コード例 #1
0
    def __init__(self):
        top = RosPack().get_path('mobility_games')
        self.sound_folder = os.path.join(top, 'auditory/sound_files')
        rospy.init_node('audio_feedback')

        #   Set initial values for reconfigure
        self.mode = rospy.get_param("~mode", "sound")
        self.sweep_tolerance = rospy.get_param("~sweep_tolerance", "2.0")
        self.sweep_range = rospy.get_param("~sweep_range", "0.6")

        #   Set initial positions to None
        self.x = None
        self.y = None
        self.yaw = None
        self.cane_x = None
        self.cane_y = None
        self.cane_z = None

        self.start = False
        self.num_sweeps = 0

        self.count_sweeps = True
        self.reward_at = {}
        for num in [10, 20, 50, 100, 250, 500, 1000]:
            self.reward_at[num] = True

        #   Associate April tag ID to different wav files.
        self.tag_to_music_file = {3: "ambience2.wav", 12: "generic_music.wav"}
        self.tag_to_music_object = {}

        self.tag_to_sound_file = {3: "ding.wav", 12: "beep.wav"}
        self.tag_to_sound_object = {}

        for tag_id in self.tag_to_music_file:
            #   Create wav object of each track in music object dictionary
            self.tag_to_music_object[tag_id] = \
                pw.Wav(os.path.join(self.sound_folder,
                       self.tag_to_music_file[tag_id]))

        for tag_id in self.tag_to_sound_file:
            #   Create wav obejct of each sound file in sound disctionary
            self.tag_to_sound_object[tag_id] = \
                pw.Wav(os.path.join(self.sound_folder,
                       self.tag_to_music_file[tag_id]))

