def shooter_desc_cb(): traj = PoseEditor.from_PoseTwistStamped_topic('/trajectory') desc = TargetDesc() desc.type = TargetDesc.TYPE_OBJECT desc.object_filename = roslib.packages.resource_file('auvsi_robosub', 'models', '2013/shooter.obj') desc.prior_distribution.pose.orientation = Quaternion(*traj.turn_left_deg(180).orientation) desc.disallow_yawing = True desc.min_dist = BOARD_DIST-1 desc.max_dist = BOARD_DIST+3 return [desc]
def shooter_desc_cb(): traj = PoseEditor.from_PoseTwistStamped_topic('/trajectory') desc = TargetDesc() desc.type = TargetDesc.TYPE_OBJECT desc.object_filename = roslib.packages.resource_file( 'auvsi_robosub', 'models', '2013/shooter.obj') desc.prior_distribution.pose.orientation = Quaternion( *traj.turn_left_deg(180).orientation) desc.disallow_yawing = True desc.min_dist = BOARD_DIST - 1 desc.max_dist = BOARD_DIST + 3 return [desc]
def hexagon_desc_cb(size, color): traj = PoseEditor.from_PoseTwistStamped_topic('/trajectory') desc = TargetDesc() desc.type = TargetDesc.TYPE_OBJECT desc.object_filename = roslib.packages.resource_file('auvsi_robosub', 'models', '2013/shooter_%sin_%s_hexagon.obj' % (7 if size == 'small' else 12, color)) desc.prior_distribution.pose.orientation = Quaternion(*traj.turn_left_deg(180).orientation) cov = numpy.zeros((6, 6)) a = numpy.array([traj.forward_vector]).T * 100 cov[3:, 3:] += a.dot(a.T) desc.prior_distribution.covariance = cov.flatten() desc.min_dist = HEXAGON_DIST*.9 desc.max_dist = HEXAGON_DIST/.9 desc.allow_rolling = True desc.disallow_yawing = True return [desc]
def hexagon_desc_cb(size, color): traj = PoseEditor.from_PoseTwistStamped_topic('/trajectory') desc = TargetDesc() desc.type = TargetDesc.TYPE_OBJECT desc.object_filename = roslib.packages.resource_file( 'auvsi_robosub', 'models', '2013/shooter_%sin_%s_hexagon.obj' % (7 if size == 'small' else 12, color)) desc.prior_distribution.pose.orientation = Quaternion( *traj.turn_left_deg(180).orientation) cov = numpy.zeros((6, 6)) a = numpy.array([traj.forward_vector]).T * 100 cov[3:, 3:] += a.dot(a.T) desc.prior_distribution.covariance = cov.flatten() desc.min_dist = HEXAGON_DIST * .9 desc.max_dist = HEXAGON_DIST / .9 desc.allow_rolling = True desc.disallow_yawing = True return [desc]
def make_manipulation(shared): traj = PoseEditor.from_PoseTwistStamped_topic('/trajectory') manipulation_desc = TargetDesc() manipulation_desc.type = TargetDesc.TYPE_OBJECT manipulation_desc.object_filename = roslib.packages.resource_file( 'auvsi_robosub', 'models', '2013/manipulation.obj') manipulation_desc.prior_distribution.pose.orientation = Quaternion( *traj.turn_left_deg(180).orientation) manipulation_desc.disallow_yawing = True manipulation_desc.min_dist = BOARD_DIST - 1 manipulation_desc.max_dist = BOARD_DIST + 3 wheel = TargetDesc() wheel.type = TargetDesc.TYPE_OBJECT wheel.object_filename = roslib.packages.resource_file( 'auvsi_robosub', 'models', '2013/manipulation_wheel.obj') wheel.prior_distribution.pose.orientation = Quaternion( *traj.turn_left_deg(180).orientation) cov = numpy.zeros((6, 6)) a = numpy.array([traj.forward_vector]).T * 100 cov[3:, 3:] += a.dot(a.T) wheel.prior_distribution.covariance = cov.flatten() wheel.min_dist = WHEEL_DIST * .9 wheel.max_dist = WHEEL_DIST / .9 wheel.allow_rolling = True wheel.disallow_yawing = True # Create a SMACH state machine sm = smach.Sequence(['succeeded', 