def telemetry(): iot_hub = IoTHub(os.environ['IOT_HUB_NAME'], os.environ['IOT_HUB_OWNER_KEY']) assets = table_service.query_entities('equipment') devices = iot_hub.get_device_list() devices.sort(key=lambda x: x.deviceId) return render_template('telemetry.html', assets=devices)
def telemetry(): iot_hub = IoTHub(os.environ['IOT_HUB_NAME'], os.environ['IOT_HUB_OWNER_KEY']) devices = iot_hub.get_device_list() devices.sort(key = lambda x: x.deviceId) return render_template('telemetry.html', assets = devices)
state['ambient_temperature'], 'ambientPressure': state['ambient_pressure'] }) time_elapsed = time.time() - interval_start # print('Cadence: {0}'.format(time_elapsed)) time.sleep(max(1 - time_elapsed, 0)) if __name__ == '__main__': iot_hub = IoTHub(IOT_HUB_NAME, IOT_HUB_OWNER_KEY) iot_device_count = 10 devices = iot_hub.get_device_list() if len(devices) == 0: devices = [] for i in range(iot_device_count): device_id = 'MACHINE-{0:03d}'.format(i) device = iot_hub.create_device(device_id) devices.append(device) healthy_spectral_profile = { 'W': [1, 2, 3, 4, 5, 12, 15], 'A': [5, 8, 2 / 3, 9, 8, 13, 5] } rotor_imbalance_speactral_profile = { 'W': [1 / 2, 1, 2, 3, 5, 7, 12, 18],