Exemplo n.º 1
0
                          state.pose.pose.position.y**2)
        time.sleep(0.1)

    r.stop()
    permission.acquire()
    r.steer_towards(p)
    r.set_speed(0.2)
    while not r.is_ready().robot_ready:
        time.sleep(0.1)


if __name__ == '__main__':
    try:
        rospy.init_node("Controller")
        rospy.sleep(0.5)
        r0 = RobotServices(0)
        r1 = RobotServices(1)
        startTime = rospy.get_time()
        print "Controller setup done"

        a = 5.0
        global asking_range
        asking_range = 2.5
        global permission
        permission = threading.Semaphore()

        while True:
            run_controller(r0, r1)
            tmp_r = r0
            r0 = r1
            r1 = tmp_r
Exemplo n.º 2
0
from geometry_msgs.msg import Point, Pose, PoseStamped
from nav_msgs.msg import Path
from controller.srv import *
import sys
import math
#import scipy as sp
import rospy
from Helper import RobotServices
import Helper as h

if __name__ == '__main__':
    try:
        rospy.init_node("Controller")
        rospy.sleep(0.5)
        r0 = RobotServices(0)
        print "Controller setup done"
	a = 1.0

        while True:
            # Both robots go to their start points
            p0 = Point()
            p0.x = -a
            p0.y = 0.0
            r0.go_to_point(p0)
            rospy.sleep(0.5)
	    while not r0.is_ready().robot_ready:
		rospy.sleep(1.0)

	    print "+++++++++++++++++++++++"
	    print "Reached first point!"
Exemplo n.º 3
0
from geometry_msgs.msg import Point, Pose, PoseStamped
from nav_msgs.msg import Path
from controller.srv import *
import sys
import math
import rospy
from Helper import RobotServices
import Helper as h
import random

if __name__ == '__main__':
    try:
        rospy.init_node("Controller")
        rospy.sleep(0.5)
        r0 = RobotServices(0)
        r1 = RobotServices(1)
        numberOfCrossings = 0
        '''
	gdist1 = 1.0
	gdist2 = 2.0
	pdist1 = 5.0
	pdist2 = 3.0
	'''

        gdist1 = 1.25
        gdist2 = 4.0
        pdist1 = 1.5
        pdist2 = 1.0

        print "Controller setup done"
Exemplo n.º 4
0
        if calculations_ext > 50:
            #print "Reached maximum allowed calculations, returning emergency acceleration value"
            #print "Number of calculations done to find satsifying acceleration is: "+str(calculations_ext)
            return -0.5

    #print "Number of calculations done to find satsifying acceleration is: "+str(calculations_ext+calculations_int1+calculations_int2)
    #print "Returned acceleration is: "+str(a)
    #print "Current position is: x="+str(r1state.pose.pose.position.x)+", y="+str(r1state.pose.pose.position.y)
    return a


if __name__ == '__main__':
    try:
        rospy.init_node("Controller")
        rospy.sleep(0.5)
        r0 = RobotServices(0)
        r1 = RobotServices(1)

        rospy.wait_for_service("Robot" + str(0) + "/calibrate_angle")
        r0calibrate = rospy.ServiceProxy("Robot" + str(0) + "/calibrate_angle",
                                         Stop)
        rospy.wait_for_service("Robot" + str(1) + "/calibrate_angle")
        r1calibrate = rospy.ServiceProxy("Robot" + str(1) + "/calibrate_angle",
                                         Stop)
        numberOfCrossings = 0
        a_old = 10000

        gdist1 = 1.5
        gdist2 = 2.0
        pdist1 = 4.0
        pdist2 = 1.0
Exemplo n.º 5
0
                calculations_ext)
            solution_found = False
            return 10000, solution_found, aim_behind

    print "Number of calculations done to find satsifying acceleration is: " + str(
        calculations_ext + calculations_int1 + calculations_int2)
    print "Returned acceleration is: " + str(a)
    solution_found = True
    return a, solution_found, aim_behind


if __name__ == '__main__':
    try:
        rospy.init_node("Controller")
        rospy.sleep(0.5)
        r0 = RobotServices(0)
        r1 = RobotServices(1)
        numberOfCrossings = 0

        gdist1 = 1.0
        gdist2 = 2.0
        pdist1 = 4.0
        pdist2 = 1.0

        print "Controller setup done"

        #r0.set_speed(0.3)
        #r1.set_speed(0.3)
        #rospy.sleep(3.0)
        #r0.stop()
        #r1.stop()
Exemplo n.º 6
0
from geometry_msgs.msg import Point, Pose, PoseStamped
from nav_msgs.msg import Path
from controller.srv import *
import sys
import math
import scipy as sp
import rospy
from Helper import RobotServices
import Helper as h

if __name__ == '__main__':
    try:
        rospy.init_node("Controller")
        rospy.sleep(0.5)
        r0 = RobotServices(0)
        r1 = RobotServices(1)
        print "Controller setup done"

        while True:
            # Both robots go to their start points
            p0 = Point()
            p0.x = -3.0
            p0.y = 0.0
            r0.go_to_point(p0)
            p1 = Point()
            p1.x = 0.0
            p1.y = -3.0
            r1.go_to_point(p1)
            rospy.sleep(0.5)
            h.wait_til_both_ready(r0, r1)