Esempio n. 1
0
 def __init__(self, input):
     threading.Thread.__init__(self)
     self.headset = Emotiv()
     self.f3 = input['F3']
     self.f4 = input['F4']
     self.af3 = input['AF3']
     self.af4 = input['AF4']
Esempio n. 2
0
 def read_data(self):
     try:
         a = Emotiv()
         self.current_session_raw = a.setupWin()
         # a.device.close()
         self.get_raw_id()
         return True
     except Exception as err:
         print "Error reading raw data! "
         for t in err.args:
             print t
         return False
Esempio n. 3
0
 def run(self):
     self.headset = Emotiv()
     gevent.spawn(self.headset.setup)
     gevent.sleep(0)
     print("Serial Number: %s" % self.headset.serial_number)
     while True:
         packet = self.headset.dequeue()
         self.f3.insert(packet.sensors['F3']['value'])
         self.f4.insert(packet.sensors['F4']['value'])
         self.af3.insert(packet.sensors['AF3']['value'])
         self.af4.insert(packet.sensors['AF4']['value'])
         gevent.sleep(0)
Esempio n. 4
0
def save_data(salidaDatos, q_marcas):

    emo = EM.Emotiv(True, False, (1, 1))
    emo.connect()
    emo.setup()
    emo.setBufferSizeInSecs(5.0)
    emo.enableForUser(0)
    emo.setEdfOutput(salidaDatos)
    emo.startWriting()
    emo.start()

    salida = False

    while not salida:
        if not q_marcas.empty():
            marca = q_marcas.get()
            if marca == 42:
                salida = True
            print "Antes de mandar ", marca, time.time()
            emo.mark(0, marca)
            print "Desp de mandar ", marca, time.time()

    time.sleep(2)

    emo.stop()
    emo.disconnect()
Esempio n. 5
0
class ThreadReaderEmotiv(Thread):
    def __init__(self, input):
        threading.Thread.__init__(self)
        self.headset = Emotiv()
        self.f3 = input['F3']
        self.f4 = input['F4']
        self.af3 = input['AF3']
        self.af4 = input['AF4']

    def run(self):
        self.headset = Emotiv()
        gevent.spawn(self.headset.setup)
        gevent.sleep(0)
        print("Serial Number: %s" % self.headset.serial_number)
        while True:
            packet = self.headset.dequeue()
            self.f3.insert(packet.sensors['F3']['value'])
            self.f4.insert(packet.sensors['F4']['value'])
            self.af3.insert(packet.sensors['AF3']['value'])
            self.af4.insert(packet.sensors['AF4']['value'])
            gevent.sleep(0)
Esempio n. 6
0
    def emotiv(self):
        headset = Emotiv()
        gevent.spawn(headset.setup)
        print("Serial Number: %s" % headset.serial_number)

        self.num_blocks = len(self.content)
        cont_seconds = 0
        temp_t = 0
        tag = self.content[0][1]
        #Se define el escritor de las lecturas en el archivo CSV
        writer = csv.writer(open(self.filename, 'w'),
                            delimiter=',',
                            quotechar='"',
                            lineterminator='\n')
        row = ["Audio"]
        row.append("Time")
        row.append("Exact Time")
        for sensor in self.sensors:
            row.append(sensor)
            row.append(sensor + "_Quality")
        row.append("Emotion")
        row.append("Selected Emotion")
        writer.writerow(row)
        try:
            t0 = time.time()
            time_block = 300
            index_actual = 0
            while True:
                t = int(time.time() - t0)
                if temp_t != t:
                    cont_seconds += 1
                if cont_seconds >= time_block:
                    cont_seconds = 0
                    index_actual += 1
                    #self.player.next_source()
                if cont_seconds >= 300:
                    time_block = 15
                if t > 720:
                    headset.close()
                    self.player.pause()
                    break
                if t < 180:
                    tag = 'NON-RELAX'
                elif (t >= 180):
                    tag = self.emotions[index_actual]
                row = [self.content[index_actual][0].split('.')[0]]
                row.append(str(t))
                row.append(time.time())
                try:
                    for sensor in self.sensors:
                        row.append(str(headset.sensors[sensor]['value']))
                        row.append(str(headset.sensors[sensor]['quality']))
                except:
                    print "Sensor incorrecto"
                    headset.close()
                row.append(tag)
                row.append(self.selectedEmotion)
                if self.selectedEmotion != '':
                    self.selectedEmotion = ''
                # Se exporta a csv
                writer.writerow(row)
                #print row
                temp_t = t
                gevent.sleep(0)
        except KeyboardInterrupt:
            headset.close()
        finally:
            headset.close()
Esempio n. 7
0
def main(outfile='eegout.csv', debug=False):
    global gheight
    pygame.init()
    screen = pygame.display.set_mode((800, 450))
    graphers = []
    recordings = []
    recording = False
    record_packets = []
    updated = False
    curX, curY = 400, 300
    pause = False

