It depends on your objective applications. Vehicle speed , distance, landscsape/golf distance, UAV, Robotic distance.
Consider all technologies and compare speed (BW), range and price.
LIDAR can also be used for AR like Apple's building in the visitor centre using an iPAD.
LiDAR (Light Detection and Ranging) technology can indeed be used for Augmented Reality (AR) applications. LiDAR sensors are capable of measuring distances by emitting laser pulses and measuring the time it takes for the light to bounce back after hitting objects in the environment. This information is then used to create a detailed 3D map or point cloud of the surroundings.
Do a search/survey then decide.
There's a lot of new smartphone camera technology floating about, but what is ToF and LiDAR, and how do they differ?
I asked CHatGPT
define future profitable uses ofLIDAR
LiDAR technology is expected to have a wide range of future profitable uses across various industries. Some potential applications include:
- Autonomous Vehicles: LiDAR is already a critical component in the development of self-driving cars. It provides precise and real-time 3D mapping of the vehicle's surroundings, enabling accurate object detection, obstacle avoidance, and path planning. As the autonomous vehicle market expands, the demand for high-quality LiDAR systems is likely to increase.
- Robotics and Drones: LiDAR can enhance the capabilities of robots and drones by providing detailed 3D mapping, obstacle detection, and navigation assistance. Industries such as agriculture, construction, and inspection services can benefit from autonomous robots and drones equipped with LiDAR, allowing for more efficient and precise operations.
- Smart City Planning: LiDAR can be used to create detailed 3D models of urban environments, aiding in city planning, infrastructure development, and traffic management. It can provide accurate data on terrain, buildings, and road networks, assisting in the design and optimization of transportation systems and urban landscapes.
- Environmental Monitoring: LiDAR's ability to generate precise 3D maps can be utilized for environmental monitoring and conservation efforts. It can help measure forest biomass, monitor coastal erosion, detect changes in land cover, and assess the impact of natural disasters. This information is valuable for ecological studies, land management, and disaster response planning.
- Virtual and Augmented Reality: As mentioned earlier, LiDAR can enhance AR experiences by enabling accurate object placement and interaction with the real world. It can also facilitate the creation of more immersive virtual reality (VR) environments by capturing detailed 3D representations of physical spaces, leading to realistic simulations and training scenarios.
- Industrial Applications: LiDAR can improve efficiency and safety in industrial settings. For example, it can be used for automated inventory management in warehouses, where it enables precise measurement and tracking of stock levels. LiDAR can also assist in quality control, by performing detailed inspections and measurements in manufacturing processes.
- Civil Engineering and Construction: LiDAR technology can aid in surveying, site planning, and monitoring of construction projects. It allows for accurate measurement of land contours, volume calculations, and progress tracking. LiDAR data can also assist in detecting structural deformations, ensuring safety and quality control in infrastructure projects.
These are just a few examples, and the potential applications of LiDAR are continually expanding as the technology evolves. As costs decrease and performance improves, we can expect to see further profitable uses in sectors such as logistics, gaming, archaeology, and more.
Regenerate response
I wish Toronto traffic lights were controlled by LIDAR to reduce the horrible delays with no trraffic moving and long lineups waiting. But you'd have to make it cost-effective. whatever that means