Recording, Streaming, and Conversion
Recording Sensor Data
It’s easy to record data to a pcap file from a sensor programmatically. Let’s try it on a configured sensor:
$ python3 -m ouster.sdk.examples.client $SENSOR_HOSTNAME record-pcap
PS > py -3 -m ouster.sdk.examples.client $SENSOR_HOSTNAME record-pcap
This will capture the client.LidarPacket
’s and client.ImuPacket
’s data for 10
seconds and store the pcap file along with the metadata json file into the current directory.
The source code of an example below:
1from more_itertools import time_limited
2# connect to sensor and record lidar/imu packets
3with closing(client.Sensor(hostname, lidar_port, imu_port,
4 buf_size=640)) as source:
5
6 # make a descriptive filename for metadata/pcap files
7 time_part = datetime.now().strftime("%Y%m%d_%H%M%S")
8 meta = source.metadata
9 fname_base = f"{meta.prod_line}_{meta.sn}_{meta.config.lidar_mode}_{time_part}"
10
11 print(f"Saving sensor metadata to: {fname_base}.json")
12 source.write_metadata(f"{fname_base}.json")
13
14 print(f"Writing to: {fname_base}.pcap (Ctrl-C to stop early)")
15 source_it = time_limited(n_seconds, source)
16 n_packets = pcap.record(source_it, f"{fname_base}.pcap")
17
18 print(f"Captured {n_packets} packets")
Good! The resulting pcap and json files can be used with any examples in the examples.pcap
module.
Streaming Live Data
Instead of working with a recorded dataset or a few captured frames of data, let’s see if we can get a live feed from your configured sensor:
$ python3 -m ouster.sdk.examples.client $SENSOR_HOSTNAME live-plot-reflectivity
PS > py -3 -m ouster.sdk.examples.client $SENSOR_HOSTNAME live-plot-reflectivity
This should give you a live feed from your sensor that looks like a black and white moving image. Try waving your hand or moving around to find yourself within the image!
So how did we do that?
1# establish sensor connection
2with closing(client.Scans.stream(hostname, lidar_port,
3 complete=False)) as stream:
4 show = True
5 while show:
6 for scan in stream:
7 # uncomment if you'd like to see frame id printed
8 # print("frame id: {} ".format(scan.frame_id))
9 reflectivity = client.destagger(stream.metadata,
10 scan.field(client.ChanField.REFLECTIVITY))
11 reflectivity = (reflectivity / np.max(reflectivity) * 255).astype(np.uint8)
12 cv2.imshow("scaled reflectivity", reflectivity)
13 key = cv2.waitKey(1) & 0xFF
Notice that instead of taking a sample
, we used Scans.stream()
, which allows for a
continuous live data stream. We close the stream
when we are finished, hence the use of
closing()
in the highlighted line.
To exit the visualization, you can use ESC
.