    features = 'AF3 F7 F3 FC5 T7 P7 O1 O2 P8 T8 FC6 F4 F8 AF4'.split(' ')

    for name in features:
        graphers.append(Grapher(screen, name, len(graphers)))
    fullscreen = False
    emotiv = Emotiv(displayOutput=False)
    gevent.spawn(emotiv.setup)
    gevent.sleep(1)

    labels = 'down up'.split(' ')
    classifier = RandomizedTrees(labels)
    testsize = 0
    train = 0

    csvfile = open(outfile, 'wb')
    csvwriter = csv.writer(csvfile, delimiter = ',')
    # first row = attribute names
    csvwriter.writerow(features);

    # for displaying testing instructions
    font = pygame.font.Font(None, 36)
    text = 'next: ' + labels[train / 2]

    while True:
        for event in pygame.event.get():
            if event.type == pygame.QUIT:
                emotiv.close()
                return
            if (event.type == pygame.KEYDOWN):
                if (event.key == pygame.K_ESCAPE):
                    emotiv.close()
                    return
                elif (event.key == pygame.K_f):
                    if fullscreen:
                        screen = pygame.display.set_mode((800, 450))
                        fullscreen = False
                    else:
                        # Don't actually do full-screen. You might be unable to
                        # undo...
                        screen = pygame.display.set_mode((1600,900))
                        fullscreen = True
                elif (event.key == pygame.K_r):
                    if not recording:
                        record_packets = []
                        recording = True
                    else:
                        recording = False
                        recordings.append(list(record_packets))
                        record_packets = None
                elif (event.key == pygame.K_RETURN):
                    train = train + 1
                    # print the next concept to train
                    if train < 2 * len(labels):
                      if train % 2 == 0:
                        text = 'next: ' + labels[train / 2]
                      else:
                        text = 'current: ' + labels[train / 2]
                    else:
                        text = ''
                elif (event.key == pygame.K_p):
                  pause = not pause
                  
        packetsInQueue = 0
        try:
            while packetsInQueue < 8:
                packet = emotiv.dequeue()

                # update cursor position based on gyros
#                if abs(packet.gyroX) > 1:
#                    curX = max(0, min(curX, 1600))
#                    curX -= packet.gyroX
#                if abs(packet.gyroY) > 1:
#                    curY += packet.gyroY
#                    curY = max(0, min(curY, 900))
                
                sensors = packet.sensors
                csvrow = []
                for i in range(len(features)):
                  csvrow.append(sensors[features[i]]['value'])
                print csvrow
                csvwriter.writerow(csvrow);

                if train == 0:
                  print 'doing nothing'

                elif train < 2 * len(labels):
                  if train % 2 == 1:
                    classifier.AddTrainExample(csvrow, labels[train / 2])
                    testsize = testsize + 1
                    print labels[train / 2]

                elif train == 2 * len(labels):
                  classifier.Train()
                  train = train + 1

                else:
                  (label, score) = classifier.Classify(csvrow)
                  print "label:"
                  print label
                  print "classification score:"
                  print score
                  # Update cursor (top left if (0, 0)):
                  #   Suggested pairings:
                  #   right hand up = right
                  #   left hand up = left
                  #   both hands up = up
                  #   rest up = down
                  if pause == False:
                    if label == 'right':
                      curX += 1
                      x, y = screen.get_size()
                      if curX > x:
                        curX = x
                    elif label == 'left':
                      curX -= 1
                      if curX < 0:
                        curX = 0
                    elif label == 'down':
                      curY += 1
                      x, y = screen.get_size()
                      if curY > y:
                        curY = y
                    elif label == 'up':
                      curY -= 1
                      if curY < 0:
                        curY = 0


