What is LiDAR?

LiDAR is a remote detection and ranging method that works much like radar, emitting infrared light pulses instead of radio waves and measuring how long they take to come back after hitting nearby objects. The time between the output laser pulse and the reflected pulse allows the LiDAR sensor to calculate the distance to each object precisely, based on the speed of light. LiDAR captures millions of such precise distance measurement points each second, from which a 3D matrix of its environment can be produced. Information on objects’ position, shape, and behavior can be obtained from this comprehensive mapping of the environment.

LiDAR for Automotive and Mobility Applications

Vehicles of all types use LiDAR to determine which obstacles are nearby and how far away they are. The 3D maps provided by LiDAR components not only to detect and position objects but also identify what they are. Insights uncovered by LiDAR also help a vehicle’s computer system to predict how objects will behave, and adjust the vehicle’s driving accordingly.

Semi- and fully-autonomous vehicles use a combination of sensor technologies. This sensor suite includes Radar, which provides constant distance and velocity measurements as well as superior all-weather performance, but lacks in resolution, and struggles with the mapping of finer details at longer ranges. Camera vision, also commonly used in automotive and mobility applications, provides high-resolution information in 2D. However, there is a strong dependency on powerful Artificial Intelligence and corresponding software to translate captured data into 3D interpretations. Environmental and lighting conditions may significantly impact camera vision technology.

LiDAR, in contrast, offers precise 3D measurement data over short to long ranges, even in challenging weather and lighting conditions. This technology can be combined with other sensory data to provide a more reliable representation of both static and moving objects in the vehicle’s environment.

Hence, LiDAR technology has become a highly accessible solution to enable obstacle detection, avoidance, and safe navigation through various environments in a variety of vehicles. Today, LiDARs are used in many critical automotive and mobility applications, including Advanced Driver Assistance Systems and Autonomous driving.

The Market Opportunity for LiDAR

With its unique ability to provide reliable detection and ranging over short to long distances, LiDAR technology is used in multiple industries and applications. Autonomous driving requires LiDAR to complement and complete the existing automotive sensor suite (i.e., Camera vision, Radar, and Ultrasonic technologies), creating a new, fast-growing opportunity for the proliferation of LiDAR with strong demand and large volumes.

According to Wallstreet and market research firms, it is estimated that US$ 130 billion will be invested in R&D for autonomous-driving (AD) technologies, between 2015 and 2025, driving the automotive LiDAR market to close to 40 million units annually by 2026. AD now represents the most significant investment segment in new automotive technologies, ahead of electrification and remote connectivity.

The mass-market deployment of fully autonomous (SAE Level 4 and Level 5 autonomy) vehicles is a long-term goal that will require the integration of LiDAR technology. For the next decade, however, passenger cars within the Level 2+ and Level 3 automation categories (ADAS and semi-autonomous driving) are expected to be the most deployed commercially, and will most likely represent the most substantial opportunity for automotive LiDARs.

About Leddar Technology

What Is Leddar™ Technology?

Leddar™ is LeddarTech’s proprietary LiDAR technology. Leddar provides advanced LiDAR signal acquisition and processing to deliver significant, distinct cost and performance advantages to the automotive and mobility market. It is light signal digitization and signal processing technology that expands the sampling rate and time resolution, recovers distance, reflectivity, and quality information of objects. Leddar provides reliable detection and ranging through mitigation of interference, environmental conditions, and other limiting conditions intrinsic to LiDAR sensors.

Leddar technology is at the core of our LiDAR Platform and is covered by more than 70 patents (granted or pending). The technology stems from more than a decade of Research & Development work, led by leading engineers and scientists in the field. It has been validated and optimized through various commercial deployments and 24/7 operation in challenging outdoor environments.

Optimized, Customized, and Scalable

Reducing the costs of LiDARs to meet commercial deployment requirements without compromising on the performance delivered is a challenge. In essence, the choice of technology and components used often have a direct impact on LiDAR sensor performance. Furthermore, increasing the light output power of a specific LiDAR design to increase the effective range generally comes with a higher price tag.

There is quite a bit that can be done to optimize LiDAR performance from a software perspective. More sensitivity and range can be achieved through highly efficient digital signal-processing algorithms, enabling leading LiDAR providers to reduce the overall cost of their solutions or enhance the performance of a given design.

Leddar Technology brings significant innovation and new possibilities for LiDAR through software. It also means Leddar is unattached to a specific mechanical design or optical technology, making Leddar a key enabler for any time-of-flight LiDAR. Therefore, Leddar is the technology of choice to enhance the performance-to-cost ratio of various LIDAR designs today serving the auto and mobility markets.