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Act On Reliable Measurement Data Instead Of Hunches


Image CaptionJun PeiForbes Councils Member

 

Forbes Technology CouncilCOUNCIL POST| Membership (fee-based)

Aug 18, 2022,06:30am EDT

Jun Pei is the co-founder and CEO of Cepton, a world-leading lidar solution provider for automotive and smart infrastructure applications.





          The New York Times and FX’s recent documentary, “Elon Musk’s Crash Course,” outlines how Tesla aggressively enables and markets autonomous driving functionalities while overlooking system reliability and consumer safety for its Autopilot system.                    

Consumers may not fully understand the state of autonomous driving, and they may believe the technology is more advanced than it currently is. Tesla Autopilot has received significant attention, for example, but the functionality offered can be described as Level 2 advanced driver assistance systems (ADAS), where the driver still needs to pay attention while driving.

While fully autonomous or self-driving vehicles are, in my opinion, at least a decade away, there are other technologies going into our cars today that are worthy of discussion, too.

        History Of Collisions

Over the past year alone, Tesla vehicles set to Autopilot have been reportedly involved in 273 crashes, making up 70% of the crashes involving ADAS since last July.

We have known for years that cars relying solely on cameras or a combination of cameras, radar and software to detect oncoming objects are not yet reliable enough. Cameras are only 2D and are easily affected by lighting conditions, which adds a layer of uncertainty to their data. While software or AI can extract more useful information from camera data, they are currently far from reliable and simply cannot make up for the data that is not collected in the first place.

According to the American Automobile Association (AAA), vehicles with current ADAS technologies still failed to consistently avoid crashes. That shows how much is yet to be done to ensure vehicle safety.Diverse Sensor Suite For Safety.

       I have devoted my life to developing one such safety technology, lidar, which can work in conjunction with camera and radar to create a 3D picture of what is ahead of a car.

Lidar is a technology that scans the environment around the vehicle by sending out beams of invisible light pulses in multiple directions. The pulses collide with surrounding objects and bounce back to the receiver. Because the speed of light is constant, lidar systems create highly accurate 3D images called “point clouds,” which provide the vehicle with a constant awareness of what is happening around it, so it can react and inform drivers accordingly.

I am a firm believer that 3D perception using different modalities such as camera, radar and lidar to complement each other (just like our three senses—eyes, ears and nose) is required to correctly assess the road ahead and the obstacles on it. I believe this powerful sensor suite will be a part of every car in the future. Adding lidar to the sensor suite will effectively enhance safety because lidar has higher spatial resolutions than radar, and it works quickly to constantly generate 3D data, including the size, speed and location of a car’s surroundings even at night and in bad weather when cameras have trouble detecting.

Several lidar companies—including Luminar, Innoviz and the company I founded, Cepton—have partnered with car manufacturers to deploy lidar in the years ahead. Through this collaboration, we expect lidar to be deployed in multiple vehicle models, not just the luxury class, to benefit more consumers.

                                   

              

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Act On Reliable Measurement Data Instead Of Hunches


Image CaptionJun PeiForbes Councils Member

 

Forbes Technology CouncilCOUNCIL POST| Membership (fee-based)

Aug 18, 2022,06:30am EDT

Jun Pei is the co-founder and CEO of Cepton, a world-leading lidar solution provider for automotive and smart infrastructure applications.





          The New York Times and FX’s recent documentary, “Elon Musk’s Crash Course,” outlines how Tesla aggressively enables and markets autonomous driving functionalities while overlooking system reliability and consumer safety for its Autopilot system.                    

Consumers may not fully understand the state of autonomous driving, and they may believe the technology is more advanced than it currently is. Tesla Autopilot has received significant attention, for example, but the functionality offered can be described as Level 2 advanced driver assistance systems (ADAS), where the driver still needs to pay attention while driving.

While fully autonomous or self-driving vehicles are, in my opinion, at least a decade away, there are other technologies going into our cars today that are worthy of discussion, too.

        History Of Collisions

Over the past year alone, Tesla vehicles set to Autopilot have been reportedly involved in 273 crashes, making up 70% of the crashes involving ADAS since last July.

We have known for years that cars relying solely on cameras or a combination of cameras, radar and software to detect oncoming objects are not yet reliable enough. Cameras are only 2D and are easily affected by lighting conditions, which adds a layer of uncertainty to their data. While software or AI can extract more useful information from camera data, they are currently far from reliable and simply cannot make up for the data that is not collected in the first place.

According to the American Automobile Association (AAA), vehicles with current ADAS technologies still failed to consistently avoid crashes. That shows how much is yet to be done to ensure vehicle safety.Diverse Sensor Suite For Safety.

       I have devoted my life to developing one such safety technology, lidar, which can work in conjunction with camera and radar to create a 3D picture of what is ahead of a car.

Lidar is a technology that scans the environment around the vehicle by sending out beams of invisible light pulses in multiple directions. The pulses collide with surrounding objects and bounce back to the receiver. Because the speed of light is constant, lidar systems create highly accurate 3D images called “point clouds,” which provide the vehicle with a constant awareness of what is happening around it, so it can react and inform drivers accordingly.

I am a firm believer that 3D perception using different modalities such as camera, radar and lidar to complement each other (just like our three senses—eyes, ears and nose) is required to correctly assess the road ahead and the obstacles on it. I believe this powerful sensor suite will be a part of every car in the future. Adding lidar to the sensor suite will effectively enhance safety because lidar has higher spatial resolutions than radar, and it works quickly to constantly generate 3D data, including the size, speed and location of a car’s surroundings even at night and in bad weather when cameras have trouble detecting.

Several lidar companies—including Luminar, Innoviz and the company I founded, Cepton—have partnered with car manufacturers to deploy lidar in the years ahead. Through this collaboration, we expect lidar to be deployed in multiple vehicle models, not just the luxury class, to benefit more consumers.

                                   

              

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Article WritingAutomotive EngineeringFact CheckingInformation TechnologyIT Infrastructure DesignNews WritingNewspaperSafety Engineering

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