                map(lambda x: x.update(packet), graphers)
                if recording:
                    record_packets.append(packet)
                updated = True
                packetsInQueue += 1
        except Exception, e:
            print e

        if updated:
            screen.fill((75, 75, 75))
            map(lambda x: x.draw(), graphers)
            pygame.draw.rect(screen, (255, 255, 255), (curX - 5, curY - 5, 10, 10), 0)  
            # r for 'to render'
            rtext = font.render(text, 1, (0, 255, 0))
            screen.blit(rtext, (0, 0))
            pygame.display.flip()
            updated = False
        gevent.sleep(0)
Esempio n. 8
0
        curX, curY = width / 2, height / 2
        while True:
            updated = False
            packet = emotiv.dequeue()
            if abs(packet.gyroX) > 1:
                curX -= packet.gyroX
                updated = True
            if abs(packet.gyroY) > 1:
                curY += packet.gyroY
                updated = True
            curX = max(0, min(curX, width))
            curY = max(0, min(curY, height))
            if updated:
                screen.move_mouse(curX, curY)
            gevent.sleep(0)


emotiv = None
if __name__ == "__main__":
    try:
        emotiv = Emotiv()
        gevent.spawn(emotiv.setup)
        gevent.sleep(1)
        main(*sys.argv[1:])

    finally:
        if emotiv:
            emotiv.close()


Esempio n. 9
0
    def start(self, sequence=None, time_block=7, filename='data.csv'):
        self.time_block = time_block
        self.filename = filename
        #Se define el objeto EMOTIV, utilizando la libreria EMOKIT
        headset = Emotiv()
        gevent.spawn(headset.setup)
        gevent.sleep(0)
        print("Serial Number: %s" % headset.serial_number)

        if sequence is not None:
            self.sequence = sequence
            self.num_blocks = len(self.sequence)
        i = 0
        cont_block = 0
        cont_seconds = 0
        temp_t = 0
        tag = self.sequence[0]

        #Se define el escritor de las lecturas en el archivo CSV
        writer = csv.writer(open(self.filename, 'w'),
                            delimiter='\t',
                            quotechar='"')
        try:
            t0 = time.time()
            while True:
                t = int(time.time() - t0)
                #t = int(time.time())
                if temp_t != t:
                    cont_seconds += 1

                if cont_seconds > self.time_block:
                    cont_seconds = 0
                    cont_block += 1
                    if cont_block == self.num_blocks:
                        headset.close()
                        break
                    else:
                        tag = self.sequence[cont_block]

