Peter's Quasi-Daily Blah-g

Human drivers don’t necessarily see the road ahead as well when it rains, and it turns out that driver-assistance technology doesn’t either. The systems used to help your car automatically brake and stay within its lane is significantly impaired by rain, according to a study by AAA released Thursday.

American Automobile Association researchers found that automatic emergency braking, in several instances during testing conducted in simulated moderate-to-heavy rainfall, failed to detect stopped vehicles ahead, resulting in crashes. Lane-keeping technology also faired badly. 

AAA cautioned drivers, who should always be vigilant of these systems even in ideal conditions, to not rely on them in the rain.

“Vehicle safety systems rely on sensors and cameras to see road markings, other cars, pedestrians and roadway obstacles. So naturally, they are more vulnerable to environmental factors like rain,” said Greg Brannon, AAA’s director of automotive engineering and industry relations. “The reality is people aren’t always driving around in perfect, sunny weather so we must expand testing and take into consideration things people actually contend with in their day-to-day driving.”

Advanced driver-assistance systems, or ADAS, are common in newer vehicles. They do not perform autonomous driving, but they can automate some limited driving tasks such as adaptive cruise control and staying centered in one’s lane. Auto emergency braking has been shown to significantly reduce rear-end crashes in tests by insurance groups.

For its tests, AAA employed a 2020 Buick Enclave Avenir, a 2020 Hyundai Santa Fe, a 2020 Toyota RAV4 and a 2020 Volkswagen Tiguan.

No test car crashed into a stopped vehicle under dry, ideal conditions. But then researchers turned on the simulated rainfall — and 17% of the test runs resulted in crashes at speeds of 25 mph (40 km/h). At 35 mph, the instances of crashes increased to 33%.

You can extrapolate from there as to the dangers at highway speeds.

Researchers simulated rainfall in the vehicles’ field of vision by using a device involving a spray nozzle that obscured the sensors in the windshield, as shown in the photo above. That way, they were able to keep the roadway dry. AAA noted that wet roads in real driving conditions could result in even higher crash rates.

As for lane-keeping technology, vehicles crossed lane markers 37% of the time during ideal conditions in the AAA test — and that rate jumped to 69% once rain was added.

This is not the first AAA study to note shortcomings in driver-assistance systems. On the bright side, this study noted that merely having a dirty or bug-spattered windshield had little effect on the systems’ sensors.

AAA emphasizes that while these systems have potential, they are no match for an attentive driver. For driving in rain, AAA offers these tips:

• Keep windshield clean and ensure that wipers are not streaking the windshield.
• Slow down and avoid hard braking and sharp turning. If possible, follow in the tracks of other vehicles.
• Increase following distance to 5-6 seconds behind the vehicle ahead.
• Do not use cruise control in order to stay alert and to respond quickly if the car’s tires lose traction with the road.
• If the car begins to hydroplane, ease off the accelerator to gradually decrease speed until the tires regain traction, and continue to look and steer where you want to go. Don’t jam on the brakes—this can cause further traction loss.

Reuters was used in this report.

Building a Lego model of a Super Nintendo console, with sliding buttons and a spring-loaded eject button, is pretty impressive. Building a Lego SNES, two corded controllers, and a game cartridge, each of which is capable of being transformed into a robot with no reassembly? That takes a Lego Master.

We’ve been covering the work of one such a Lego Master for over a decade now. Julius von Brunk, also known as Baron von Brunk, has been turning game consoles into Transformers using Lego bricks for years. We featured his Nintendo 64 robot in 2013. A year later he came back with a colorful transforming Game Boy Advance. Now witness his greatest creation yet.

At first glance, it’s nothing more than a very well-built Super Nintendo model, complete with Polybius game cartridge and a pair of controllers, one for Super NES, and one for Super Famicom.

A closer look shows off more detail. The purple buttons on the console actually slide in little tracks. The eject button doesn’t pop out the cartridge, but it can be pushed down just like the real thing.

The game controllers actually plug into the console using little recreated ports designed by von Brunk.

The cartridge, which fits into a slot in the console, can be pulled out and played with. Note the “Super Famitron” logo on the label.

It’s a very cool build. Then it gets much, much cooler. Each of the four components, the console, both controllers, and cartridge, are built so they can quickly shift from interactive entertainment products into combat-ready robots. There’s no pulling off parts and reattaching them, or rebuilding Lego elements. Using a combination of normal Lego bits, some Technic pieces, and a couple of ape heads from the animalistic Lego Chima line, Baron von Brunk has created the ultimate Lego SNES Transformer team.

Meet Super Famitron and his minions, Polybius, Simian Kong, and Primal Kong. Super Famitron is a robot so big and bulky he has a little trouble standing. His minions, inspired by beloved Decepticon Soundwave and his cassettes, are adorable smaller bots, ready to do their boss’ bidding.

