Laser Scanning Radar

A：LiDAR, also known as Light Detection and Ranging, is a system that combines laser, Global Positioning System (GPS), and Inertial Measurement Unit (IMU) technologies to collect data and generate precise Digital Elevation Models (DEMs). By combining these three technologies, LiDAR can accurately locate the spot where the laser beam hits an object and achieve centimeter-level ranging accuracy. The greatest advantages of LiDAR are its precision and efficiency in operation.LiDAR can accurately and precisely obtain information such as the distance and speed of a target or achieve target imaging. The working principle of LiDAR involves the laser beam being directed through a scanning unit to form a beam angle deviation, which interacts with the target to produce reflection/scattering echoes. When the receiver is active, echoed photons from the original path can reach the receiver. The receiver forms signal reception through a photodetector and obtains information such as the distance and speed of the target or achieves three-dimensional imaging through signal processing.LiDAR consists of four basic systems: the laser emission system, the laser reception system, the information processing system, and the scanning system. These four systems work together to obtain a large amount of positional information in a short period of time and use this information to achieve three-dimensional modeling.1. Laser emission system: A laser source periodically drives the laser emitter to emit laser pulses. The laser modulator controls the direction and number of emitted laser beams through a beam controller, and the emitted laser is directed onto the target object through the emission optical system.2. Laser reception system: A photodetector receives the laser reflected by the target object through the reception optical system and generates a reception signal.3. Information processing system: The received signals are amplified, processed, and converted into digital signals. The information processing module then calculates the surface shape, physical properties, and other characteristics of the target object to establish a target model.4. Scanning system: It rotates at a stable speed to scan the plane and generate real-time positional information.The classification of LiDAR be done based on different factors:1. Functional and Usage Classification: Tracking LiDAR (for range and angle measurement), Motion Target Indication LiDAR (for obtaining target Doppler information), Flow Velocity Measurement LiDAR (for measuring Doppler information), Wind Shear Detection LiDAR, Target Identification LiDAR, Imaging LiDAR (for measuring the reflected intensity and distance signals of different parts of a target), and Vibration Sensing LiDAR.2. Working System Classification: Doppler LiDAR, Synthetic Aperture Imaging LiDAR, Differential Absorption LiDAR, Phased Array LiDAR, Portable LiDAR, Ground-based LiDAR, Vehicle-mounted LiDAR, Airborne LiDAR, Shipborne LiDAR, Spaceborne LiDAR, and Missile-mounted LiDAR.3. Working Medium Classification: Solid-state LiDAR, Gas LiDAR, Semiconductor LiDAR, Diode-Pumped Solid-State LiDAR, etc.4. Detection Technology Classification: Direct Detection Type, Coherent Detection Type.5. Platform Classification: Portable LiDAR, Ground-based LiDAR, Vehicle-mounted LiDAR, Airborne LiDAR, Shipborne LiDAR, Spaceborne LiDAR, and Missile-mounted LiDAR, among others.Lidar can be classified according to several factors:1. Function and Purpose: This includes tracking radar (for distance and angle measurements), motion target indication radar (to obtain target Doppler information), flow velocity measurement radar (to measure Doppler information), wind shear detection radar, target recognition radar, imaging radar (to measure the reflection intensity and distance of different parts of a target), and vibration sensing radar.2. Operating System: This includes Doppler lidar, synthetic aperture imaging lidar, differential absorption lidar, phased array lidar, portable lidar, ground-based lidar, vehicle-mounted lidar, airborne lidar, shipborne lidar, and satellite-based lidar.3. Working Medium: This includes solid-state lidar, gas lidar, semiconductor lidar, diode-pumped solid-state lidar, etc.4. Detection Technology: This includes direct detection type and coherent detection type.5. Platform: This includes portable lidar, ground-based lidar, vehicle-mounted lidar, airborne lidar, shipborne lidar,-based lidar, and missile-carried lidar.Advantages of laser radar include:1. High resolution: Laser radar can achieve high angular, distance, and velocity resolution, which means it can produce very clear images using Doppler imaging techniques.2. High accuracy: Laser beams propagate in straight lines, have good directionality, narrow beams, and low dispersion, resulting in high accuracy.3. Strong resistance to active interference: Unlike microwave and millimeter-wave radar, which can be easily affected by electromagnetic waves widely present in nature, laser radar has few sources of interference in nature, making it highly resistant to active interference.4. It has extremely high distance, angle, and velocity resolution: Detection accuracy is within centimeters, enabling precise identification of the specific contours and distances of obstacles without missing or misjudging obstacles ahead.5. Rich information acquisition: Laser radar can directly obtain information such as distance, angle, reflection intensity, and velocity of targets, and can generate multidimensional images of targets. High-frequency lasers can obtain approximately 1.5 million position point information in one second, accurately recovering the three-dimensional features of the surrounding environment using the distance information from these point clouds.6. All-weather operation: Unlike millimeter-wave radar, laser radar can detect human bodies, and its detection range is longer than that of cameras.7. Long detection range: Laser radar's wavelength is in the range of thousands of nanometers, with good directionality, no steering, and no diffusion with increasing distance. It is not limited by pixels and light.