                # Se obtiene el paquete de datos, utilizando EMOKIT
                packet = headset.dequeue()
                #print packet.sensors
                # Se construye la informacion a guardar
                row = [
                    str(t), "F3:" + str(packet.sensors['F3']['quality']) +
                    "," + str(packet.sensors['F3']['value']),
                    "F4:" + str(packet.sensors['F4']['quality']) + "," +
                    str(packet.sensors['F4']['value']),
                    "AF3:" + str(packet.sensors['AF3']['quality']) + "," +
                    str(packet.sensors['AF3']['value']),
                    "AF4:" + str(packet.sensors['AF4']['quality']) + "," +
                    str(packet.sensors['AF4']['value']),
                    "O1:" + str(packet.sensors['O1']['quality']) + "," +
                    str(packet.sensors['O1']['value']),
                    "O2:" + str(packet.sensors['O2']['quality']) + "," +
                    str(packet.sensors['O2']['value']), tag
                ]
                # Se exporta a csv
                writer.writerow(row)
                print row
                temp_t = t
                gevent.sleep(0)
        except KeyboardInterrupt:
            headset.close()
        finally:
            headset.close()
        i += 1
Esempio n. 10
0
def main():
    """
    Creates pygame window and graph drawing workers for each sensor.
    """
    global gheight
    pygame.init()
    screen = pygame.display.set_mode((800, 600))
    graphers = []
    recordings = []
    recording = False
    record_packets = []
    updated = False
    cursor_x, cursor_y = 400, 300
    for name in 'AF3 F7 F3 FC5 T7 P7 O1 O2 P8 T8 FC6 F4 F8 AF4'.split(' '):
        graphers.append(Grapher(screen, name, len(graphers)))
    fullscreen = False
    emotiv = Emotiv(display_output=True)
    gevent.spawn(emotiv.setup)
    gevent.sleep(0)
    while emotiv.running:
        for event in pygame.event.get():
            if event.type == pygame.QUIT:
                emotiv.close()
                return
            if event.type == pygame.KEYDOWN:
                if event.key == pygame.K_ESCAPE:
                    emotiv.close()
                    return
                elif event.key == pygame.K_f:
                    if fullscreen:
                        screen = pygame.display.set_mode((800, 600))
                        fullscreen = False
                    else:
                        screen = pygame.display.set_mode((800, 600),
                                                         FULLSCREEN, 16)
                        fullscreen = True
                elif event.key == pygame.K_r:
                    if not recording:
                        record_packets = []
                        recording = True
                    else:
                        recording = False
                        recordings.append(list(record_packets))
                        record_packets = None
        packets_in_queue = 0
        try:
            while packets_in_queue < 8:
                packet = emotiv.dequeue()
                if abs(packet.gyro_x) > 1:
                    cursor_x = max(0, min(cursor_x, 800))
                    cursor_x -= packet.gyro_x
                if abs(packet.gyro_y) > 1:
                    cursor_y += packet.gyro_y
                    cursor_y = max(0, min(cursor_y, 600))
                map(lambda x: x.update(packet), graphers)
                if recording:
                    record_packets.append(packet)
                updated = True
                packets_in_queue += 1
        except Exception, ex:
            print ex

        if updated:
            screen.fill((75, 75, 75))
            map(lambda x: x.draw(), graphers)
            pygame.draw.rect(screen, (255, 255, 255),
                             (cursor_x - 5, cursor_y - 5, 10, 10), 0)
            pygame.display.flip()
            updated = False
        gevent.sleep(0)
Esempio n. 11
0
def main():
    """
    Creates pygame window and graph drawing workers for each sensor.
    """
    global gheight
    pygame.init()
    screen = pygame.display.set_mode((800, 600))
    graphers = []
    recordings = []
    recording = False
    record_packets = []
    updated = False
    cursor_x, cursor_y = 400, 300
    for name in "AF3 F7 F3 FC5 T7 P7 O1 O2 P8 T8 FC6 F4 F8 AF4".split(" "):
        graphers.append(Grapher(screen, name, len(graphers)))
    fullscreen = False
    emotiv = Emotiv(display_output=True)
    gevent.spawn(emotiv.setup)
    gevent.sleep(0)
    while emotiv.running:
        for event in pygame.event.get():
            if event.type == pygame.QUIT:
                emotiv.close()
                return
            if event.type == pygame.KEYDOWN:
                if event.key == pygame.K_ESCAPE:
                    emotiv.close()
                    return
                elif event.key == pygame.K_f:
                    if fullscreen:
                        screen = pygame.display.set_mode((800, 600))
                        fullscreen = False
                    else:
                        screen = pygame.display.set_mode((800, 600), FULLSCREEN, 16)
                        fullscreen = True
                elif event.key == pygame.K_r:
                    if not recording:
                        record_packets = []
                        recording = True
                    else:
                        recording = False
                        recordings.append(list(record_packets))
                        record_packets = None
        packets_in_queue = 0
        try:
            while packets_in_queue < 8:
                packet = emotiv.dequeue()
                if abs(packet.gyro_x) > 1:
                    cursor_x = max(0, min(cursor_x, 800))
                    cursor_x -= packet.gyro_x
                if abs(packet.gyro_y) > 1:
                    cursor_y += packet.gyro_y
                    cursor_y = max(0, min(cursor_y, 600))
                map(lambda x: x.update(packet), graphers)
                if recording:
                    record_packets.append(packet)
                updated = True
                packets_in_queue += 1
        except Exception, ex:
            print ex

