China's Ministry of Industry and Information Technology has said that China is planning to build humanoid smart robots which will "reshape the world." "They are expected to become disruptive products after computers, smartphones, and new energy vehicles." US companies are also at work on this, to create walking robots that will be able to replace humans in manual labour jobs. However, the Chinese are the most ambitious here saying the robots will be up and walking by 2025. While that may be too optimistic, the writing is clearly on the wall of more job elimination, perhaps greater than ever anticipated.
Musk sees this as a good thing, which will free up people for leisure. That would be a good thing in principle if we had a Douglas social credit economy, but without that people are going to be simply abandoned by corporate capitalism, just as the Aussies now who are made homeless from the Asian-migration fuelled rental crisis, are being abandoned by the heartless political class. It is difficult to see what can be done here by us, using classical grassroots principles, since communist China will do what it wants. That will create an inevitable AI arms race. Consequently, we must evolve strategies to survive the short-term, and wait out this storm of madness.
“China disclosed ambitious plans to mass-produce humanoid robots, which it says will be as "disruptive" as smartphones.
In an ambitious blueprint document published last week, China's Ministry of Industry and Information Technology said the robots would "reshape the world."
The MIIT said that by 2025 the product will have reached an "advanced level" and be mass-produced. It made the statements in the development goals listed in its road map.
"They are expected to become disruptive products after computers, smartphones, and new energy vehicles," a translation of the document added.
Bloomberg reported the document was "short on details but big on ambition." But some Chinese companies are seemingly helping to tackle the country's robotic ambitions in earnest.
The Chinese startup Fourier Intelligence, for example, said it would start mass-producing its GR-1 humanoid robot by the end of this year, South China Morning Post reported. The company, which has a base in Shanghai, told the publication it aspired to deliver thousands of robots in 2024 that could move at 5 kilometers an hour and carry 50 kilograms.
It's not the only humanoid-robot maker that's ramping up its efforts with the goal of mass production. The US's Agility Robotics is set to open a robot factory later this year in Oregon, where it plans to build hundreds of its bipedal robots that can mimic human movements such as walking, crouching, and carrying packages.
Amazon is testing Agility Robotics' Digit robot at a research-and-development center near Seattle to see how it can be used to automate its warehouses, but it's only in the pilot phase.
Agility Robotics CEO Damion Shelton told Insider: "In the near term, we expect a slow and steady uptick of Digit deployments." He added: "We believe mass integration will eventually occur, but bipedal robots are still a relatively new advancement."
Even Tesla is developing its own humanoid robot, named Optimus, or Tesla Bot, as Elon Musk disclosed in 2021. But it still has a long way to go before it's ready for mass production; Musk said at a Tesla AI Day event in 2022 that it was the first time the prototype had walked "without any support" when it walked onto the stage.
“Building a robot that’s both human-like and useful is a decades-old engineering dream inspired by popular science fiction.
While the latest artificial intelligence craze has sparked another wave of investments in the quest to build a humanoid, most of the current prototypes are clumsy and impractical, looking better in staged performances than in real life. That hasn’t stopped a handful of startups from keeping at it.
“The intention is not to start from the beginning and say, ‘Hey, we’re trying to make a robot look like a person,’” said Jonathan Hurst, co-founder and chief robot officer at Agility Robotics. “We’re trying to make robots that can operate in human spaces.”
Do we even need humanoids? Hurst makes a point of describing Agility’s warehouse robot Digit as human-centric, not humanoid, a distinction meant to emphasize what it does over what it’s trying to be.
What it does, for now, is pick up tote bins and move them. Amazon announced in October it will begin testing Digits for use in its warehouses, and Agility opened an Oregon factory in September to mass produce them.
Digit has a head containing cameras, other sensors and animated eyes, and a torso that essentially works as its engine. It has two arms and two legs, but its legs are more bird-like than human, with an inverted knees appearance that resembles so-called digitigrade animals such as birds, cats and dogs that walk on their toes rather than on flat feet.
