Building the Utility Grid of Space

Unifying and providing maneuverability, intelligence, cooling, and power via our modular, open-source architecture so you can focus on the real mission.

DEFENSE-FORWARD SEE THE INEVITABLE

From Isolated Satellites to Adaptive Orbital Systems

Current architectures struggle to fuse sensors, process data in orbit, and respond at machine speed. Hamon addresses this with a modular stack that combines bus mobility, edge computing, and utility-grid scaling.

Core Architectural Platforms

Link Kit

Modular Mobility Manifold

  • ESPA & ESPA Grande standard integration (50kg - 400kg payload support).
  • 100 krad(Si) radiation tolerance for prolonged operations.
  • Minimum 10 Gbps data throughput for attached payloads.
  • Precision 6-DoF maneuvering with hardware-level data isolation.
TECHNICAL SPECS

Neuron

Tactical Edge Compute

  • Hardware-agnostic multi-modal sensor fusion (RF, IR, LiDAR).
  • Verified <5% false positive rate in predictive RSO threat analytics.
  • Calculates and executes direct maneuver overrides to the mobility bus.
  • Reduces kill-chain latency by 50% and operator workload by 25%.
TECHNICAL SPECS

Orbital Spine

Central Utility Backbone

  • Standardized Strongwall physical routing interface.
  • Autonomous distribution of power, cooling liquids, and propellants.
  • Zero-trust multi-factor authentication for docking assets.
  • Instant mechanical lockouts to prevent cascading cluster failures.
TECHNICAL SPECS

Why This Architecture Now

Operational Challenge

  • Mission timelines are delayed by bespoke bus and payload integration.
  • As the world looks up to orbital AI compute and military space operations, unification of docking and utility transfers has yet to be established at scale.
  • Disconnected systems degrade responsiveness in contested and high-noise conditions.

Hamon Approach

  • Integration-ready interfaces for bus, sensors, compute, and utility routing.
  • Onboard edge intelligence for predictive analytics and autonomous commanding.
  • Resilience through zero-trust isolation, autonomous load-shedding, and secure ARPO.

Phased Deployment Roadmap

Phase I

DAF STTR Validation

Initial feasibility studies and flight validation of the Link Kit mobility bus, supported by DAF STTR funding and academic partnerships.

Phase II

Mass Commercialization

Integration with standard launch dispensers (ESPA/Grande) and deployment of the universal payload adapter for private industry partners.

Phase III

Neuron Node Deployment

Introduction of the autonomous tactical edge-computing node, fusing multi-modal sensor streams and executing the Splinter Maneuver.

Phase IV

Orbital Spine Construction

Deployment of the centralized utility manifold to route power, data, and cooling liquids across a massive clustered orbital ecosystem.

Work With Hamon

We collaborate with defense organizations, research institutions, and integration partners to define feasibility, develop CONOPS, and transition toward prototype demonstrations.

REQUEST BRIEFING DISCUSS RESEARCH PARTNERSHIP