🚨 Would You Trust a Robot to Clean Your Toilet? You Might After THIS…
Meet Loki from Loki Robotics the autonomous cleaner that's not afraid of the dirtiest jobs.
From scrubbing sinks and toilets to swapping tools and cleaning agents on the fly, Loki adapts, works smart, and never complains. Offices, malls, and high-traffic zones cleaned flawlessly with surgical precision.
The future of hygiene is here. And it's tireless.
🎥 Media: @loki_robotics
⚠️ This content is shared for informational purposes only. CTO Robotics Media is a media platform and does not own or develop the technology shown. Credit belongs to the original creators.
robotics is the future.
not content.
not another SaaS wrapper around an LLM.
robots.
• machines that sense, think, and act in the physical world.
• machines that move energy, matter, goods, people.
• machines that collapse labor, expand productivity, and rebuild entire industries.
the future isn’t digital-first anymore. it’s physical-first with intelligence.
manufacturing → robotics
logistics → robotics
agriculture → robotics
construction → robotics
defense → robotics
healthcare → robotics
homes → robotics
every sector that still depends on human hands becomes a robotics problem.
and the demand is bigger than the talent pool by orders of magnitude.
learn perception.
learn control.
learn actuation.
learn embedded.
learn kinematics.
learn systems engineering.
learn how to make machines move.
the next trillion-dollar companies will be built out of metal, motors, sensors, and code.
don’t stay stuck in 2D screens.
the future is 3D, autonomous, and mechanical.
Godfather of AI Yann LeCun reveals the humanoid robot industry's secret: the companies building the robots have no idea how to make them smart enough to be useful.
"There is a lot of expectations that robotics is going to be a revolution, essentially, in a big market, eventually."
"But the secret of the industry is that none of the companies at the moment that are building robots, like humanoid robots, none of those companies has any idea how to make those robots smart enough to be useful."
"There's a big push for AI to make progress towards... understanding the physical world. That's what is prompting this investment."
"There's nothing wrong with investing in LLMs. LLMs are useful. They're just addressing a completely different set of applications, really."
LeCun is not describing someone else's problem. He has spent 15 years on world models, raised more than $1 billion for AMI Labs to build that missing intelligence layer, and in the same interview he calls 2026 the year of the world model and puts consumer robots 3 to 5 years out.
Every humanoid robot demo you have seen is a body waiting for a brain. The winner in robotics will not be the company that shipped the body; it will be the one that ships the intelligence.
- Yann LeCun (@ylecun), Turing Award winner and founder of AMI Labs, on Bloomberg Television.
Is Japan 🇯🇵 watching??
China 🇨🇳 is building samurai robots!
Meet ROTAKU the 6-foot humanoid samurai robot announced during Shanghai’s WAIC.
It’s all happening too fast man.
Researchers at the RAI Institute have developed the Ultra Mobile Vehicle, a two-wheeled robot that can perform bunny hops, jump onto tables, make sharp turns, and balance on two wheels using reinforcement learning.
Its AI-powered control system continuously improves driving, landing, balancing, and track stands through trial and error.
The RAI Institute unveiled the Ultra Mobile Vehicle in February 2025.
🇨🇳China’s Run Robotics unveiled a hybrid "Centaur" robot featuring a humanoid upper body and a wheeled-legged lower body. Designed for heavy-duty and dangerous environments like nuclear plants and mining, the platform combines the speed of wheeled locomotion with the obstacle-traversal capabilities of legs.
Prices for enterprise / industrial clients are expected to start from $150,000 per unit.
It’s happening: a humanoid robot has left the ground.
iRonCub3 uses four jet engines mounted on its arms and back.
The 70 kg prototype produced more than 1,000 N of thrust and climbed roughly 50 cm during testing.
Still tethered. Still experimental. But it flew.
FULL INTERVIEW: Terrafirma's @noah_schochet
He's building a robotics-powered construction company that will help the build civil infrastructure on Mars, enabling humanity to settle there.
Noah joined TBPN today to discuss the company's $115M raise, why construction is still only operating at a fraction of its potential, and how autonomous heavy machinery could reshape the industry.