        self.reward_sound_file = None
        self.reward_sound_object = None

        self.engine = pyttsx.init()
        self.hasSpoken = False

        #   Set up dynamic reconfigure server
        Server(MusicalCaneConfig, self.config_callback)

        rospy.Subscriber('/tango_pose', PoseStamped, self.process_pose)
        rospy.Subscriber('/cane_tip', PoseStamped, self.process_cane_tip)
        rospy.Subscriber('/fisheye_undistorted/tag_detections',
                         AprilTagDetectionArray, self.tag_array)
コード例 #2
0
 def straight(self):
     self.x = None
     self.y = None
     self.yaw = None
     self.dist = None
     r = rospy.Rate(10)  #set the rate for loops
     while not self.yaw:  #not recieving data from streamer
         print "NONE"
         r.sleep()
         pass
     while not self.x:  #not recieving data from streamer
         print "None"
         r.sleep()
         pass
     straightAngle = self.yaw
     errorAngle = 15 * math.pi / 180
     pos_x = self.x  #gets the x position before you start moving
     pos_y = self.y  #gets the y position before you start moving
     while not rospy.is_shutdown():  #tmake sure rospy not shutdown
         #threshhold of the stragith angle
         if abs(angle_diff(self.yaw, straightAngle)) < errorAngle:
             #play the sound if you are in a straigth line
             if rospy.Time.now() - self.lastBeepNoise > rospy.Duration(1):
                 self.beepNoise.close()
                 self.beepNoise = pw.Wav(
                     path.join(self.sound_folder, "beep3.wav"))
                 self.beepNoise.play()
                 self.lastBeepNoise = rospy.Time.now()
             x = self.x - pos_x
             y = self.y - pos_y
             #calculate the distance between current posiiton to the starting position
             distance = math.sqrt((x**2) + (y**2))
             #Once you walk 1.5 meter makes you turn
             if distance >= self.traveled_distance:
                 self.dingNoise.play()
                 self.lastDingNoise = rospy.Time.now()
                 degree = random.choice(self.angleList)
                 if rospy.Time.now() - self.lastJumpNoise > rospy.Duration(
                         2):
                     self.jumpNoise.close()
                     self.jumpNoise = pw.Wav(
                         path.join(self.sound_folder, "jomp.wav"))
                     self.turn_game(degree)
                 break
         #If a wall is within 1.5 meter make you turn
         if self.dist < self.wall_threshold and self.dist > 0:
             degree = random.choice(self.angleList)
             if rospy.Time.now() - self.lastJumpNoise > rospy.Duration(2):
                 self.jumpNoise.close()
                 self.jumpNoise = pw.Wav(
                     path.join(self.sound_folder, "jomp.wav"))
                 self.turn_game(degree)
             break
         r.sleep()
コード例 #3
0
 def straight(self, start_x, start_y):
     self.x = None
     self.y = None
     self.yaw = None
     r = rospy.Rate(10)
     while not self.yaw:  #Check to see if data is coming in
         print "NONE"
         r.sleep()
         pass
     while not self.x:  #Check to see if data is coming in
         print "None"
         r.sleep()
         pass
     straightAngle = self.yaw #the angle you are facing 
     errorAngle = 15*math.pi/180 #threshold of the angle 
     loc_x = self.x #get you location after you turn
     loc_y = self.y #get you location after you turn
     while not rospy.is_shutdown():
         #this make sure htat you stay in straight angle
         if abs(angle_diff(self.yaw, straightAngle)) < errorAngle:  #Makes sure that you are walking in a straigt line
             if rospy.Time.now() - self.lastBeepNoise > rospy.Duration(1): #Plays the beep sound every second
                 self.beepNoise.close()
                 self.beepNoise = pw.Wav(path.join(self.sound_folder, "beep3.wav"))
                 self.beepNoise.play()
                 self.lastBeepNoise = rospy.Time.now()
             x = self.x - loc_x
             y = self.y - loc_y
             dist = math.sqrt((x**2)+(y**2))
             if dist >= self.travel_dist:  #Check to see if you have the goal of 1.5 meter
                 self.dingNoise.play()
                 self.lastDingNoise = rospy.Time.now()
                 degree = random.choice(self.angleList)  #Choose a random angle from the angleList
                 if rospy.Time.now() - self.lastJumpNoise > rospy.Duration(2):
                     self.jumpNoise.close()
                     self.jumpNoise = pw.Wav(path.join(self.sound_folder, "jomp.wav"))
                     self.turn_game(degree)  #Enter in the turn game method
                 break
         out_x = self.x - start_x
         out_y = self.y - start_y
         outside = math.sqrt((out_x**2)+(out_y**2))
         #this check to if you out of the border
         if(outside > self.border_radius):
             self.outOfBound(start_x, start_y)
             break
         r.sleep()
コード例 #4
0
 def __init__(self):
     rospy.init_node("grid_game_2")
     rospy.Subscriber("/tango_pose", PoseStamped, self.process_pose)
     rospy.Subscriber("/wall_dist", Float64, self.process_dist)
     srv = Server(GridGame2Config, self.config_callback)
     top = RosPack().get_path('mobility_games')
     self.sound_folder = path.join(top, 'auditory/sound_files')
     self.engine = pyttsx.init()
     self.dingNoise = pw.Wav(path.join(self.sound_folder, "ding.wav"))
     self.jumpNoise = pw.Wav(path.join(self.sound_folder, "jomp.wav"))
     self.beepNoise = pw.Wav(path.join(self.sound_folder, "beep3.wav"))
     self.lastDingNoise = rospy.Time.now()
     self.lastJumpNoise = rospy.Time.now()
     self.lastBeepNoise = rospy.Time.now()
     self.angleList = [90, -90, 180]
     self.traveled_distance = rospy.get_param('~traveled_distance', 2.0)
     self.wall_threshold = rospy.get_param('~wall_threshold', 1.5)
     self.hasSpoken = False
コード例 #5
0
 def run(self):
     r = rospy.Rate(10)
     while not rospy.is_shutdown():
         if rospy.Time.now() - self.lastDingNoise > rospy.Duration(2):
             self.dingNoise.close()
             self.dingNoise = pw.Wav(
                 path.join(node.sound_folder, "ding.wav"))
             self.straight()
         r.sleep()
コード例 #6
0
 def __init__(self):
     rospy.init_node("grid_game")
     rospy.Subscriber("/tango_pose", PoseStamped,self.process_pose)
     srv = Server(OriginalGridGameConfig, self.config_callback)
     top = RosPack().get_path('mobility_games')
     self.sound_folder = path.join(top, 'auditory/sound_files')
     self.engine = pyttsx.init()
     self.dingNoise = pw.Wav(path.join(self.sound_folder, "ding.wav"))
     self.jumpNoise = pw.Wav(path.join(self.sound_folder, "jomp.wav"))
     self.beepNoise = pw.Wav(path.join(self.sound_folder, "beep3.wav"))
     self.beep2Noise = pw.Wav(path.join(self.sound_folder, "beep2.wav"))
     self.lastDingNoise = rospy.Time.now()
     self.lastJumpNoise = rospy.Time.now()
     self.lastBeepNoise = rospy.Time.now()
     self.lastBeep2Noise = rospy.Time.now()
     self.angleList = [90,-90,180]
     self.travel_dist = 2.0
     self.border_radius = 5.0
     self.hasSpoken = False
コード例 #7
0
 def __init__(self):
     top = RosPack().get_path('mobility_games')
     self.sound_folder = path.join(top, 'auditory/sound_files')
     rospy.init_node('audio_feedback')
     rospy.Subscriber('/tango_pose', PoseStamped, self.process_pose)
     self.x = None   #   x and y position of Tango
     self.y = None
     self.yaw = None
     self.start = False
     self.music_to_play = "ambience2.wav"
     self.mus = pw.Wav(path.join(self.sound_folder, self.music_to_play))  #   Loads music from wav file
     print("Initialization done.")
コード例 #8
0
 def outOfBound(self, start_x, start_y):
     speak = "Out of Bounds"
     self.engine.say(speak) 
     if not self.hasSpoken: 
         self.engine.runAndWait()
         self.engine.say(speak)
         self.engine.runAndWait()
     self.hasSpoken = True
     normal = [start_x - self.x, start_y - self.y] #normal vector to the start
     theta = [0, 90, 180 , -90] #all the possible angle
     best_angle = 0
     best_dotprod = -1
     for i in range(len(theta)): #this calculate al possible angle that make you go back inot the circle
         goal_angle = self.yaw + theta[i]*math.pi/180
         unit = [math.cos(goal_angle), math.sin(goal_angle)]
         dotprod = normal[0] * unit[0] + normal[1] * unit[1]
         if dotprod > best_dotprod:
             best_dotprod = dotprod
             best_angle = theta[i]
     if rospy.Time.now() - self.lastJumpNoise > rospy.Duration(2):
         self.jumpNoise.close()
         self.jumpNoise = pw.Wav(path.join(self.sound_folder, "jomp.wav"))
         self.turn_game(best_angle)
     x_1 = self.x
     y_1 = self.y
     dist = 0
     straightAngle = self.yaw
     errorAngle = 15*math.pi/180
     self.engine.say("Walk Straight")
     while dist < 1: #this make you go back inot circle for a meter
         if abs(angle_diff(self.yaw, straightAngle)) < errorAngle:  #Makes sure that you are walking in a straigt line
             if rospy.Time.now() - self.lastBeep2Noise > rospy.Duration(1): #Plays the beep sound every second
                 self.beep2Noise.close()
                 self.beep2Noise = pw.Wav(path.join(self.sound_folder, "beep2.wav"))
                 self.beep2Noise.play()
                 self.lastBeep2Noise = rospy.Time.now()
             x_2 = self.x - x_1
             y_2 = self.y - y_1
             dist = math.sqrt((x_2**2)+(y_2**2)) 
コード例 #9
0
    def config_callback(self, config, level):
        self.mode = config["mode"]
        self.sweep_tolerance = config["sweep_tolerance"]
        self.sweep_range = config["sweep_range"]
        self.count_sweeps = config["count_sweeps"]