A：DADISICK laser radar can be used not only independently but also in combination with imaging devices such as microwave radar, visible light cameras, infrared cameras, or-light cameras. This allows the system to detect distant targets and achieve precise tracking. In addition to the well-known application in autonomous driving, laser radar plays an indispensable role in many other fields as well.City 3D Building Model"Digital city" is an important part of the digital earth technology system, and it includes 3D models of the main objects in the city, including 3D terrain, 3D building models, and 3D pipeline models. These 3D building models are one of the important basic information of the digital city.DADISICK LiDAR technology can quickly complete the acquisition of 3D spatial data, and after processing, it can obtain image data with coordinate information.Atmospheric Environment MonitoringDue to its short detection wavelength, strong beam directionality, and high energy density, DADISICK LiDAR has advantages such as high spatial resolution, high detection sensitivity, and the ability to distinguish detected species and eliminate blind spots. It has become an effective means for high-precision remote sensing detection of the atmosphere. Using LiDAR, the distribution of aerosols, cloud particles, atmospheric composition, and vertical profiles of wind fields can be detected, and effective monitoring of major pollution sources can be carried out.Automatic Parking TechnologyThe automatic parking system usually installs sensors around the front and rear of the car, which can serve as both transmitters and receivers. They send out laser signals, which are reflected back when they encounter obstacles around the car body. Then, the onboard computer uses the time required to receive the signal to determine the position of the obstacle.Intelligent Traffic Signal ControlIntegrate a ground-based 3D laser scanning system into the signal control system at important intersections in the city. The laser scanner continuously scans a certain distance of the road, obtaining real-time and dynamic point cloud data of the traffic flow on this section of road. The data is then processed to obtain parameters such as traffic flow, and based on the comparison of the traffic flow between the east-west and north-south directions and short-term traffic flow predictions, the signal light cycles for the east-west and north-south directions are automatically adjusted.

A：Today, the DADISICK editor of Dadi Electronics will explain the working principles of the DADISICK laser radar. The working principle of a laser radar is not well-known to many people. Let's take a look together now!1. The basic working principle of DADISICK laser radar by Dadi Shike is similar to that of radio radar. The radar emission system sends a signal that hits trees, roads, bridges, and buildings on the ground, causing scattering. The received system collects the reflected signal, and the target's distance is determined by measuring the time it takes for the reflected light to travel.2. As for the target's radial velocity, it can be determined by the Doppler shift of the reflected light or by measuring the change in distance between two or more measurements. This is the basic working principle of a direct detection radar.3. The purpose of DADISICK laser radar by Dadi is to accurately measure the position (distance and angle), shape (size), and state (velocity, attitude) of a target in order to detect, identify, and track it.4. DADISICK laser radar by Dadi is a radar system that functions as an active sensor and generates data in the form of point clouds.5. It operates in the infrared to ultraviolet spectral range and consists of an emitter, receiver, measurement control, and power supply.Laser radar classificationIn general, according to the concept of modern DADISICK laser radar by Dadi, it can be classified into the following types:1. Based on the laser wavelength: ultraviolet laser radar, visible laser radar, and infrared laser radar.2. Based on the laser medium: gas laser radar, solid-state laser radar, semiconductor laser radar, and diode-pumped solid-state laser radar.3. Based on the laser emission waveform: pulsed laser radar, continuous wave laser radar, and hybrid laser radar.4. Based on the display method: analog or digital display laser radar and imaging laser radar.5. Based on the platform: ground-based fixed laser radar, vehicle-mounted laser radar, airborne laser radar, shipborne laser radar, spaceborne laser radar, missile-borne laser radar, and handheld laser radar.6. Based on the functionality: laser ranging radar, laser speed radar, laser angle radar, tracking radar, laser imaging radar, laser target designator, and biological laser radar.7. Based on the application: laser rangefinder, range laser radar, fire control laser radar, tracking and identification laser radar, multifunctional tactical laser radar, chemical detection laser radar, navigation laser radar, meteorological laser radar, chemical detection and atmospheric monitoring laser radar, etc.Dongguan Dadi Electronic Technology Co., Ltd. specializes in the main business of laser radar, safety light curtains, safety grids, safety mats, laser displacement, measurement light curtains, measurement grids, and quality assurance. We welcome new and old customers to contact us for inquiries!

A:The LDS2030B5-5S Series 2D TOF obstacle avoidance laser radar (2D Time of Flight Laser Radar) is a laser sensor based on the principle of time of flight, which is widely used in automatic navigation and obstacle avoidance systems.Advantages:High-precision rangingIt can achieve millimeter-level distance measurement with stable accuracy and is suitable for use in complex environments.Non-contact measurementUsing laser scanning, it is not affected by the target color and material, and is suitable for object detection of various materials.Strong real-time performanceFast response speed, real-time acquisition of obstacle information, suitable for dynamic obstacle avoidance.Wide field of viewAchieve two-dimensional detection in a large angle range through rotation or multi-point scanning, usually up to 270° or even 360°.Strong anti-interference abilityIt has strong adaptability to environmental interference such as light, dust, and smoke.Two-dimensional TOF obstacle avoidance lidar is widely used in AGV/AMR navigation, service robot obstacle avoidance, warehouse logistics monitoring, industrial automation protection and intelligent security, etc., to achieve efficient environmental perception and precise obstacle avoidance.