Patented Technology for Robotic Optical Fiber Connectivity

FiberSmart's state-of-the-art technology performs with the utmost precision that the industry has taken decades to develop. ROME, being robotic, optical, mechanical and electrical, provides the answer.

Longevity of 3,000,000 Cycles

ROME lifecycle is based on the mechanical motion of connections and disconnections. With 3 million cycles, ROME robots are expected to work tirelessly for decades.

Autonomy of Operations in Any Condition

Autonomous system needs to handle exceptional working conditions without human intervention. ROME is built for the extreme.

Earthquake, overheating of environment and power outages are among just the few conditions ROME senses and operates on.

Performance Robotically and Optically

The fidelity of optical fiber connectivity is guaranteed by robotic motion precision, adaptive latching mechanism, spring loaded force and intelligent sensing functions.

Technology with the Utmost Sophistication

  • 1um Robotic Accuracy

    Our servo control and encoder technology for the precision motion system inside ROME are performing in high fidelity.

  • Low Power Consumption

    With power consumption of 50 to 150 Watts between standby and peak motion, ROME is energy efficient as a light bulb.

  • Matrix - It's Real!

    Within a ROME, space is designed and structured into tens of thousands of individual spaces for connections.

  • Passive Latching Connection

    A connection is mechanically latched in place without relying on electronics. Optical circuit will continue carrying services during power failures.

  • Optical Fidelity

    Optical performance to meet or exceed the industry standards in a consistent basis is the ultimate goal ROME delivers.

  • Sensors and Sensing

    Robotic autonomy depends on sensing of positions and outside environmental conditions. ROME has many built-in sensors.

Generations of Efforts for a Complex Problem

Courtesy of NTT illustrating the industry's need and attempt to create a robotic system in the early days.

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