Apptronik’s Apollo is the latest humanoid robot to beat Tesla to market

The 5-foot-8, 160-lb Apollo can lift up to 55 lbs.

Apptronik unveiled a new workforce robot today. Named Apollo, the machine is designed to “work in environments designed for, and directly alongside, humans.” The android is initially intended to move and carry cases and totes in logistics and manufacturing settings. But the Austin-based Apptronik sees Apollo expanding into “construction, oil and gas, electronics production, retail, home delivery, elder care” and more. Apollo follows Xiaomi’s reveal of the CyberOne robot last year, which looked remarkably similar to the still-unreleased Tesla Bot.

The 5-foot-8, 160-lb Apollo can lift up to 55 lbs. (Apptronik says it optimized efficiency by making its arms lighter than the weight they can lift.) It uses swappable batteries — running up to four hours per pack — which should provide more flexibility than robots that require wall charging before springing back into action. “In short, this battery-based approach means greater work output for Apollo and greater operational efficiency for customers,” Apptronik wrote in a press release today.

Apptronik views Apollo as a robot that can adapt to the job. The company says it built “modularity into Apollo’s design, empowering users to decide whether Apollo is best used for their applications as a true bi-pedal walking humanoid, a torso that operates on wheels or one mounted in a stationary location.” The robot has digital panels on its face and chest to provide a “friendly, human-like countenance” to make workers feel comfortable working alongside it (as it potentially moves towards automating their jobs).

Apptronik hasn’t announced public pricing for the robot. You can read more about Apollo on the company’s product page.

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This vacuum robot dog can find and suck up trash with its feet

VERO uses AI to pick up cigarette butts and small bits of trash off of Italy’s beaches and other public spaces.

Cigarette butts pose a huge risk to the world’s oceans and can be a pain to clean up by hand especially on public spaces like beaches. A group of Italian scientists have built a quadruped robot that can identify litter and pick up the smaller bits with its leg mounted vacuums.

VERO, the vacuum equipped quadruped robot, is a four-legged device designed to look for and clean up litter on a variety of terrains. VERO was designed and built by a team of researchers from the Dynamic Legged Systems lab at the Italian Institute of Technology in Genoa, according to USA Today.

The group published a paper back in April on VERO’s development and effectiveness in the Journal of Field Robotics. The research paper states that cigarette butts are a serious concern. Discarded butts release toxic chemicals and microplastics into the ocean as they break down. It’s also the “second most common undisposed waste worldwide, in terrains that are hard to reach for wheeled and tracked robots.”

VERO is designed for picking up this common type of small litter. An operator sets up a field target for the robot to traverse. Then it slowly walks the entire length of the target while identifying litter with a special neural network and onboard cameras. The quadruped robot has a “convolutional neural network for litter detection” that can target litter and pick it up with one of four leg mounted vacuums, according to IEEE Spectrum.

Cleaning up beaches also can be a challenge because the sand makes it hard to lug wheeled trash bins or heavy receptacles over the terrain. The researchers conducted tests on “six different outdoor” scenarios to show VERO’s proficiency at navigating difficult terrain. It can steady itself while picking up trash with an Intel RealSense depth camera mounted on its chin.

The robot didn’t get every piece of trash in its initial test but it still picked up 90 percent of the cigarette butts identified in testing. That’s 90 percent less waste that ends up in the ocean.

There don’t seem to be any plans to implement VERO just yet. The researchers say VERO’s design could be programmed and engineered to do other tasks like spraying crops, looking for weaknesses in infrastructure and helping with construction projects.

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