Las Vegas (Nevada),7 jan. (askanews) – LG unveiled CLOiD, its latest domestic robot, at the Consumer Electronics Show (CES) in Las Vegas, designed to “facilitate convenience and comfort” by performing household tasks ranging from preparing food to cleaning up afterward.
The robot, which LG’s Brandt Varner says aims to “simplify life by carrying out complex tasks, to enrich activities to make them even more pleasant,” utilizes “Physical AI” technology to interact with the home environment. It can retrieve items from the refrigerator, operate appliances like washing machines, fold laundry, open doors, and move objects, according to the company.
- LG introduced CLOiD, a domestic robot, at CES 2026.
- CLOiD is designed to perform a variety of household chores.
- The robot uses “Physical AI” and generative AI for interaction and task execution.
- LG also showcased an ultra-thin television with improved image quality.
CLOiD features an animated display for a head and is powered by generative AI, enabling it to communicate using natural language and display facial expressions. LG also presented an ultra-thin,wall-mounted television,measuring just 9 mm in thickness,equipped with its new Hyper Radiant Color Tech technology to enhance image quality.
Why It Matters
The introduction of CLOiD reflects a growing trend toward integrating advanced robotics and artificial intelligence into everyday home life. While domestic robots have been conceptualized for decades, advancements in AI and robotics are now making more sophisticated and practical applications possible.LG’s focus on “Physical AI” – combining AI with physical manipulation – is a key differentiator,allowing the robot to actively engage with and modify its environment,rather than simply responding to commands. This development signals a potential shift in how consumers approach household chores and time management,and could accelerate the adoption of robotic assistance in the home.
Time.news based this report in part on reporting by Askanews and added self-reliant analysis and context.
