Blue, the Star Wars-inspired AI robot, is the newest creation from Disney, NVIDIA, and Google DeepMind. Revealed at NVIDIA’s GTC 2025 keynote, this blue droid features advanced physics simulation, tactile feedback, and real-time learning capabilities. Blue can perform complex human tasks and adapt to new environments. Disney plans to introduce similar “BDX droids” in their theme parks by 2026. This breakthrough represents a significant step toward more versatile robots for entertainment and beyond.
A blue robot that looks like it stepped out of a Star Wars movie was the star of NVIDIA’s GTC 2025 keynote. Named “Blue,” this robot is the result of a collaboration between NVIDIA, Disney Research, and Google DeepMind. NVIDIA CEO Jensen Huang proudly demonstrated Blue’s capabilities on stage, showing how it moves and interacts with its environment.
Blue contains two NVIDIA computers and uses the company’s latest AI chip technology. It can perform real-time physics simulations and has tactile feedback. Originally created by researchers at UC Berkeley including Pieter Abbeel, the robot is designed to perform complex human tasks at an affordable price point. The robot shows off advanced movement and interaction skills that weren’t possible before this technology.
Blue’s dual NVIDIA computers and cutting-edge AI chip deliver unprecedented capabilities in movement, physics simulation, and tactile response.
The robot runs on the new Newton Physics Engine, an open-source platform built on NVIDIA’s Warp framework. This engine works with Google DeepMind’s MuJoCo simulator to help robots learn in real time. It’s designed to solve the gap between simulation and real-world performance that has challenged robotics.
Disney plans to bring Blue-inspired “BDX droids” to its theme parks by 2026. These robots will make Disney’s character experiences more interactive and expressive. They build on Disney’s earlier tests with remote-controlled droids. The audience at the event showed positive response to Blue’s appearance, which featured endearing beeps and body wiggles.
Blue uses deep reinforcement learning to train in virtual worlds before working in the real world. It can adapt to new environments and process complex situations as they happen. The robot continuously learns and gets better at tasks over time. This represents a significant advancement in the AI Revolution that’s transforming how businesses approach automation and customer experiences.
Beyond entertainment, Blue could be useful in manufacturing, education, and possibly home assistance. The technology shows progress in creating generalist robot models that can handle many different tasks.
