For Self-Driving Cars, the Hot New Technology Is… Radar

One of the hottest new technologies for next-generation auto-safety systems and planned “autonomous” vehicles has roots going back a century.

Yes, we’re talking about radar, the same technology that began as a curiosity in the early 20th century, helped Britain to repel the Luftwaffe in World War II, and has long enabled weather forecasting and allowed air-traffic controllers to keep our skies safe.

Today, radar is no longer just for aeroplanes and military installations. A number of new companies on both the hardware and software side are making radar an integral part of safety systems to detect cyclists and pedestrians.

The need for such technology is urgent: Pedestrian deaths in the U.S. have surged in the past few years, even as Americans logged fewer miles on the road. And increasing levels of autonomy in new vehicles that enable features like collision warning, automatic braking, and blind-spot detection—not to mention the driverless cars of the future—are entirely dependent on advanced sensory systems. Such systems are also essential for auto makers to meet their promises to incorporate automatic braking systems into all vehicles by 2022.

To reduce and prevent carnage on our roads, companies like Mobileye, a subsidiary of Intel, are working on chips bristling with tiny radar antennas. General Motors recently invested in Oculii, an all math-and-software startup that uses machine learning to shape the kinds of signals automotive radar systems use. The software company MathWorks is developing algorithms that can allow auto makers to integrate data from radar and other sensors into a trustworthy picture of the world around a vehicle.

For engineers who work on vehicle sensors, now is a time of rapid change, says Erez Dagan, executive vice president of products and strategy at Mobileye. Cameras used in automobiles continue to become higher resolution, and are able to sense a wider range of natural light than they used to. Lidar, which bounces lasers off surrounding objects to “see” the world in 3-D, is becoming less expensive than it used to be. (Lidar is common in robot taxi prototypes, such as those from Waymo, the Google sister company, GM’s Cruise and Amazon’s Zoox.)

Radar, which bounces radio waves off objects—the term was born as an acronym for “radio detection and ranging”—has been used on some first-generation safety systems in vehicles since the 1990s. Automotive radar systems have a number of advantages. They’re tough enough to survive years of jostling and temperature swings when mounted on cars. They’re much, much less expensive than lidar, good at instantaneously measuring the velocity of objects, and able to peer through the kinds of inclement weather, like fog and rain, that can foil both cameras and lidar systems. But they have until recently had one major drawback: They have only a fraction of the resolution of those other systems, which means in essence that the images they produce are much blurrier.

Oculii’s technology works by changing the shape—also known as the waveform—of the radar signal sent out by radar on cars. The physics are complicated, but by changing the nature of the radar signal depending on what sort of objects it’s bouncing off of, it can resolve objects whose shape would be impossible to “see” otherwise. The result, says Chief Executive Steven Hong, is that existing automotive radar sensors, which cost around $50 apiece, can generate three-dimensional images of a car’s surroundings with a much higher resolution. The company’s software is set to make its debut in radar-based safety systems in the forthcoming Lotus Lambda SUV, to be released in 2023.

Leveraging the chip manufacturing abilities of parent company Intel, Mobileye is working on individual microchips covered with nearly 100 tiny antennas. By using artificial intelligence software to process the noisy signals they receive, Mobileye says its systems can do things like identify pedestrians, at least in the lab. That’s something that previously could only be achieved with cameras and lidar.

There is no unanimity among automobile technologists about what configuration of cameras, lidar and radar will become the standard way to achieve various safety systems or autonomous driving, but nearly all agree that the best solution will be some combination of them.

The resolution that even the best automotive radar can achieve is only as good as the worst lidar systems available, says Matthew Weed, an engineer and senior director of product management at Luminar, which makes lidar systems for automobiles. Luminar’s system, which Mr. Weed says is superior to radar for most applications, costs $1,000, however.

Mr. Weed says that Luminar’s lidar-based systems could justify their cost by being so good that they could lower drivers’ insurance costs by preventing accidents and pedestrian deaths. Even with such a system on a car, radar would be a good backup for when it fails or can’t handle severe weather, he adds.

Mobileye uses lidar, cameras and radar in its most advanced systems. CEO Amnon Shashua has said that while lidar systems have come down in price, they are still 10 times the cost of radar, and likely to remain so for the foreseeable future, on account of the complexity of the hardware involved.

Elon Musk’s Tesla has gone all-in on its bet that the company can achieve true autonomous driving in its vehicles using only cameras.

Cameras have the advantage of extremely high resolution, and they’re affordable and compact thanks to years of advances in smartphone cameras. But for a system that can achieve the highest safety standards, and even eventually full autonomy, cameras need backup sensors that fail under different sets of conditions than they do, Mr. Dagan adds.

Take fog, which looks like an obstacle to both camera-based and lidar-based systems, potentially causing vehicles to stop when they shouldn’t. In research published in 2020, radar-based automotive sensors had no trouble penetrating fog and correctly identifying stopped vehicles hidden within it, says Dinesh Bharadia, an assistant professor of engineering at the University of California San Diego who contributed to the work.

Dr. Bharadia says his team found that one key is using multiple radars, spaced at least five feet apart on a vehicle. It’s the same principle at work in the ever-expanding number of cameras on the backs of our smartphones, he adds. It’s possible to build up an “image” of a car’s surroundings using multiple low-cost radar sensors, just as our phone can use multiple small and inexpensive cameras, and then recombining the images they gather into something much sharper.

Bringing all the sensors on a car together into a single, coherent view of the reality outside a vehicle requires fusing all that data together, says Rick Gentile, an engineer who used to work on radar systems for defence applications and is now a product manager at MathWorks, a software company that builds tools to help process data. For example, while radar might be able to detect that there’s a sign up ahead, it can’t see its colour, which is critical to quickly identifying what kind of sign it is.