        self.reward_sound_file = config["rewardSound"]
        self.reward_sound_object = pw.Wav(self.reward_sound_file)

        # set reward checkpoints
        for num in [10, 20, 50, 100, 250, 500, 1000]:
            self.reward_at[num] = config["reward_at_%s" % num]

        return config
コード例 #10
0
 def run(self):
     r = rospy.Rate(10)
     self.x = None
     while not self.x:  #Check to see if data is coming in
         print "None Run Method"
         r.sleep()
         pass
     starting_pos_x = self.x #get you starting location
     starting_pos_y = self.y #git you starting location 
     while not rospy.is_shutdown():
         if rospy.Time.now() - self.lastDingNoise > rospy.Duration(2):
             self.dingNoise.close()
             self.dingNoise = pw.Wav(path.join(node.sound_folder, "ding.wav"))
             self.straight(starting_pos_x, starting_pos_y)
         r.sleep()
コード例 #11
0
    def run_wav(self):
        """ Plays a wav file while the user is sweeping the cane consistently.
            Pauses music when the cane stops, and resumes when it continues."""

        r = rospy.Rate(10)
        print("Searching for Tango...")
        print("Searching for AR tags...")
        visible_tag = 0

        while not rospy.is_shutdown():

            if not self.start:
                print("X position: " + str(self.x),
                      "Cane x position: " + str(self.cane_x))

            #   Start program if receiving pose from Tango
            if self.x and self.cane_x and not self.start:

                #   Note initial position
                self.x_init = self.x
                self.y_init = self.y

                #   Set some initial conditions
                self.start = True
                self.cane_y_prev = self.cane_y
                last_sweep = rospy.Time.now()
                tag = 0

                #   Keep track of which tag's audio should be playing and is
                #   currently playing. -1 means no tags are applicable.
                should_play = -1
                playing = -1

                print("Connection established.")
                print("Cane found.")

