About Clone Robotics
Explore Clone Robotics' breakthrough in synthetic humanoid robots featuring anatomically accurate musculoskeletal systems, Myofiber artificial muscles, and 500+ sensors. Discover their Protoclone V1 android for home and industrial applications.
Overview
- Biomimetic Robotic Torso: Clone Robotics specializes in humanoid torsos replicating human musculoskeletal anatomy with artificial muscles (Myofiber), enabling lifelike motion through hydraulic actuation powered by water and electricity.
- Industrial-Focused Design: Engineered for precision tasks in manufacturing and assembly lines, prioritizing dexterity over human interaction, with a modular structure for adaptability across applications.
- Advanced Joint Replication: Features anatomically accurate shoulder joints (sternoclavicular, acromioclavicular, scapulothoracic, glenohumeral) and cervical spine for full-range human-like upper-body movement.
Use Cases
- High-Precision Manufacturing: Replaces humans in electronics assembly lines requiring micron-level accuracy with fatigue-resistant operation.
- Prosthetic Development: Myofiber technology enables next-gen artificial limbs with naturalistic grip patterns and force modulation.
- Medical Simulation: Provides anatomically accurate training platforms for surgical procedures involving thoracic interventions.
- Teleoperated Rehabilitation: Allows remote physical therapy via motion-mirroring systems for neuromuscular recovery patients.
Key Features
- Myofiber Musculature: Proprietary artificial muscles offering >30% contraction at 1kg force per 3g fiber, exceeding biological muscle speed with <50ms response time.
- Bimanual Manipulation: Dual-arm coordination enables complex tasks like jar-opening or part assembly through synchronized elbow/wrist articulation.
- Compact Hydraulic System: Valve matrix embedded in ribcage enables fluid-controlled actuation without external pumps, achieving 200W power draw for 7kg lifts.
- Lightweight Skeleton: Polymer bone structure with tendon anchors supports high-strength movements while maintaining sub-30kg total torso weight.
Final Recommendation
- Prioritize Industrial Integration Teams: Manufacturers seeking precision automation in small-part assembly will benefit most from current capabilities.
- Explore Medical Partnerships: Collaborate with prosthetics firms to translate Myofiber tech into adaptive limb solutions with neural interfaces.
- Avoid Consumer Applications: Current jerkiness in motion and lack of AI integration make it unsuitable for service robotics or public-facing roles.
- Monitor R&D Pipeline: Track developments in full-body integration (Protoclone) for future warehouse automation or hazardous environment deployment.