00:20 – Why Noah started Terrafirma
02:00 – Launching robots using tupperware containers
03:15 – Construction's biggest problem
05:30 – Why 75% autonomy beats 100% autonomy
07:15 – Why humans will never fully disappear from construction
08:15 – Going to Mars
09:30 – Robots will force us to redesign how buildings are made
Across cotton fields in Shawan City, in China's Xinjiang region, intelligent agricultural robots equipped with cameras, sensors, and autonomous driving technology are managing over 100,000 hectares of cotton — collecting real-time crop data, calculating precise pesticide and fertilizer doses, and spraying autonomously. One robot covers more than 6.7 hectares per hour, and a single technician can operate up to five at once. Meanwhile, a laser-topping robot developed by Xinjiang University and EAVision uses lidar, machine vision, and a high-powered blue laser to vaporize each plant's terminal bud — detecting buds with 98.9% accuracy and working about 10 times faster than manual labor. With over 90% of Xinjiang's cotton already machine-picked, cotton farming is edging toward full automation.
#China #Xinjiang #Cotton #AgTech #Robotics #AI
Sabanto is attempting to scale a different model for agricultural autonomy.
Instead of building ever-larger machines, it retrofits existing tractors so one person can supervise several smaller vehicles working at once.
Sabanto says three to five autonomous 100-horsepower tractors can outperform one 500-horsepower machine at 50–70% of the cost.
One of its largest customers operates 25 autonomous tractors simultaneously. In an earlier deployment, a single autonomous 60-horsepower tractor planted more than 750 acres of corn and soybeans in one season.
They raised an oversubscribed $17 million Series A in 2022 and today announced an undisclosed, oversubscribed Series B to increase production and expand across hundreds of additional farms over the next 12 months.
Video from @SabantoAg materials.
Terrafirma CEO @noah_schochet and his co-founder started by building homemade robots out of Tupperware containers from their lunchboxes.
Today, the company announced a $100M Series A led by @kleinerperkins.
Terrafirma's first paying customer was their landlord, who asked if their robots could demolish a building.
"We went around asking, 'Who is willing to let us make some money with these robots?' Our landlord said, 'Hey, I got a building for you to demolish. You think you guys can do it?'"
"We literally operated the robots ourselves and knocked down a couple buildings and got paid our first check."
"We were like, 'Whoa, you can just become a robotic construction company.'"
This robot does not choose between two legs and four. It switches between both depending on the terrain and the task.
The Qiyuan T1 lowers its body for stability around furniture and uneven ground. It can also rise to interact closer to human height.
One robot. Two locomotion modes. A very different approach to personal robotics.
#Robotics #PhysicalAI #HumanoidRobot
Robotics essentials: POWER
A humanoid can walk, lift, and reason.
It just can't do it for a full shift.
Energy is the quiet ceiling on the whole field.
A humanoid carries under 2 kWh of battery, a fraction of a small EV's pack, because every extra cell adds weight the actuators then have to carry.
Tesla's Optimus holds about 2.3 kWh and draws 250 to 500 watts, more when lifting. That buys roughly 2 to 4 hours of real work per charge.
A human does similar movement on about 80 watts.
Lithium-ion tops out near 280 to 300 Wh/kg today, and you can't just add cells without making the robot heavier and hungrier. So the two ways out are both about the shift, not the charge: hot-swap the pack in seconds and run near 24/7 (Agility's Digit, Apptronik's Apollo), or wait for solid-state cells to raise the ceiling.
The robot that works an eight-hour shift without a cord wins the factory.
Right now, none of them can.
Someone looked at an umbrella and thought: "What if it could fly?" ☂️🤖
The result is exactly what you'd expect and somehow even cooler.
Projects like this remind us that some of the best innovations don't start with a business plan.
They start with curiosity. Today's flying umbrella might seem like a fun engineering experiment.
But so did many technologies that eventually became real products.
Innovation often begins when someone asks a question that sounds ridiculous.
What everyday object would you turn into a robot?
⚠️ This content is shared for informational purposes only. CTO Robotics Media is a media platform and does not own or develop the technology shown. Credit belongs to the original creators.
#Robotics #Drone #Engineering #Innovation #FutureTech #FlyingUmbrella #Technology #Maker #AI
robotics is the highest leverage bet in tech right now. software ate the world but the physical layer is still broken; labor shortages, manufacturing, defense, elder care, and space all need bodies that actually work in the real world. ai brains finally meet capable hardware: cheap actuators, better sensors, and foundation models that let one policy control everything from a biped to a factory arm. the winners won’t just build better motors; they’ll own the full stack of sim-to-real transfer, data flywheels, and low-cost embodiment at scale. my only question is what would elon say if he saw a scrappy team beat tesla optimus to market by nailing the boring physics that everyone else ignored?