From Innovation to Impact Mobility Reimagined
PIX Beastie (Previously Robo-EV) is a next-generation mini electric vehicle redefining how people move in cities. Powered by AI-driven design, intelligent interactions, and the breakthrough Aluminum 3D printed unibody chassis, it introduces a new paradigm of urban mobility - sustainable, adaptive, and designed to enrich everyday life while shaping smarter, more connected communities.
FORGED BY ALGORITHMS
READY FOR YOUR URBAN LIFESTYLE
The PIX Beastie’s chassis is shaped by AI generative design and topology optimization, achieving unprecedented efficiency in a biomimetic form. 3D printing brings these geometries to life, proving Beastie isn’t built on a line—it’s printed with innovation in every curve and detail.
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In-Car AI System:
Intelligent Emotional Interaction
The onboard AI serves as an intelligent companion, adapting to the user’s habits and preferences for a truly personalized journey. From language learning to emotional support, PIX Beastie (Robo-EV) transforms travel into a new form of human–machine interaction.
Smart, Safe, and Efficient Driving
Robo-EV enhances safety, lowers maintenance costs, and improves driving experience by using lightweight materials, AI-driven structure design, and advanced manufacturing.
Freedom in Open-Air Driving
Open-air driving breaks convention, letting drivers fully immerse in their surroundings and enjoy true freedom on the move. At the same time, the modular design allows for a closed-door version, ensuring comfort and usability even in winter or harsh weather.
Intelligent and Sustainable by Design
PIX Beastie (Robo-EV) takes a future-ready approach, uniting sustainability with advanced engineering. Lightweight composites and regenerative braking boost efficiency, while AI generative design and 3D printing create stronger, lighter, more durable structures—crafted for performance, comfort, and longevity.
ALUMINUM 3D PRINTED UNIBODY CHASSIS
With our revolutional manufacturing technology—we use metal 3D printing to achieve one-piece molding in vehicle structures. This reduces parts and welding, significantly minimizing failure points, resulting in greater stability, improved handling, enhanced safety, and lower maintenance costs.
RTM™️ MOLD-FREE SHEET METAL FORMING
Our RTM™️ (real-time manufacturing) process eliminates the need for hard molds, offering flexibility of manufacturing. It enables complex component designs, easier customization, and more personalized options.
TOPOLOGY OPTIMIZATION:
MAXIMIZING STRUCTURAL STRENGTH
We’ve used topology optimization to enhance the vehicle structure design, increasing stiffness and impact resistance. This results in a safer structure, while also reduced friction noise from component movement.
