print " interpolation: ", interpol_values print " current sample: ", sample.channel_data # send to clients interpolated sample #leftover_duplications = 0 server.broadcast_values(interpol_values) nb_samples_out = nb_samples_out + 1 # send to clients current sample server.broadcast_values(sample.channel_data) nb_samples_out = nb_samples_out + 1 # save current values for possible interpolation last_values = list(sample.channel_data) if __name__ == '__main__': # init server #server = streamer_tcp_server.StreamerTCPServer(ip=SERVER_IP, port=SERVER_PORT, nb_channels=NB_CHANNELS) server = streamer_tcp_server.StreamerTCPServer(ip=SERVER_IP, port=SERVER_PORT) # init board #port = '/dev/ttyUSB1' port = 'COM7' baud = 115200 monit = Monitor() # daemonize theard to terminate it altogether with the main when time will come monit.daemon = True monit.start() board = bci.OpenBCIBoard(port=port, baud=baud, filter_data=False) board.startStreaming(streamData)
print " last values: ", last_values print " interpolation: ", interpol_values print " current sample: ", sample.channel_data # send to clients interpolated sample #leftover_duplications = 0 server.broadcast_values(interpol_values) nb_samples_out = nb_samples_out + 1 # send to clients current sample server.broadcast_values(sample.channel_data) nb_samples_out = nb_samples_out + 1 # save current values for possible interpolation last_values = list(sample.channel_data) if __name__ == '__main__': # init server server = streamer_tcp_server.StreamerTCPServer(ip=SERVER_IP, port=SERVER_PORT, nb_channels=NB_CHANNELS) # init board port = '/dev/ttyUSB0' baud = 115200 monit = Monitor() # daemonize theard to terminate it altogether with the main when time will come monit.daemon = True monit.start() board = bci.OpenBCIBoard(port=port, baud=baud, filter_data=False) board.startStreaming(streamData)