        if updated:
            screen.fill((75, 75, 75))
            map(lambda x: x.draw(), graphers)
            pygame.draw.rect(screen, (255, 255, 255), (cursor_x - 5, cursor_y - 5, 10, 10), 0)
            pygame.display.flip()
            updated = False
        gevent.sleep(0)
Esempio n. 12
0
    def start(self, sequence=None, sensors=None, time_block=7):
        self.time_block = time_block
        #Se define el objeto EMOTIV, utilizando la libreria EMOKIT
        headset = Emotiv()
        gevent.spawn(headset.setup)

        print("Serial Number: %s" % headset.serial_number)

        if sequence is not None:
            self.sequence = sequence
            self.num_blocks = len(self.sequence)
        i = 0
        cont_block = 0
        cont_seconds = 0
        temp_t = 0
        tag = self.sequence[0]

        #Se define el escritor de las lecturas en el archivo CSV
        # writer = csv.writer(open(self.filename, 'w'), delimiter=',', quotechar='"', lineterminator='\n') #windows
        writer = csv.writer(open(self.filename, 'w'),
                            delimiter=',',
                            quotechar='"')  #linux
        try:
            row = ["Time"]
            for sensor in sensors:
                row.append(sensor)
                row.append(sensor + "_Quality")
            row.append("Tag")

            writer.writerow(row)

            t0 = time.time()
            while True:
                t = int(time.time() - t0)

                if temp_t != t:
                    cont_seconds += 1

                if cont_seconds > self.time_block:
                    cont_seconds = 0
                    cont_block += 1
                    if cont_block == self.num_blocks:
                        headset.close()
                        break
                    else:
                        tag = self.sequence[cont_block]

                # Se construye la informacion a guardar
                row = [str(t)]
                try:
                    for sensor in sensors:
                        row.append(str(headset.sensors[sensor]['value']))
                        row.append(str(headset.sensors[sensor]['quality']))

                except:
                    print "Sensor incorrecto"
                    headset.close()
                row.append(tag)

                # Se exporta a csv
                writer.writerow(row)
                print row
                temp_t = t
                gevent.sleep(0)
        except KeyboardInterrupt:
            headset.close()
        finally:
            headset.close()
        i += 1
Esempio n. 13
0
        updated = False
        for packet in headset:
            print 'received', packet.gyroX, packet.gyroY

            updated = True
            if abs(packet.gyroX) > 1:
                curX -= packet.gyroX - 1
            if abs(packet.gyroY) > 1:
                curY += packet.gyroY
            curX = max(0, min(curX, width))
            curY = max(0, min(curY, height))

        if updated:
            screen.move_mouse(curX, curY)
        time.sleep(1.0 / 60)


headset = None

try:
    logger = logging.getLogger('emotiv')
    logger.setLevel(logging.INFO)
    log_handler = logging.StreamHandler()
    logger.addHandler(log_handler)

    headset = Emotiv()
    main(*sys.argv[1:])

finally:
    pass
Esempio n. 14
0
def main(debug=False):
    global gheight
    pygame.init()
    screen = pygame.display.set_mode((1600, 900))
    graphers = []
    recordings = []
    recording = False
    record_packets = []
    updated = False
    curX, curY = 400, 300

    for name in 'AF3 F7 F3 FC5 T7 P7 O1 O2 P8 T8 FC6 F4 F8 AF4'.split(' '):
        graphers.append(Grapher(screen, name, len(graphers)))
    fullscreen = False
    emotiv = Emotiv(displayOutput=False)
    gevent.spawn(emotiv.setup)
    gevent.sleep(1)
    while True:
        for event in pygame.event.get():
            if event.type == pygame.QUIT:
                emotiv.close()
                return
            if (event.type == pygame.KEYDOWN):
                if (event.key == pygame.K_ESCAPE):
                    emotiv.close()
                    return
                elif (event.key == pygame.K_f):
                    if fullscreen:
                        screen = pygame.display.set_mode((1600, 900))
                        fullscreen = False
                    else:
                        screen = pygame.display.set_mode((1600, 900),
                                                         FULLSCREEN, 16)
                        fullscreen = True
                elif (event.key == pygame.K_r):
                    if not recording:
                        record_packets = []
                        recording = True
                    else:
                        recording = False
                        recordings.append(list(record_packets))
                        record_packets = None
        packetsInQueue = 0
        try:
            while packetsInQueue < 8:
                packet = emotiv.dequeue()
                if abs(packet.gyroX) > 1:
                    curX = max(0, min(curX, 1600))
                    curX -= packet.gyroX
                if abs(packet.gyroY) > 1:
                    curY += packet.gyroY
                    curY = max(0, min(curY, 900))
                map(lambda x: x.update(packet), graphers)
                if recording:
                    record_packets.append(packet)
                updated = True
                packetsInQueue += 1
        except Exception, e:
            print e

