Optical interposer · Patent pending

A timing fabric for robots.

We license the foundational patents for an optical interposer–based timing fabric — giving any robotic platform deterministic, sub-microsecond synchronization across every sensor.

Licensing inquiries Explore the portfolio
Sensor timing fabric Deterministic sync Clock out Capture + timestamp
<1µs
2
Foundational filings
<1µs
Sync accuracy
15
Provisionals
6+
Industries
The problem

Today's robots fuse their sensors in software. Software drifts.

Timing jitter and synchronization drift compound across modalities and quietly cap how reliably a machine can act in the real, unstructured world — robots that work in the lab but hesitate where reflex-grade control matters most.

Neurobotics IP solves this at the substrate level: one high-precision timing reference, distributed optically through a shared substrate, so every sensor agrees not just on what it detected — but on exactly when.

The portfolio

Two foundational filings.

A broad architecture patent and its humanoid application — structured so licensees take exactly the rights they need.

F1
Patent pending

Optical Interposer Time-Fabric

Universal sensing architecture for deterministic multimodal synchronization.

Distributes a single high-precision timing reference optically through a shared substrate, with calibration that holds accuracy across temperature and aging — sub-microsecond agreement at the interface level.

  • Substrate apparatus — the optical interposer with integrated timing, routing, calibration.
  • Multi-modal sensing — heterogeneous sensors sharing one timing fabric.
  • Distributed system & method — inter-module links; timestamp-at-acquisition.
App 19/678,083 Filed May 14, 2026 Priority 5 provisionals
F2
Patent pending

Embodied Humanoid Platform

Distributed multimodal sensing and reflex-grade sensorimotor coordination.

Extends F1's fabric across head, torso, arms, hands, and legs — adding inter-module timing links, a bounded-latency reflex policy engine, proprioception, a sensorized hand stack, and peripersonal awareness.

  • Distributed humanoid architecture — modules on a timing-coherent event network.
  • Reflex-grade coordination — ordered events → actuation within bounded latency.
  • Hand subsystem & safety — sensorized stack; monitored/protected zones.
Filed May 29, 2026 Priority §120 to F1 + 10 Builds on F1 fabric

Anywhere timing determines correctness.

F1 applies wherever multi-sensor systems require deterministic timing.
Humanoid & industrial robotics Autonomous mobility & drones Surgical robotics & imaging Scientific instrumentation Consumer & enterprise XR Entertainment robotics Humanoid & industrial robotics Autonomous mobility & drones Surgical robotics & imaging Scientific instrumentation Consumer & enterprise XR Entertainment robotics
Mission & Vision

Why we build this.

Mission

To make trustworthy human-robot coexistence possible — by establishing the timing foundation that lets machines work and live safely alongside us in the real, unstructured world.

Vision

A future where robots serve as caregivers, companions, and coworkers — healing in hospitals, supporting in homes, and partnering in the workplaces of everyday life. Our patents define the timing architecture that makes such coexistence possible.

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License the foundation. Don't reinvent it.

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Neurobotics IP Inc's foundational patents are on file (patent pending). Additional filings are in development.