September 25, 2018 | Volume 14 Issue 36 |
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Chinese manufacturer RoboSense says that its new, high-performance solid-state LiDAR (light detection and ranging) system for autonomous driving is 1/400th the price of traditional 64-line LiDAR systems and has updated features not found in even higher priced systems. The $200 RS-IPLS Intelligent Perception LiDAR system (yup, the price really is two Benjamins) is designed for the mass production of vehicles. On price, that's a huge fall from the first under-$10,000 systems rolled out by Velodyne and Google's Waymo in just the last two years.
"LiDAR needs a self-revolution. The market needs a car-grade product that can be mass produced in the tens and hundreds of thousands. You have to guarantee low cost and provide high performance to ensure the safety of your vehicle," says Mark Qiu, RoboSense co-founder. "This has driven us to create a whole new sensor system technology based on the perfect extraction of environmental information and large-scale perception of the environment, with the constant capture of areas of interest, focusing on effective information."
The RS-IPLS features real-time data pre-processing and a "gaze" function similar to human eyes. The Robosense team has more than 10 years of algorithm development experience in this area. In early 2017, RoboSense became the first LiDAR vendor in the world to introduce the laser-aerodynamic environment-aware RS-LiDAR-Algorithms, combined with LiDAR hardware to provide a large number of partners with P-series LiDAR solutions based on different application scenarios.
The team's RS-IPLS system, based on high-performance MEMS solid-state LiDAR, outputs the highest resolution color point cloud data by merging the underlying hardware of 2D imagery with the unique RoboSense RS-LiDAR-Algorithm deep-learning sensing algorithm developed specifically for autonomous driving. The intelligent detection algorithm achieves target-level information that adjusts the Region of Interest (ROI) detection area in real time with no delay.
The system's RS-LiDAR-Gaze Technology works like this: When the system's field of view perceives a target of interest, it initiates a "gaze" processing mechanism that instantly locks the target for ROI processing, thus achieving the clearest and most stable environmental data. The LiDAR under-the-system architecture maintains a high degree of vigilance of the surrounding environment, constantly capturing the areas of interest while allowing the "gaze" to transfer efficient and high-quality feedback in the field of view.
The RoboSense RS-IPLS Intelligent Perception LiDAR system also provides richer three-dimensional spatial data information (X, Y, Z, R, G, B) in real time from the bottom layer, which reduces the time delay normally caused by external fusion. Data pre-processing is performed by the AI algorithm, with the area of interest repeatedly detected for farther detection distance (200 m) and more accurate perception results for autonomous driving, with reduced data processing stress to the central data processing unit.
The RoboSense RS-IPLS Intelligent Perception LiDAR System is based on the RoboSense solid-state LiDAR technology, the RS-LiDAR-M1Pre (introduced at CES 2018), which combines the RoboSenseRS-LCDF LiDAR and camera fusion technology, the RS-LCDF technology, RS-LiDAR-Algorithms, and RS-LiDAR-Gaze technology. The RoboSense RS-IPLS pioneered the fusion of MEMS solid-state LiDAR technology with LiDAR-Cam deep fusion technology, AI sensing algorithm, and intelligent detection technology. The combination of these four technologies allows the LiDAR system to go beyond the sensor level, linking the sensor layer and the sensing layer at the system level, so that autonomous vehicles have similar abilities to the human visual system.
Why traditional mechanical LiDAR solutions have become inadequate for autonomous driving
Over the past decade or so, the emergence of mechanical multi-line LiDAR has solved the problem of high-precision three-dimensional environment perception, and the autonomous driving industry has entered a period of growth. LiDAR helps autonomous vehicles keep the promise of safety for humans, propelling the rapid expansion of the autonomous driving industry, but at the same time, requiring more demands on LiDAR, such as low cost, the need for car-level production, high performance, and intelligence.
Traditional mechanical LiDAR is very expensive. The 64-line product currently being sold is officially priced at $80,000 -- more expensive than a brand new Tesla car. RoboSense's mass-production price for the RS-IPLS is only $200 -- with a several thousand or even tens of thousands faster response speed. Traditional mechanical LiDAR consists of multiple sets of transmitters, receivers, precision optics, micro-control motors, and other components, which are difficult to manufacture and require expensive materials. In addition, due to difficulty of integration and optics, mechanical LiDAR not only has a long production cycle and high production costs, but also has a difficult time meeting the stability and reliability requirements of standard vehicles. Because of these reasons, traditional mechanical LiDAR technology has become inadequate.
"The new RoboSense RS-IPLS MEMS based technology is intelligent, accurate, lower cost, and faster -- and is poised to take over the market," says Qiu.
RoboSense RS-IPLS Intelligent Perception LiDAR System technology features:
This product is not listed on the RoboSense (Suteng Innovation Technology Co.) site yet, but their contact info is available here. Other current RoboSense products include different types of hybrid solid-state LiDARs, as well as P-series hardware and software solutions for different scenarios of autonomous driving. At CES January 2018, RoboSense demonstrated its revolutionary LiDAR product with its own patents. Currently, RoboSense has entered into strategic partnerships with many top car companies, tier-one manufacturers, and technology companies with a global reach.
Source: RoboSense
Published September 2018