'timeout', 'failed', 'preempted'], 'succeeded') # Open the container with sm: smach.Sequence.add( 'DEPTH', common_states.WaypointState(shared, lambda cur: cur.depth(1.5))) smach.Sequence.add( 'APPROACH', common_states.VelocityState(shared, numpy.array([.2, 0, 0]))) smach.Sequence.add( 'WAIT_MANIPULATION', object_finder_states.WaitForObjectsState( shared, 'find_forward', lambda: [manipulation_desc], .95)) smach.Sequence.add( 'STOP', common_states.VelocityState(shared, numpy.array([0, 0, 0]))) smach.Sequence.add('SLEEP', common_states.SleepState(5)) smach.Sequence.add( 'APPROACH_MANIPULATION', object_finder_states.ApproachObjectState(shared, 'find_forward', 'forward_camera', BOARD_DIST)) smach.Sequence.add( 'OPEN_LOOP_FORWARD', common_states.WaypointState( shared, lambda cur: cur.forward(BOARD_DIST - WHEEL_DIST).left(.5))) smach.Sequence.add( 'WAIT_WHEEL', object_finder_states.WaitForObjectsState(shared, 'find_forward', lambda: [wheel], .99)) smach.Sequence.add('WAIT_WHEEL_MORE', common_states.SleepState(5)) smach.Sequence.add( 'APPROACH_WHEEL', object_finder_states.ApproachObjectState(shared, 'find_forward', 'forward_camera', WHEEL_DIST)) smach.Sequence.add('EXTEND', subjugator_states.GasPoweredStickState(True)) smach.Sequence.add('OPEN_LOOP_FORWARD2', common_states.WaypointState(shared, lambda cur: cur.forward(WHEEL_DIST-TURN_DIST)\ .relative([0, .06, .06]))) smach.Sequence.add( 'TURN', common_states.WaypointSeriesState(shared, [ lambda cur: cur.down(.2), lambda cur: cur.right(.2), lambda cur: cur.up(.2), lambda cur: cur.left(.2), lambda cur: cur.down(.2), lambda cur: cur.right(.2) ])) smach.Sequence.add('RETRACT', subjugator_states.GasPoweredStickState(False)) smach.Sequence.add( 'BACKUP', common_states.WaypointState(shared, lambda cur: cur.backward(1))) return sm
def make_manipulation(shared): traj = PoseEditor.from_PoseTwistStamped_topic('/trajectory') manipulation_desc = TargetDesc() manipulation_desc.type = TargetDesc.TYPE_OBJECT manipulation_desc.object_filename = roslib.packages.resource_file('auvsi_robosub', 'models', '2013/manipulation.obj') manipulation_desc.prior_distribution.pose.orientation = Quaternion(*traj.turn_left_deg(180).orientation) manipulation_desc.disallow_yawing = True manipulation_desc.min_dist = BOARD_DIST-1 manipulation_desc.max_dist = BOARD_DIST+3 wheel = TargetDesc() wheel.type = TargetDesc.TYPE_OBJECT wheel.object_filename = roslib.packages.resource_file('auvsi_robosub', 'models', '2013/manipulation_wheel.obj') wheel.prior_distribution.pose.orientation = Quaternion(*traj.turn_left_deg(180).orientation) cov = numpy.zeros((6, 6)) a = numpy.array([traj.forward_vector]).T * 100 cov[3:, 3:] += a.dot(a.T) wheel.prior_distribution.covariance = cov.flatten() wheel.min_dist = WHEEL_DIST*.9 wheel.max_dist = WHEEL_DIST/.9 wheel.allow_rolling = True wheel.disallow_yawing = True # Create a SMACH state machine sm = smach.Sequence(['succeeded', 'timeout', 'failed', 'preempted'], 'succeeded') # Open the container with sm: smach.Sequence.add('DEPTH', common_states.WaypointState(shared, lambda cur: cur.depth(1.5))) smach.Sequence.add('APPROACH', common_states.VelocityState(shared, numpy.array([.2, 0, 0]))) smach.Sequence.add('WAIT_MANIPULATION', object_finder_states.WaitForObjectsState(shared, 'find_forward', lambda: [manipulation_desc], .95)) smach.Sequence.add('STOP', common_states.VelocityState(shared, numpy.array([0, 