Lidar Processing Overview
Lidar is an acronym for light detection and ranging. It is an active sensing system that can be used for perception, navigation, and mapping of advanced driving assistance systems (ADAS), robots, and unmanned aerial vehicles (UAVs).
Lidar is an active remote sensing system. In an active system, the sensor generates energy by itself. Lidar sensors emit laser pulses that reflect off of objects, allowing them to perceive the structure of their surroundings. The sensors record the reflected light energy, to determine the distances to objects. The distance computation is based on the time of flight (TOF) principle. Lidar sensors are comparable to radar sensors, which emit radio waves.
Most modern autonomous or semi-autonomous vehicles are equipped with sensor suites that contain multiple sensors like a camera, IMU, and radar. Lidar sensors can resolve the drawbacks of some of these other sensors. Radar sensors can provide constant distance and velocity measurements, but the results lack resolution, and they have trouble with reflected energy and precision at longer ranges. Camera sensors can be significantly affected by environmental and lighting conditions. Lidar sensors address these issues by providing depth perception capabilities over long ranges, even in challenging weather and lighting conditions.
There are a wide variety of lidar sensors available in the industry, from companies such as Velodyne, Ouster, Quanergy, and Ibeo. These sensors generate lidar data in various formats. Lidar Toolbox™ currently supports reading data in the PLY, PCAP, PCD, LAS, LAZ, and Ibeo sensor formats. For more information, see I/O. For more information about streaming data from Velodyne® sensors, see Lidar Toolbox Supported Hardware.
A point cloud is the representation of output data from a lidar
sensor, similar to how an image is the representation of output data from a camera. It is a
large collection of points that describe a 3-D map of the environment around the sensor. You
can use a
pointCloud object to store point cloud data.
Lidar Toolbox provides basic processing for point clouds such as downsampling, median
filtering, aligning, transforming, and extracting features from point clouds. For more
information, see Preprocessing. Add link
to the org to unorg page after completion.
These are some of the major lidar processing applications:
Labeling point cloud data — Labeling objects in point clouds helps with organizing and analyzing the data. Labeled point clouds can be used to train object segmentation and detection models. To learn more about labeling, see Get Started with the Lidar Labeler.
Semantic segmentation — Semantic segmentation is the process of labeling specific regions of a point cloud as belonging to an object. The goal of the process is to associate each point in a point cloud with its corresponding class or label, such as car, truck, or vegetation in a driving scenario. It does not differentiate between multiple instances of objects from the same class. Semantic segmentation models can be used in autonomous driving applications to parse the environment of the vehicle. To learn more about the semantic segmentation workflow, see Lidar Point Cloud Semantic Segmentation Using SqueezeSegV2 Deep Learning Network.
Object detection and tracking — Object detection and tracking usually follows point cloud segmentation. Objects in a point cloud can be detected and represented using cuboid bounding boxes. Tracking is the process of identifying the detected objects in one frame of a point cloud sequence throughout the sequence of point clouds. For detailed information on the complete workflow of segmentation, detection, and tracking, see Detect, Classify, and Track Vehicles Using Lidar.
Lidar camera calibration — Due to the positional differences of the sensors in a sensor suite, the recorded data from each sensor is in a different coordinate system. Rotational and translational transformations are required to calibrate and fuse data from these sensors to each other. For more information, see What Is Lidar Camera Calibration?.