Enhancing high-speed communications systems with a carrier phase recovery
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Technology Overview
This carrier phase recovery module improves phase noise resilience and accuracy in single-carrier communication using soft data decisions and
maximum likelihood estimation. It outperforms traditional methods and is set for integrated circuit implementation to meet high-speed enterprise needs.
CATEGORY
TECHNOLOGY READINESS LEVEL (TRL)
High‑Speed Communications / Signal Processing
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Reliable Long-Range Vessel Communications:
Enhances carrier phase recovery in high phase-noise environments, improving the stability and clarity of ship-to-shore and ship-to-ship data links for navigation and safety.
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Resilient in Harsh Marine RF Conditions:
Maintains stable communications despite multipath reflections and onboard interference common in maritime environments.
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Supports High-Bandwidth Applications:
Enables lower error rates and higher data throughput for HD video streaming, offshore monitoring, and IoT sensor networks.
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Enables Next-Generation Digitalisation:
Provides low-latency, high-fidelity links essential for AI-enabled control systems, fleet operations, and predictive maintenance.
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Compatible Across Maritime Communication Systems:
Integrates with satellite, HF, and VHF platforms to improve data integrity across shipping, offshore energy, and coastal surveillance networks.
Maritime Use Cases

This technology improves phase noise resilience in communication systems, enhancing the accuracy and stability of satellite-based signals used for real-time vessel tracking and navigation.

The module can also support port operations that rely on automated crane systems, IoT sensors, and remote-control equipment by reducing signal errors and improving data accuracy.

In addition, the technology enhances single-carrier communication for submarines and deep-sea research systems, enabling more reliable data transmission in noisy underwater environments.
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