Rival robot-makers, like Figure AI, are taking a more purist approach on the idea that only true humanoids can effectively navigate workplaces, homes and a society built for humans. Figure also plans to start with a relatively simple use case, such as in a retail warehouse, but aims for a commercial robot that can be “iterated on like an iPhone” to perform multiple tasks to take up the work of humans as birth rates decline around the world.
“There’s not enough people doing these jobs, so the market’s massive,” said Figure AI CEO Brett Adcock. “If we can just get humanoids to do work that humans are not wanting to do because there’s a shortfall of humans, we can sell millions of humanoids, billions maybe.”
At the moment, however, Adcock’s firm doesn’t have a prototype that’s ready for market. Founded just over a year ago and after having raised tens of millions of dollars, it recently revealed a 38-second video of Figure walking through its test facility in Sunnyvale, California.
Tesla CEO Elon Musk is also trying to build a humanoid, called Optimus, through the electric car-maker’s robotics division, but a hyped-up live demonstration last year of the robot’s awkwardly halting steps didn’t impress experts in the robotics field. Seemingly farther along is Tesla’s Austin, Texas-based neighbor Apptronik, which unveiled its Apollo humanoid in an August video demonstration.
All the attention — and money — poured into making ungainly humanoid machines might make the whole enterprise seem like a futile hobby for wealthy technologists, but for some pioneers of legged robots it’s all about what you learn along the way.
“Not only about their design and operation, but also about how people respond to them, and about the critical underlying technologies for mobility, dexterity, perception and intelligence,” said Marc Raibert, the co-founder of Boston Dynamics, best known for its dog-like robots named Spot.
Raibert said sometimes the path of development is not along a straight line. Boston Dynamics, now a subsidiary of carmaker Hyundai, experimented with building a humanoid that could handle boxes.
“That led to development of a new robot that was not really a humanoid, but had several characteristics of a humanoid,” he said via an emailed message. “But the changes resulted in a new robot that could handle boxes faster, could work longer hours, and could operate in tight spaces, such as a truck. So humanoid research led to a useful non-humanoid robot.”
Some startups aiming for human-like machines focused on improving the dexterity of robotic fingers before trying to get their robots to walk.
Walking is “not the hardest problem to solve in humanoid robotics,” said Geordie Rose, co-founder and CEO of British Columbia, Canada-based startup Sanctuary AI. “The hardest problem is the problem of understanding the world and being able to manipulate it with your hands.”
Sanctuary’s newest and first bipedal robot, Phoenix, can stock shelves, unload delivery vehicles and operate a checkout, early steps toward what Rose sees as a much longer-term goal of getting robots to perceive the physical world to be able to reason about it in a way that resembles intelligence. Like other humanoids, it’s meant to look endearing, because how it interacts with real people is a big part of its function.
“We want to be able to provide labor to the world, not just for one thing, but for everybody who needs it,” Rose said. “The systems have to be able to think like people. So we could call that artificial general intelligence if you’d like. But what I mean more specifically is the systems have to be able to understand speech and they need to be able to convert the understanding of speech into action, which will satisfy job roles across the entire economy.”
Agility’s Digit robot caught Amazon’s attention because it can walk and also move around in a way that could complement the e-commerce giant’s existing fleet of vehicle-like robots that move large carts around its vast warehouses.
“The mobility aspect is more interesting than the actual form,” said Tye Brady, Amazon’s chief technologist for robotics, after the company showed it off at a media event in Seattle.
Right now, Digit is being tested to help with the repetitive task of picking up and moving empty totes. But just having it there is bound to resurrect some fears about robots taking people’s jobs, a narrative Amazon is trying to prevent from taking hold.
Agility Robotics co-founder and CEO Damion Shelton said the warehouse robot is “just the first use case” of a new generation of robots he hopes will be embraced rather than feared as they prepare to enter businesses and homes.
“So in 10, 20 years, you’re going to see these robots everywhere,” Shelton said. “Forever more, human- centric robots like that are going to be part of human life. So that’s pretty exciting.”
Pretty frightening I would think.