Due to the nature of the Super Nintendo, Super Famitron is a bit monochromatic, but the details von Brunk has worked into the robot form are outstanding. The shoulder-mounted cannons, the articulated fingers—I especially love the way his chest opens up to reveal his giant robot head.

Want to know how Baron von Brunk designed and built Super Famitron and friends? The good Baron has posted a lengthy video on his YouTube channel, detailing the challenges of creating this robot team and how he overcame each one, like avoiding having the eject button on the robot form’s crotch, which would have been hilariously cringe.

Want to see more of Baron von Brunk’s Lego creations, including more shots of Super Famitron? Check out his Flickr, which is still a thing apparently, or his Instagram, which is the newer, cooler version of Flickr. And if you’re very lucky, you might even stumble upon instructions on how to build your own transforming controllers and cartridges.

Yoko Kanno, who scored the original anime, isn’t the only one returning to Cowboy Bebop. The entire, original voice cast is, too, and will be dubbing the live-action Netflix show’s Japanese language track.

That’s right, not just some of the original Japanese language cast, but the entire Japanese language cast. This is the first time the full cast has been reunited in two decades—since the 2001 theatrical feature Cowboy Bebop: The Movie and since the original anime TV series ended in 1998.

According to Netflix Japan, the following voice actors will be returning to do the Japanese language dub: Koichi Yamadera as Spike, Taiten Kusunoki as Jet Black, Megumi Hayashibara as Faye, Norio Wakamoto as Vicious, Gara Takashima as Julia, Tsutomu Tareki as Punch, Miki Nagasawa as Judy, Takaya Hashi as Teddy Bomber, Masako Isobe as Mao, and Kenyu Horiuchi as Gren. Romi Park will also dub Shin, while Hikaru Midorikawa will dub Lin.

It sure is impressive Netflix got the whole gang back together. Well done.

The live-action adaptation of Shinichiro Watanabe’s space noir about a group of bounty hunters stars John Cho as Spike Spiegel, Daniella Pineda as Faye Valentine, and Mustafa Shakir as Jet Black. Will the live-action Cowboy Bebop be any good? Who knows! We’ll find out next month. But Netflix’s record with live-action anime adaptations has been spotty. For example, its live-action Death Note was not well received. Surely, lessons have been learned, and future live-action adaptations will be better, no? Maybe!

It’s good that Netflix got the original cast together (a hopeful sign!), and if you know Japanese, it might be fun to skip the subtitles and turn on the Japanese language option. And if the show does suck, you can just close your eyes and listen along.

Cowboy Bebop beings streaming on Netflix starting November 19.

We keep hearing, and reporting, that the era of the personal flying machine … flying car … air taxi … call it what you will … is right around the corner, with backing from big players like automakers or aircraft companies. In some imaginings, you’d be a passenger while these electric vertical takeoff and landing aircraft are flown by a cabbie/pilot. In others, you’d be dead weight (wait, let’s not say dead) being ferried aboard an autonomous drone. But weight and technology being limiting factors here, the job of flying just might come down to you. So maybe you’ve wondered: Could you do it?

We first told you about a Silicon Valley eVTOL enterprise known as Opener back in 2018. And true to the always-just-a-year-away nature of the flying car game, at that time it expected to begin sales of its BlackFly aircraft in 2019, for the price of an SUV. Well, it’s 2021, and though there’s not yet a BlackFly parked in your garage, the one-seater is FAA-certified, and it has been test-flown more than 4,300 times for over 35,000 miles — racking up a stockpile of YouTube videos in the process.

The company now says 25 BlackFly aircraft will be sold this fall.

The craft is meant to be amphibious, landing on water or grass, and its name is derived from the flight characteristics of, well, a black fly, along with the color of its carbon-fiber fuselage. The key to its technology is its Leading Edge Asynchronous Propeller Technology (LEAPTech), a system of eight redundant propellers developed on the NASA Ames X-Plane program. The system allows each of the propellers to turn at different speeds, meaning the plane can hover, turn on a dime or do just about anything a fixed-wing aircraft normally can’t.

And here’s a fun fact: You don’t need a pilot’s license to fly a BlackFly. (You do need to complete Opener’s operator training, however.)

Another fun fact, getting back to the could-you-do-it question: The company won’t let you make a test flight. But here’s the next best thing: watching somebody else with no experience give it a try. CBS Sunday Morning correspondent John Blackstone recently went through BlackFly simulator training, and then company founder Marcus Leng put him in the pilot seat. Check it out in the video above.

Though the landing looks dicey, there was no harm done — Blackstone got BlackFly up and back down again. So maybe the rest of us could do the same?