0, 0]))) smach.Sequence.add('SLEEP', common_states.SleepState(5)) smach.Sequence.add('APPROACH_MANIPULATION', object_finder_states.ApproachObjectState(shared, 'find_forward', 'forward_camera', BOARD_DIST)) smach.Sequence.add('OPEN_LOOP_FORWARD', common_states.WaypointState(shared, lambda cur: cur.forward(BOARD_DIST-WHEEL_DIST).left(.5))) smach.Sequence.add('WAIT_WHEEL', object_finder_states.WaitForObjectsState(shared, 'find_forward', lambda: [wheel], .99)) smach.Sequence.add('WAIT_WHEEL_MORE', common_states.SleepState(5)) smach.Sequence.add('APPROACH_WHEEL', object_finder_states.ApproachObjectState(shared, 'find_forward', 'forward_camera', WHEEL_DIST)) smach.Sequence.add('EXTEND', subjugator_states.GasPoweredStickState(True)) smach.Sequence.add('OPEN_LOOP_FORWARD2', common_states.WaypointState(shared, lambda cur: cur.forward(WHEEL_DIST-TURN_DIST)\ .relative([0, .06, .06]))) smach.Sequence.add('TURN', common_states.WaypointSeriesState(shared, [ lambda cur: cur.down(.2), lambda cur: cur.right(.2), lambda cur: cur.up(.2), lambda cur: cur.left(.2), lambda cur: cur.down(.2), lambda cur: cur.right(.2)])) smach.Sequence.add('RETRACT', subjugator_states.GasPoweredStickState(False)) smach.Sequence.add('BACKUP', common_states.WaypointState(shared, lambda cur: cur.backward(1))) return sm
import roslib; roslib.load_manifest('uf_smach') from auvsi_robosub import constants from uf_smach import common_states, object_finder_states, legacy_vision_states, missions from object_finder.msg import TargetDesc import numpy import smach SEARCH_WIDTH = 4 # How far to strafe SEARCH_ADVANCE = 1.5 # How far to move forward after strafing buoy_desc = TargetDesc() buoy_desc.type = TargetDesc.TYPE_SPHERE buoy_desc.sphere_radius = 4*.0254 # 4 in buoy_desc.prior_distribution.pose.orientation.w = 1 buoy_desc.min_dist = 2 buoy_desc.max_dist = 6 def make_buoy(shared): buoy_sm = smach.Sequence(['succeeded', 'failed', 'preempted'], 'succeeded') with buoy_sm: smach.Sequence.add('DEPTH', common_states.WaypointState(shared, lambda cur: cur.depth(2.5))) smach.Sequence.add('APPROACH', common_states.VelocityState(shared, numpy.array([.2, 0, 0]))) smach.Sequence.add('WAIT_BUOYS', object_finder_states.WaitForObjectsState(shared, 'find_forward', lambda: [buoy_desc], .90), transitions={'timeout': 'failed'}) smach.Sequence.add('APPROACH_BUOY', object_finder_states.ApproachObjectState(shared,
import roslib roslib.load_manifest('uf_smach') from auvsi_robosub import constants from uf_smach import common_states, object_finder_states, legacy_vision_states, missions from object_finder.msg import TargetDesc import numpy import smach SEARCH_WIDTH = 4 # How far to strafe SEARCH_ADVANCE = 1.5 # How far to move forward after strafing buoy_desc = TargetDesc() buoy_desc.type = TargetDesc.TYPE_SPHERE buoy_desc.sphere_radius = 4 * .0254 # 4 in buoy_desc.prior_distribution.pose.orientation.w = 1 buoy_desc.min_dist = 2 buoy_desc.max_dist = 6 def make_buoy(shared): buoy_sm = smach.Sequence(['succeeded', 'failed', 'preempted'], 'succeeded') with buoy_sm: smach.Sequence.add( 'DEPTH', common_states.WaypointState(shared, lambda cur: cur.depth(2.5))) smach.Sequence.add( 'APPROACH', common_states.VelocityState(shared, numpy.array([.2, 0, 0]))) smach.Sequence.add('WAIT_BUOYS', object_finder_states.WaitForObjectsState(