                #   Set parameters for cane sweeping.
                sweep_width = self.sweep_range
                cane_points = [-sweep_width / 2.0, sweep_width / 2.0]
                offset_selection = 0

            if self.start:

                #   Selects the first tag in view
                if len(self.id_list):
                    if self.id_list[0] in self.tag_to_music_object:
                        visible_tag = self.id_list[0]

                #   Determine the next point the cane should reach
                offset = cane_points[offset_selection]

                #   If the cane has passed the midline (y = 0), start music
                if (self.cane_y - offset) * (self.cane_y_prev - offset) <= 0:
                    self.num_sweeps += 1
                    should_play = visible_tag
                    last_sweep = rospy.Time.now()
                    print("Reached point %s." % offset_selection)
                    offset_selection = (offset_selection +
                                        1) % len(cane_points)

                    #   If in sound mode, play corresponding sound
                    if self.mode == "sound":
                        if self.count_sweeps:
                            self.engine.say(str(self.num_sweeps))
                            if not self.hasSpoken:
                                self.engine.runAndWait()
                                self.engine.say(str(self.num_sweeps))
                                self.engine.runAndWait()
                            self.hasSpoken = True
                        else:
                            # play sound
                            self.tag_to_sound_object[should_play].close()
                            self.tag_to_sound_object[should_play] = \
                                pw.Wav(os.path.join(self.sound_folder,
                                       self.tag_to_sound_file[should_play]))
                            self.tag_to_sound_object[should_play].play()

                        if self.num_sweeps in self.reward_at \
                                and self.reward_at[self.num_sweeps]:
                            if self.reward_sound_object:
                                self.reward_sound_object.close()
                            self.reward_sound_object = \
                                pw.Wav(self.reward_sound_file)
                            self.reward_sound_object.play()

                # Note previous cane position
                if self.cane_y_prev != self.cane_y:
                    self.cane_y_prev = self.cane_y

                #   If no sweep in X seconds, stop music
                if rospy.Time.now() - last_sweep > rospy.Duration(
                        self.sweep_tolerance):
                    should_play = -1

                print self.mode
                #   Music should not play if not in music mode
                if self.mode != "music":
                    should_play = -1

                #   Play music if it should be playing
                if playing != should_play and should_play >= 0:
                    self.tag_to_music_object[should_play].play()
                    playing = should_play

                #   Pause music if it should be paused
                if should_play == -1 and playing >= 0:
                    self.tag_to_music_object[playing].pause()
                    playing = -1

                #   Stop playing music to tags other than current one
                for tag in self.tag_to_music_object:
                    if self.tag_to_music_object[tag].stream.is_active() and \
                            tag != playing:
                        self.tag_to_music_object[tag].pause()

                #   Loop music if it has reached the end of the track
                if playing >= 0 and not \
                        self.tag_to_music_object[playing].stream.is_active():
                    self.tag_to_music_object[playing].close()
                    self.tag_to_music_object[playing] = \
                        pw.Wav(os.path.join(self.sound_folder,
                               self.tag_to_music_file[visible_tag]))
                    self.tag_to_music_object[playing].play()

            #   Run at 10 loops per second
            r.sleep()
コード例 #12
0
    def run(self):
        freq = ac.freq('C5')  #set default pitch to be overwritten and saved.
        vol = .8  #set default volume to be overwritten and saved.
        while not rospy.is_shutdown():  #Start main while loop
            #self.dist = random.random()*4
            if not self.dist is None and self.on:  #check if is on and has a distance
                self.last_sound_time = rospy.Time.now()  #reset sound time
                if abs(self.dist) < self.altsounddist and self.ding:
                    rewardsound = pw.Wav(self.dingsound)
                    rewardsound.play()
                    self.dingHappened = True