        if updated:
            screen.fill((75, 75, 75))
            map(lambda x: x.draw(), graphers)
            pygame.draw.rect(screen, (255, 255, 255),
                             (curX - 5, curY - 5, 10, 10), 0)
            pygame.display.flip()
            updated = False
        gevent.sleep(0)
Esempio n. 15
0
def main(debug=False):
    global gheight
    pygame.init()
    screen = pygame.display.set_mode((1600, 900))
    graphers = []
    recordings = []
    recording = False
    record_packets = []
    updated = False
    curX, curY = 400, 300

    for name in 'AF3 F7 F3 FC5 T7 P7 O1 O2 P8 T8 FC6 F4 F8 AF4'.split(' '):
        graphers.append(Grapher(screen, name, len(graphers)))
    fullscreen = False
    emotiv = Emotiv(displayOutput=False)
    gevent.spawn(emotiv.setup)
    gevent.sleep(1)
    while True:
        for event in pygame.event.get():
            if event.type == pygame.QUIT:
                emotiv.close()
                return
            if (event.type == pygame.KEYDOWN):
                if (event.key == pygame.K_ESCAPE):
                    emotiv.close()
                    return
                elif (event.key == pygame.K_f):
                    if fullscreen:
                        screen = pygame.display.set_mode((1600, 900))
                        fullscreen = False
                    else:
                        screen = pygame.display.set_mode((1600,900), FULLSCREEN, 16)
                        fullscreen = True
                elif (event.key == pygame.K_r):
                    if not recording:
                        record_packets = []
                        recording = True
                    else:
                        recording = False
                        recordings.append(list(record_packets))
                        record_packets = None
        packetsInQueue = 0
        try:
            while packetsInQueue < 8:
                packet = emotiv.dequeue()
                if abs(packet.gyroX) > 1:
                    curX = max(0, min(curX, 1600))
                    curX -= packet.gyroX
                if abs(packet.gyroY) > 1:
                    curY += packet.gyroY
                    curY = max(0, min(curY, 900))
                map(lambda x: x.update(packet), graphers)
                if recording:
                    record_packets.append(packet)
                updated = True
                packetsInQueue += 1
        except Exception, e:
            print e

        if updated:
            screen.fill((75, 75, 75))
            map(lambda x: x.draw(), graphers)
            pygame.draw.rect(screen, (255, 255, 255), (curX - 5, curY - 5, 10, 10), 0)
            pygame.display.flip()
            updated = False
        gevent.sleep(0)
Esempio n. 16
0
        updated = False
        for packet in emotiv.dequeue():
            updated = True
            if abs(packet.gyroX) > 1:
                curX -= packet.gyroX - 1
            if abs(packet.gyroY) > 1:
                curY += packet.gyroY
            curX = max(0, min(curX, width))
            curY = max(0, min(curY, height))

        if updated:
            screen.move_mouse(curX, curY)
        time.sleep(1.0 / 60)


emotiv = None

try:
    logger = logging.getLogger('emotiv')
    logger.setLevel(logging.INFO)
    log_handler = logging.StreamHandler()
    logger.addHandler(log_handler)

    emotiv = Emotiv()

    main(*sys.argv[1:])

finally:
    if emotiv:
        emotiv.close()
Esempio n. 17
0
    return string.join(current_string,"")

if __name__ == "__main__":
    
    folder      = os.path.dirname(os.path.abspath(__file__))+'\\data\\'
    name 		= ""
    filename    = datetime.now().strftime('%H%M%S') + "_" + name + "_" + str(maxtime) + ".csv"
    output      = 0           
                    
    FreqFlicker = 10
    t = 1        # panjang waktu sinyal reference (sekond)
    fs = 128     # frekuensi sampling

