Hyfix Unveils Game-Changing Tech To Power Next Gen Unmanned Systems

Revolutionizing Unmanned Systems: HYFIX Launches Groundbreaking H1P Positioning, Navigation & Open-Compute Module

In a significant breakthrough for the unmanned systems industry, HYFIX Spatial Intelligence has launched its cutting-edge H1P Positioning, Navigation, and Open-Compute Module. This innovative solution integrates the company’s renowned H1 Autonomous Systems Chip into an industry-standard form factor, paving the way for simplified integration, improved reliability, and enhanced system performance.

At the forefront of this development is Mike Horton, CEO of HYFIX, who emphasizes the significance of the H1P module: “H1P is about bringing the core systems of a drone into one place. Instead of treating positioning, navigation, and compute as separate problems, we’ve integrated them at the silicon level. That simplifies integration, improves reliability, and gives developers more control over how their systems perform in the real world.”

The H1P module addresses the growing demand for domestic drone components, particularly in light of policy shifts such as the Federal Communications Commission (FCC) Covered List, which emphasizes trusted domestic suppliers. By utilizing the U.S.-designed H1 chip, engineers can leverage secure and scalable high-volume manufacturing within the United States, reducing reliance on non-U.S. vendors.

From a technical standpoint, the H1P module boasts dual RF ports supporting dual-antenna GNSS operation with over 800 hardware tracking channels. This enables compatibility with all major global navigation satellite systems, including Pulsar, a high-power, low-Earth orbit (LEO) navigation service from HYFIX. Bryan Chan, Co-founder and VP of Strategy at Xona, notes: “GNSS alone is no longer sufficient for modern unmanned systems operating in contested and degraded environments. With support for Pulsar’s high-power, authenticated signals, Hyfix is setting a new baseline for precision and resilience in a module ready for real-world deployment.”

To address the challenges posed by degraded environments or jamming attempts, the H1P module combines LEO signals with integrated Inertial Measurement Unit (IMU) sensor fusion. This enables accurate positioning even in situations where GNSS signals are compromised. The module also utilizes correction data from GEODNET to provide anti-spoofing and high-accuracy real-time kinematic (RTK) positioning.

The H1P’s dual-CPU architecture serves as an open-compute platform, making it compatible with the PX4 Autopilot ecosystem and running on the NuttX operating system. This provides onboard compute and I/O resources for system customization, allowing developers to tailor their systems to meet specific requirements. The module’s 17 × 22 mm surface-mount form factor is designed to be physically compatible with many existing GNSS modules currently on the market.

HYFIX Spatial Intelligence is now making its H1P samples and evaluation kits available to qualified customers. The company will demonstrate its technology at AUVSI Xponential 2026, where it will provide live demonstrations and process requests for evaluation kits.

Simplified Integration: By integrating positioning, navigation, and compute into a single module, developers can reduce integration complexity and focus on system-level performance. Improved Reliability: Consolidating multiple electronic subsystems into a single unit improves overall system reliability, reducing the risk of component failures or interference. Enhanced System Performance: The H1P module’s advanced technology enables more accurate positioning, navigation, and compute capabilities, leading to improved system performance and increased user confidence.

Customization Opportunities: The open-compute platform allows developers to customize the H1P module to meet specific requirements, enabling tailored system performance and functionality. Increased Flexibility: By leveraging the PX4 Autopilot ecosystem and NuttX operating system, developers can adapt their systems to a wide range of applications, from drones to robots and more.

A New Standard for Unmanned Systems: The H1P Positioning, Navigation & Open-Compute Module represents a significant milestone in the development of unmanned systems technology. By combining advanced positioning, navigation, and compute capabilities with an open-compute platform, HYFIX is setting a new standard for system performance and reliability.

As the unmanned systems industry continues to evolve, it’s clear that solutions like H1P will play a crucial role in shaping the future of drone technology. With its cutting-edge technology and commitment to innovation, HYFIX is well-positioned to address the growing demand for domestic drone components and enable more secure, scalable, and reliable system performance.

The launch of the H1P module marks an exciting new chapter in the history of unmanned systems technology, one that promises to revolutionize the way we design, develop, and deploy these complex systems. With its focus on simplified integration, improved reliability, and enhanced system performance, H1P is poised to become a leading solution for developers seeking to push the boundaries of what’s possible with unmanned systems.

The Future of Unmanned Systems: The launch of the H1P module represents a significant milestone in the development of unmanned systems technology. As the industry continues to evolve, it’s clear that solutions like this will play a crucial role in shaping the future of drone technology.

With its focus on simplified integration, improved reliability, and enhanced system performance, H1P is poised to become a leading solution for developers seeking to push the boundaries of what’s possible with unmanned systems.

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