HUMANOIDsafety TECHNICAL TALK
THE ROBOT OUT OF THE CAGE.
Beyond Safe Stop — designing Safe Stability for humanoids operating around people.
With:
Dr.-Ing. Florian Weißhardt
Dr. Tim Fröhlich (Synapticon)
Live + Q&A
Limited seats
STOP IS NOT SAFETY.
Traditional Stop-Category-0 logic assumes: power off equals safe. That works for industrial robots inside cages. Humanoids are different.
Cut torque at the wrong moment and you create instability — not protection. Deployment around people requires Safe Stability. Not just Safe Stop.
Cut torque at the wrong moment and you create instability — not protection. Deployment around people requires Safe Stability. Not just Safe Stop.
Multi-axis safe motion
Safe Active Damping to prevent oscillations and collapse
Volumetric human safety
Zones de seguridad en 3D que tienen en cuenta la predicción de caídas
Behavioral AI supervision
Constraining non-deterministic decisions in context
Tiered system integration
Motion, proximity, and intent designed as one stack
WHAT YOU WILL GAIN
A blueprint for safe stability
What "safe" means when the robot must remain upright.
A tiered safety reference architecture
Motion → volumetric → behavioral integration.
A deployment framework
From demo environments to real-world human interaction.
Live Q&A included
Downloadable technical brief provided
FOR TEAMS DEPLOYING HUMANOIDS AROUND PEOPLE
This session is designed for engineers responsible for system-level safety and architecture decisions:
- chief technology officer
- Robotics Architect
- Controls Lead
- Safety Owner
If your robot leaves the cage, your safety architecture must evolve. Safe stability is not optional in real-world deployment.