    #pygame.time.set_timer(USEREVENT + 1,6000) # Timer Interrupt

    headset = Emotiv()
    gevent.spawn(headset.setup)
    gevent.sleep(0)

    for val in avail_state :
        rect    = Rectangle(env.getRectFreq(val), (env.getRectPos(val)[0],env.getRectPos(val)[1]), env.getRectIMG(val), val)
        rect.start()

    background = Background()                 # menjalankan init() Class Background 
    background.start()
    rectangle2 = Rectangle2(10)                 # menjalankan init() Class Background 
    rectangle2.start()

    winsinc,Ref,t1,t2 = getdata(t,fs)                # Pengondisian Sinyal data
    winsinc2 = bool(max(winsinc))
    # print winsinc
Esempio n. 18
0
    def emotiv(self):
        headset = Emotiv()
        gevent.spawn(headset.setup)
        print("Serial Number: %s" % headset.serial_number)

        self.num_blocks = len(self.content)
        cont_block = 0
        cont_seconds = 0
        temp_t = 0
        tag = self.content[0][1]
        #Se define el escritor de las lecturas en el archivo CSV
        writer = csv.writer(open(self.filename, 'w'),
                            delimiter=',',
                            quotechar='"',
                            lineterminator='\n')
        row = ["Image/Color"]
        row.append("Time")
        row.append("Exact Time")
        for sensor in self.sensors:
            row.append(sensor)
            row.append(sensor + "_Quality")
        row.append("Emotion")
        row.append("Selected Emotion")
        writer.writerow(row)
        try:
            t0 = time.time()
            tnow = time.time()
            while True:
                t = int(time.time() - t0)
                if temp_t != t:
                    cont_seconds += 1

                if cont_seconds > self.time_block:
                    cont_seconds = 0
                    cont_block += 1
                    if cont_block == self.num_blocks:
                        headset.close()
                        break
                    else:
                        tag = self.content[cont_block][1]
                        #display images
                        if cont_block >= self.contColors:
                            self.time_block = 5
                            self.panel1.configure(
                                image=self.images[cont_block -
                                                  self.contColors])
                            print "Display: " + str(cont_block -
                                                    self.contColors)
                            self.display = self.images[cont_block -
                                                       self.contColors]
                            self.panel1.pack(side=tk.TOP,
                                             fill=tk.BOTH,
                                             expand=tk.YES)
                        else:
                            color = Color(self.content[cont_block - 1][0])
                            colors = list(
                                color.range_to(
                                    Color(self.content[cont_block][0]),
                                    self.difColorSize))
                            now = time.time()
                            for color in colors:
                                self.root.configure(background=color)
                            #self.root.configure(background=self.content[cont_block][0])

                row = [self.content[cont_block][0]]
                row.append(str(t))
                row.append(time.time())
                try:
                    for sensor in self.sensors:
                        row.append(str(headset.sensors[sensor]['value']))
                        row.append(str(headset.sensors[sensor]['quality']))
                except:
                    print "Sensor incorrecto"
                    headset.close()
                row.append(tag)
                row.append(self.selectedEmotion)
                if self.selectedEmotion != '':
                    self.selectedEmotion = ''
                # Se exporta a csv
                writer.writerow(row)
                #print row
                temp_t = t
                gevent.sleep(0)
        except KeyboardInterrupt:
            headset.close()
        finally:
            headset.close()
Esempio n. 19
0
                curY += packet.gyroY
            curX = max(0, min(curX, 800))
            curY = max(0, min(curY, 600))
            map(lambda x: x.update(packet), graphers)

        if updated:
            screen.fill((75, 75, 75))
            map(lambda x: x.draw(), graphers)
            pygame.draw.rect(screen, (255, 255, 255),
                             (curX - 5, curY - 5, 10, 10), 0)
            pygame.display.flip()
        time.sleep(1.0 / 60)


emotiv = None

try:
    logger = logging.getLogger('emotiv')
    logger.setLevel(logging.INFO)
    log_handler = logging.StreamHandler()
    logger.addHandler(log_handler)

    emotiv = Emotiv()

    gheight = 600 / 14
    hgheight = gheight >> 1

    main(*sys.argv[1:])
finally:
    pass