                else:
                    freq = ac.freq(
                        'C5')  #set default pitch (to be overwritten)
                    vol = .8  #set default volume (to be overwritten)
                    seconds = 5 * self.rate
                    fadeinendtime = 1.0 * self.rate
                    fadeoutendtime = 1.0 * self.rate
                    fadeintime = .2 * self.rate
                    fadeouttime = .2 * self.rate
                    """ MAKE THIS A PART OF THE UPDATE OF THE POSITION INSTEAD OF RECALCULATING ALL OF THIS FOR EVERY SOUND PLAYED!!!!!"""
                    if (self.pitch):  #if pitch modulation
                        multiplier = self.maxfreq / math.pow(
                            2, (self.maxfreqdist - self.altsounddist)
                        )  #calculate multiplier based on maxfreq, maxfreqdist, and altsounddist
                        freq = max(
                            min(
                                multiplier * math.pow(
                                    (abs(self.dist + random.random() *
                                         self.randrange) - self.altsounddist),
                                    2) + 65.4 * 2, self.maxfreq),
                            65.4 * 2) * 2  #set frequency based on distance
                        freq = ac.quantize(freq,
                                           quantizetype=self.quantizetype,
                                           key=self.key)  #quantize audio
                    else:
                        try:  #try to set default pitch
                            freq = ac.freq(self.pitchdefault)
                        except:  #if that doesn't work, do nothing, leaving the pitch as whatever it previously was.
                            pass
                    if (self.vol):  #if volume modulation
                        vol = (
                            .8 / (1 + math.exp((self.dist) / 1.5 - 1)) + .2
                        ) * vol  #insert volume function here. that goes from 1 to 0 with increasing distance to wall.
                    else:
                        vol = self.voldefault
                    #self.synth = ac.delay(self.synth, 1, self.s*.2, .5) #add delay to the synth

                    if not self.track:  #if no track
                        synth = ac.synth(
                            freq, synth="sin",
                            fadebool=False)  #create synth for sound
                        synth = ac.fade_out(
                            ac.fade_in(synth, fadeinendtime, fadeintime),
                            fadeoutendtime, fadeouttime)
                        ac.playstream(
                            synth, self.player, seconds=seconds, volume=vol
                        )  #synth, self.player, seconds = .5, volume = vol)
            #print(walldistself.dist)
            self.r.sleep()  #wait until next iteration
            if (self.dingHappened):
                self.dingHappened = False
                rewardsound.close()
コード例 #13
0
    def run(self):
        lps = 10    #   loops per second!
        r = rospy.Rate(lps)
        has_spoken = False
        p = pyaudio.PyAudio #   Establish pyaudio object
        playing = False
        print("Script starting.")
        while not rospy.is_shutdown():
            if self.x and not self.start:
                self.start = True
                jump_t = 0.5    #   duration (s) jump measurements are sampled
                dist_t = 0.5    #                movement
                rot_t = 1.0     #                rotation
                distance = [0] * int(dist_t * lps)  #   Create list of keyframes
                rotation = [0] * int(rot_t * lps)   #   for movement, rotation, and
                zd = [0] * int(jump_t * lps)        #   z position.
                #   These will be used to tell whether the user is moving, jumping, or rotating.
                last_beep = rospy.Time.now()
                beep_frequency = 1
                last_whoosh = rospy.Time.now()
                whoosh_frequency = 1
                x_curr, y_curr, z_curr, yaw_curr = self.x, self.y, self.z, self.yaw

            if self.x and self.start:
                x_prev = x_curr
                y_prev = y_curr
                x_curr = self.x
                y_curr = self.y
                #   Update position for this loop

                change = math.sqrt((x_curr - x_prev)**2 + (y_curr - y_prev)**2)
                distance = [change] + distance[:-1]
                total_distance = sum(distance)  #   Finds horizontal distance since last frame
                if total_distance > 0.5 and playing == False:
                    self.mus.play() #   Play music if user has moved more than half a meter in last 500ms
                    playing = True
                elif total_distance > 0.25:
                    pass
                else:
                    #   Stop music if user has moved less than a quarter meter in last 500ms
                    self.mus.pause()
                    playing = False

                if not self.mus.stream.is_active() and playing:
                    self.mus.close()
                    self.mus = pw.Wav(path.join(self.sound_folder, self.music_to_play))
                    self.mus.play()


                z_prev = z_curr
                z_curr = self.z
                change = (z_curr - z_prev)
                zd = [change] + zd[:-1]
                total_jump = sum(zd)
                if total_jump > 0.2:
                    #   If z position has increased by at least 0.2m, user has jumped.
                    system('aplay ' + path.join(self.sound_folder, "jomp.wav"))
                    zd = [0] * int(jump_t * lps)

                yaw_prev = yaw_curr
                yaw_curr = self.yaw

                change = yaw_curr - yaw_prev
                if abs(change) > math.pi:
                    change -= 2*math.pi*np.sign(change)
                rotation = [change] + rotation[:-1]
                total_rotation = sum(rotation)

                if abs(total_rotation) > math.pi and rospy.Time.now() - last_whoosh > rospy.Duration(whoosh_frequency):
                    system('aplay ' + path.join(self.sound_folder, "ding.wav"))
                    rotation = [0] * int(rot_t * lps)
                    last_whoosh = rospy.Time.now()

                print "Distance: " + str(round(total_distance, 3))
                print "Rotation: " + str(round(total_rotation, 3))

            r.sleep()
        self.mus.close()