Skip to main content

Crawl, walk, run – that’s how you get humanoid robotics all grown up

Web Hosting & Remote IT Support

It’s no longer a question of if – only when. The promise of humanoid robotics is finally crystallizing into a commercial reality.

This new era will create a sector with the heft to rival megaliths like automotive and computing.

But we’re not there yet, and though large and well-known manufacturers are investing billions in development, with some clear leaders, the robots themselves remain in adolescent stage.

My advice? Treat them like any other adolescents and don’t rush them into adulthood before they’re ready. Take a crawl walk run approach to innovation, build capability layer by layer, and let maturity emerge from momentum. This is the fastest way to win the race to commercial deployment and value.

Development teams are making progress by the day, stimulated and inspired by the obvious appeal of a robot shaped like a human, operating deftly and effectively in any environment designed for people, using existing tools and infrastructure. But we’re clear on the obstacles, and equally clear with business leaders on the need to understand the technical, practical, regulatory and social factors that stand between them and the market.

That said, there’s no doubt in my mind that humanoid robotics represents not just a new way to win – but a way to win big. Companies that are first to crack the challenges I’m about to describe will seize powerful advantages. They’ll define industry standards, accumulate proprietary data and build customer relationships that late entrants can’t hope to replicate.

Early deployment – even for tasks like packing boxes – generates real-world learning that accelerates improvement.

The human-shaped challenge

The formidable gap between impressive (if carefully pre-choreographed) demonstration videos and actual deployment is marked with several key technical challenges, not least the physics of the human form. Balance and locomotion are among the hardest problems in robotics. We walk with a complex, energy-efficient gait that takes years to learn. Replicating for a robot requires real-time processing of sensor data, continuous adjustment to shifting weight and the ability to recover from unexpected disturbances.

Reinforcement learning and improved actuators have produced robots that can walk, run, and even perform parkour in controlled settings. But real-world environments are a chaotic mess of uneven floors, unexpected obstacles and slippery surfaces – and current systems still struggle here.

Dexterity and manipulation are equally daunting. Human hands have 27 degrees of freedom and extraordinary tactile sensitivity. Once learned, we can thread a needle, crack an egg, or catch a ball without conscious thought. Robotic hands have improved substantially, but fine motor control, delicate force application and adaptive grip remain limited. Tasks that seem trivial to us are extraordinarily difficult for machines.

Our research notes the promise of perfecting fine manipulation as physical AI teams progresses from lab proof-of-concept to stable pick-and-place cycles with real hardware. It’s tough, because it’s all about building new capabilities from scratch. But with a growing confidence in areas like fine manipulation, human-robot interaction and whole-body control, we’re moving ever closer to significant breakthroughs.

A new way to look at perception

Perception and decision-making represent further technical hurdles. Robots must interpret cluttered, dynamic environments in real time, distinguishing between a crumpled napkin and a spilled hazard, recognizing when a human is about to cross their path, and making split-second decisions about how to respond. Current AI can handle many of these tasks in isolation, but integrating them into a coherent, reliable whole is a work in progress.

As these technical problems are solved, economic viability will come increasingly into focus. While some humanoids are advertised with a cost of a few thousand dollars, these are essentially expensive toys rather than effective workers. Top-of-the-range humanoid robots cost hundreds of thousands of dollars, far more than what most businesses can justify for tasks that humans perform adequately.

Manufacturing at scale could bring prices down, but the path to a $20,000 or $30,000 unit that could potentially result in productivity and cost efficiency gains remains uncertain. Robot-as-a-Service financing models will enable early up-take but the underlying cost challenge will remain a blocker to mass adoption.

Getting closer to real-world usefulness

Personally, I’m optimistic about overcoming the remaining challenges. There is work to be done on operational reliability (we’re not yet there with machines that operate autonomously for extended periods without much intervention); legal frameworks; physical safety (regulatory guidelines are in their infancy); and even public perception (resistance to automation has derailed past initiatives.)

The key is to stay focused on the end game. With the remaining hurdles diminishing, the direction of travel is irresistible. Every small breakthrough – like that box packing example I mentioned earlier – brings us closer to real-world usefulness and every early deployment teaches us something we can’t learn in the lab. Build steadily, crawl-walk-run, and the rewards await the ambitious first movers.

70+ of the best AI tools rated and ranked.

This article was produced as part of TechRadar Pro Perspectives, our channel to feature the best and brightest minds in the technology industry today.

The views expressed here are those of the author and are not necessarily those of TechRadarPro or Future plc. If you are interested in contributing find out more here: https://www.techradar.com/pro/perspectives-how-to-submit



via Hosting & Support

Comments

Popular posts from this blog

The Samsung Galaxy Ring could go into production as soon as next month

Web Hosting & Remote IT Support With the dust beginning to settle from the huge Samsung Unpacked 2023 event, we can turn our attention towards what Samsung might have planned next: and a smart ring seems to be in the company's near future. As per a report from South Korean outlet The Elec (via SamMobile ), mass production on a Samsung Galaxy Ring could begin as early as August, with a decision imminent on the schedule for getting the wearable manufactured and out to consumers. A full launch is slated for some point during 2024 though, rather than 2023. The nature of the device means that it'll need to clear several regulatory hurdles before it can go on sale and start tracking various vital statistics. An early 2024 launch would put the Galaxy Ring on a similar schedule to the Samsung Galaxy S24 – and it would therefore make sense to launch both gadgets at the same time, perhaps in January or February if Samsung follows its 2023 routine. The story so far Rumors ar...

The Apple Watch ban is lifted, on appeal – but the reprieve might only be temporary

Web Hosting & Remote IT Support The Apple Watch ban story has developed quickly over the last week and a bit, and there's now a new twist: the US Court of Appeals is putting a pause on the US sales and import ban while it reviews the case, which means the Apple Watch 9 and Apple Watch Ultra 2 can go back on sale for the time being. "We are thrilled to return the full Apple Watch lineup to customers in time for the new year," an Apple spokesperson told TechRadar. "We are pleased the US Court of Appeals for the Federal Circuit has stayed the exclusion order while it considers our request to stay the order pending our full appeal." The watches in question are now once again available from "select" Apple Stores, and will also be going on sale from the Apple website from 12pm PT / 3pm ET on Thursday, December 28 (that's 8pm in the UK, and early on December 29 in Australia). All Apple Stores should have stock by the weekend. As for how long t...

These mobile games are just trying to steal your crypto hoard, FBI warns

Web Hosting & Remote IT Support The FBI has warned consumers about a newly-detected, fake "play-to-earn" mobile and online game that tricks victims into depositing cryptocurrency, only to later steal it.  In a public service announcement , the FBI said the elaborate scheme sees scammers first contact the potential victim and try to build a relationship with them.  After a little back-and-forth, the scammers would invite the victim to play an online or mobile game, in which players purportedly earn cryptocurrency rewards in exchange for some activity, “such as growing ‘crops’ on an animated farm” the FBI said.  Depositing cryptos But getting into the “game” isn’t free - the victims must first create a cryptocurrency wallet and deposit some money, which is where the real scam begins. The fraudsters would later also tell the victims that the more funds they deposit, the higher the gains will be. However, as soon as the victim stops depositing additional funds, the...