For so-called robot taxis, the way to make up for the gaps in the capabilities of each kind of sensor is to use all of them. The goal is “full redundancy,” says Mr. Dagan, so that even if one sensor has an error, others perceive the world correctly. This, he argues, is the fastest way to give vehicles senses that are at least as good as a human’s. (Whether those vehicles will have judgment sufficient to actually drive themselves around safely is a separate matter.)

Until we get real autonomous vehicles—something that could be years, if not decades away—auto makers will have to choose among radar, lidar and cameras, or some combination of the three, to create safety systems that can meet their promises to make automatic braking systems standard by 2022, and to continue to improve those systems. All three sensor types continue to get better, but the difference in cost among them has led automakers to favour one technology or another, depending on how well they think they can make up for its deficiencies with software and AI.

This has led to healthy competition among makers of safety systems, sensors and supporting software—whomever you talk to, they argue their systems are the best.

As all of these companies jostle for a place on your car, the goal of all of these technologists is to profit by significantly reducing road fatalities of every kind, when a human is behind the wheel. It’s a goal that they all agree is much closer at hand than fully autonomous vehicles.

The marketplace has spoken and, at least for now, it’s showing preference for hybrids and plug-in hybrids (PHEVs) over battery electrics. That makes Toyota’s foot dragging on EVs (and full speed ahead on hybrids) look fairly wise, though the timeline along a bumpy road still gets us to full electrification by 2035.

Italian supercar producer Lamborghini, in business since 1963, is also proceeding, incrementally, toward battery power. In an interview, Federico Foschini , Lamborghini’s chief global marketing and sales officer, talked about the new Urus SE plug-in hybrid the company showed at its lounge in New York on Monday.

The Urus SE interior gets a larger centre screen and other updates.
Lamborghini

The Urus SE SUV will sell for US$258,000 in the U.S. (the company’s biggest market) when it goes on sale internationally in the first quarter of 2025, Foschini says.

“We’re using the contribution from the electric motor and battery to not only lower emissions but also to boost performance,” he says. “Next year, all three of our models [the others are the Revuelto, a PHEV from launch, and the continuation of the Huracán] will be available as PHEVs.”

The Euro-spec Urus SE will have a stated 37 miles of electric-only range, thanks to a 192-horsepower electric motor and a 25.9-kilowatt-hour battery, but that distance will probably be less in stricter U.S. federal testing. In electric mode, the SE can reach 81 miles per hour. With the 4-litre 620-horsepower twin-turbo V8 engine engaged, the picture is quite different. With 789 horsepower and 701 pound-feet of torque on tap, the SE—as big as it is—can reach 62 mph in 3.4 seconds and attain 193 mph. It’s marginally faster than the Urus S, but also slightly under the cutting-edge Urus Performante model. Lamborghini says the SE reduces emissions by 80% compared to a standard Urus.

Lamborghini’s Urus plans are a little complicated. The company’s order books are full through 2025, but after that it plans to ditch the S and Performante models and produce only the SE. That’s only for a year, however, because the all-electric Urus should arrive by 2029.

Lamborghini’s Federico Foschini with the Urus SE in New York.
Lamborghini

Thanks to the electric motor, the Urus SE offers all-wheel drive. The motor is situated inside the eight-speed automatic transmission, and it acts as a booster for the V8 but it can also drive the wheels on its own. The electric torque-vectoring system distributes power to the wheels that need it for improved cornering. The Urus SE has six driving modes, with variations that give a total of 11 performance options. There are carbon ceramic brakes front and rear.

To distinguish it, the Urus SE gets a new “floating” hood design and a new grille, headlights with matrix LED technology and a new lighting signature, and a redesigned bumper. There are more than 100 bodywork styling options, and 47 interior color combinations, with four embroidery types. The rear liftgate has also been restyled, with lights that connect the tail light clusters. The rear diffuser was redesigned to give 35% more downforce (compared to the Urus S) and keep the car on the road.

The Urus represents about 60% of U.S. Lamborghini sales, Foschini says, and in the early years 80% of buyers were new to the brand. Now it’s down to 70%because, as Foschini says, some happy Urus owners have upgraded to the Performante model. Lamborghini sold 3,000 cars last year in the U.S., where it has 44 dealers. Global sales were 10,112, the first time the marque went into five figures.

The average Urus buyer is 45 years old, though it’s 10 years younger in China and 10 years older in Japan. Only 10% are women, though that percentage is increasing.

“The customer base is widening, thanks to the broad appeal of the Urus—it’s a very usable car,” Foschini says. “The new buyers are successful in business, appreciate the technology, the performance, the unconventional design, and the fun-to-drive nature of the Urus.”

Maserati has two SUVs in its lineup, the Levante and the smaller Grecale. But Foschini says Lamborghini has no such plans. “A smaller SUV is not consistent with the positioning of our brand,” he says. “It’s not what we need in our portfolio now.”

It’s unclear exactly when Lamborghini will become an all-battery-electric brand. Foschini says that the Italian automaker is working with Volkswagen Group partner Porsche on e-fuel, synthetic and renewably made gasoline that could presumably extend the brand’s internal-combustion identity. But now, e-fuel is very expensive to make as it relies on wind power and captured carbon dioxide.

During Monterey Car Week in 2023, Lamborghini showed the Lanzador , a 2+2 electric concept car with high ground clearance that is headed for production. “This is the right electric vehicle for us,” Foschini says. “And the production version will look better than the concept.” The Lanzador, Lamborghini’s fourth model, should arrive in 2028.

For Self-Driving Cars, the Hot New Technology Is… Radar

Companies are improving the century-old technology to help vehicles operate more safely