THE LINK KIT

The Ultimate Modular Bus Architecture. Engineered for autonomous management and rapid payload integration.

Exploded View

Exploded View of Pilot Puck

Universal Subsystem Core

Centralizing the brains and utility grid for your LEO and GEO assets.

Autonomous GNC

Advanced Guidance, Navigation, and Control abstracted away so you can focus entirely on the mission. Capable of autonomous operations for several days without ground contact.

Power Distribution

An intelligent manifold and passthrough system for external power injection. Designed to support massive data throughput (10+ Gbps) for High-Performance Computing (HPC) payloads. Proprietary high-capacity generation systems in active development.

Thermal Baseline

Acts as a central thermal bus, providing a passthrough for external radiators to dissipate extreme waste heat from heavily constrained sensors and edge-computing AI. Proprietary deep-space cooling architectures in active development.

Dual-Mode Maneuverability & Survival

Mode 1: High-Thrust Sprint

Primary Propulsion

Optimized for rapid repositioning, high-delta V orbit raising, and tactical evasion. Built to meet strict USSF maneuverability requirements for contested environments.

Mode 2: Precision 6-DoF

Secondary System

Dedicated low-impulse control for fine-pointing, safe Rendezvous and Proximity Operations (RPO), and seamless multi-node docking integrations.

The Splinter Maneuver

Autonomous Threat Evasion

In the event of an unavoidable kinetic threat or localized debris field, clustered Link Kits instantaneously detect the vector, command a synchronized undocking, and rapidly scatter. Once the hazard clears, autonomous RPO systems reconvene and re-dock the cluster.

Multi-Modal Sensor Clusters

Find smaller, darker, and faster objects by distributing sensor modalities across an intelligent swarm.

By bolting different sensors (e.g., IR, RF, LiDAR) onto individual Link Kits, operators form distributed sensor clusters in orbit. These highly maneuverable nodes dynamically adjust their formation to optimize the combined field of view.

Leveraging onboard edge computing, clustered Link Kits fuse their high-partition data locally, achieving real-time change detection and drastically reducing kill-chain latency without waiting for ground-based processing.

Cluster Capabilities

  • Integrated sensor-computing packages
  • Persistent multi-modal tracking
  • On-orbit data fusion across distinct platforms

Tactical Response API

Machine-speed maneuver execution via standardized JSON API. Push commands from USSF ground control for immediate orbital adjustments.

{
  "command": "MANEUVER",
  "target_id": "PUCK-ALPHA-001",
  "delta_v": {
    "x": 0.5,
    "y": -0.2,
    "z": 0.1
  },
  "mode": "HIGH-THRUST",
  "priority": "TACTICAL",
  "timestamp": "[CURRENT_EPOCH]"
}

The Strongwall Standard

Open-source passive side specifications. Universal docking interface enabling interoperability across the orbital ecosystem.

Specifications

  • Docking Interface Standardized
  • Power Transfer 48V DC
  • Data Protocol Ethernet/IP
  • Cooling Interface Standardized
DOWNLOAD OPEN-SOURCE SPECS