Anvyom is pioneering optomechanical inertial sensors that deliver navigation-grade performance in tactical-grade size and cost, enabling the next era of autonomous aerospace systems.
When navigation fails, missions fail. We're building the sensors that don't blink.
Modern aerospace missions demand more: longer endurance, GPS-denied operation, autonomous flight. But inertial navigation sensors haven't kept pace.
The constraints are severe:
MEMS sensors are small and affordable but lack precision (5-30°/hour drift). Fiber-optic and ring-laser gyroscopes are precise but bulky and expensive. There's no middle ground — until now.
We're building a fundamentally new class of inertial measurement units using cavity optomechanics and integrated photonics to break the performance-size-cost tradeoff.
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Orders of magnitude better bias stability
Our optomechanical architecture achieves strategic-grade bias stability in a chip-scale form factor — measuring drift in meters, not kilometers.
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Compact & cost-effective
Integrated photonics enables navigation-grade performance in tactical-grade size and cost, opening new applications.
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Mission-ready reliability
Designed from the ground up for aerospace environments: temperature extremes, vibration, shock, and long-term stability.
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By coupling mechanical motion to light in ultra-high-Q photonic cavities, we measure acceleration and rotation with unprecedented sensitivity. This isn't incremental improvement — it's a new measurement paradigm that bypasses the fundamental limits of conventional architectures.