper_motor_accelerometer_link_mesh, l_gripper_r_finger_link_mesh, l_gripper_r_finger_tip_link_mesh, laser_tilt_mount_link_mesh, r_shoulder_pan_link_mesh, r_shoulder_lift_link_mesh, r_upper_arm_roll_link_mesh, r_upper_arm_link_mesh, r_elbow_flex_link_mesh, r_forearm_roll_link_mesh, r_forearm_link_mesh, r_wrist_flex_link_mesh, r_wrist_roll_link_mesh, r_gripper_palm_link_mesh, r_gripper_l_finger_link_mesh, r_gripper_l_finger_tip_link_mesh, r_gripper_motor_accelerometer_link_mesh, r_gripper_r_finger_link_mesh, r_gripper_r_finger_tip_link_mesh, base_footprint_mesh.

Input Arguments

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Analytical inverse kinematics solver, specified as an analyticalInverseKinematics object.

Name of the generated function, specified as a string scalar or character vector.

Example: "jacoIKSolver"

Data Types: char | string

Output Arguments

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IK solver for the selected kinematic group, returned as a function handle. The function generates closed-form solutions and has these syntax options:

robotConfig = ikFunction(eeTransform)
robotConfig = ikFunction(eeTransform,enforceJointLimits)
robotConfig = ikFunction(eeTransform,enforceJointLimits,sortByDistance)
robotConfig = ikFunction(eeTransform,enforceJointLimits,sortByDistance,referenceConfig)

Desired end-effector pose, specified as a 4-by-4 homogeneous transformation matrix. To generate a transformation matrix from an xyz-position and quaternion orientation, use the trvec2tform and quat2tform functions on the respective coordinates and multiply the resulting matrices.

tform1 = trvec2tform([x y z]);
tform2 = quat2tform([qw qx qy qz]);
eeTransform = tform1*tform2;

Data Types: single | double

Enforce joint limits of the rigid body tree model, specified as a logical, 1 (true or 0 (false). When set to false, the solver ignores the joint limits of the robot model in the RigidBodyTree property of the analyticalInverseKinematics object.

Data Types: logical

Sort configurations based on distance from desired pose, specified as a logical, 1 (true or 0 (false).

Data Types: logical

Reference configuration for the IK solution, specified as an n-element vector, where n is the number of nonfixed joints in the rigid body tree robot model. Each element corresponds to a joint position as either a rotation angle in radians for revolute joints or a linear distance in meters for prismatic joints.

Data Types: single | double

Extended Capabilities

Introduced in R2020b