About CeiliX Robotics
CeiliX Robotics develops ceiling-based automation systems that transform how robots and humans work together. The company's technology enables free unrestricted overhead movement in every direction, eliminating spatial constraints that traditional ground-based robots face.
CeiliX's solutions are critical for humanoid robotics safety — by moving autonomous transport and robotic systems from the floor to the ceiling, they reduce collision risks and create safer shared workspaces. This approach is particularly valuable for human-robot collaboration in factories and warehouses.
The company offers three core products: InfinityCrane (unrestricted overhead crane system), SkyBot (ceiling-mounted mobile robot), and CeiliX Elements (modular ceiling rail system). Together, they enable 30-50% space savings by moving transport operations from the floor to the ceiling.
Core Products & Technologies
InfinityCrane
Unrestricted overhead movement in every direction. Eliminates spatial constraints — room columns are no longer barriers. Multiple cranes can operate collaboratively in the same workspace.
SkyBot
Ceiling-mounted mobile robot with unrestricted mobility. Moves freely in all directions and around obstacles. Brings advantages of AGVs/AMRs to the ceiling — without floor space consumption.
CeiliX Elements
Modular ceiling-mounted rail system. Rapid installation, flexible adaptation to any space, and seamless expandability. The infrastructure foundation for CeiliX automation.
Making Humanoid Robotics Safe
Enhanced Worker Safety
By moving autonomous transport robots from the floor to the ceiling, CeiliX eliminates collision risks between humanoid robots, AGVs, and human workers. This creates inherently safer shared workspaces.
30-50% Space Savings
CeiliX technology eliminates transport space on the floor, freeing valuable production and storage areas. This space efficiency is critical when integrating humanoid robots into existing facilities.
Human-Robot Collaboration
Ceiling-mounted systems can work alongside floor-based humanoid robots. This creates a multi-level automation architecture that maximizes efficiency while maintaining safety separation.
Flexible Automation
CeiliX robots can be outfitted with diverse tools — robotic arms, lifting mechanisms, sensors — extending their functionality and enabling one robot to serve multiple workstations.
Use Cases & Applications
Production & Logistics
CeiliX robots automate tasks currently done by workers or standalone machines. The system extends the range of robotic tools by moving robotic arms between multiple workstations.
Warehouse & Storage
Eliminate transport space on the floor, achieving 30-50% space savings. Ideal for high-density storage and automated material handling.
Collaborative Operations
Multiple InfinityCranes can operate simultaneously, enabling collaborative tasks like rotating suspended objects — applications previously impossible with conventional cranes.
Humanoid Robot Integration
CeiliX ceiling systems complement floor-based humanoid robots, creating a safe multi-level automation architecture that maximizes space utilization and operational efficiency.
CeiliX Robotics at the Advanced Humanoid Forum 2027
CeiliX will showcase their ceiling-based automation solutions at the forum:
- Live demonstration of InfinityCrane and SkyBot
- Presentation on safety benefits for humanoid robot deployment
- Ceiling rail system showcase
- Technical discussions on human-robot collaboration and space optimization
Frequently Asked Questions
CeiliX develops ceiling-mounted modular rail systems, unrestricted overhead cranes (InfinityCrane), and ceiling-mounted mobile robots (SkyBot) for automation and material handling.
By moving autonomous transport robots from the floor to the ceiling, CeiliX eliminates collision risks between humanoid robots, AGVs, and human workers — creating inherently safer shared workspaces.
CeiliX technology enables 30-50% space savings by eliminating transport space on the floor and moving automation to the ceiling.
Yes. CeiliX ceiling-based systems complement floor-based humanoid robots, creating a multi-level automation architecture that maximizes space efficiency while maintaining safety separation between systems.