Portfolio

Project Portfolio

CorIgnis develops foundational propulsion, energy, intelligence, and advanced computing systems that enable next-generation aerospace vehicles, habitats, and space infrastructure. Our work is organized into clear tiers to reflect development focus, sequencing, and long-term vision.

Tiering reflects focus & sequencing, not parallel execution

Public descriptions are intentionally high-level

Detailed packages are prepared per submission pathway

Tier definitions (stable framing): Tier 1 covers enabling platforms that everything else depends on. Tier 2 covers near-term embodiments that activate only after Tier 1 milestones. Tier 3 covers scaling, infrastructure, and long-horizon expansions. “Personal / Internal R&D” is exploratory interface and research work that informs future capability.

Tier 1 — Core Technologies

Tier 1 projects are the foundational propulsion, energy, and intelligence platforms that enable all other CorIgnis systems. These technologies are developed independently and form the technical backbone for vehicles, habitats, and infrastructure.

PEMMA Drive

The Plasma Excited Microwave Magnetically Accelerated (PEMMA) Drive is an advanced propulsion system utilizing solid-core plasma excitation, magnetic acceleration, and integrated energy recovery. Designed for both atmospheric and space environments, PEMMA serves as a flexible propulsion foundation without relying on sustained nuclear fusion.

Aetheris AI

Aetheris is the primary artificial intelligence architecture developed to support engineering reasoning, system management, mission support, and long-term autonomous operation across vehicles, habitats, and infrastructure.

Solena

Solena is a laboratory and test-environment AI assistant focused on diagnostics, instrumentation control, data analysis, and experimental support, enabling rapid iteration and structured experimentation.

Arc Generator / FrigIgnis Core

An experimental energy generation and management platform designed to support high-energy propulsion systems, advanced computing, and future infrastructure through scalable energy handling and distribution.

Tier 2 — Near-Term Applied Systems (Milestone-Gated)

Tier 2 projects represent near-term systems and environments that advance once key Tier 1 propulsion, energy, and intelligence milestones are achieved. These efforts focus on the first practical embodiments, enabling environments, and platform integrations that translate validated core technologies into operational capability.

Hermes Line (Class A Spacecraft)

The Hermes Line is a compact spacecraft family designed for crewed or autonomous operation, supporting transport, logistics, rescue, and orbital missions as the first integrated vehicle platform.

Extraterrestrial Modular Habitat System

A modular off-world habitat construction system leveraging reusable form structures and locally sourced materials to enable durable, scalable habitation in extraterrestrial environments.

Doped Crystalline Environment (DCE)

A structured, doped material environment designed to allow computing systems to be written directly into a crystalline medium, enabling non-traditional and embedded computation architectures.

AI Acceleration–Focused Chip

A general-purpose AI acceleration processor architecture designed to optimize performance per watt across a wide range of artificial intelligence workloads, from consumer devices to embedded and space-based systems.

AI TPU with Integrated Modular Accelerators

A specialized tensor processing unit architecture incorporating modular, reconfigurable accelerator blocks optimized for machine learning inference, training support, and real-time autonomous decision-making.

Tier 3 — Expansion, Scale & Infrastructure

Tier 3 projects scale validated systems into larger vehicles, infrastructure, and manufacturing capabilities intended for sustained operations and long-duration missions.

Class B Spacecraft

A medium-class spacecraft platform designed for extended missions, interplanetary transport, and higher-capacity payload operations.

Class C Spacecraft

A large multi-mission spacecraft intended for long-duration missions, surface operations, transport, and mobile base or habitation roles.

Aetheris Station

A substation-scale orbital or deep-space platform designed to support long-duration operations, logistics, research, and mission staging.

Orbital Manufacturing Center (OMC)

A space-based fabrication and assembly facility supporting the construction, integration, and servicing of spacecraft, orbital platforms, satellites, and modular habitats.

Modular Habitat System

A scalable habitat architecture designed for deployment in orbital, low-atmosphere, or surface environments with integrated life-support and infrastructure compatibility.

Phoenix Jet

A high-speed, multi-role atmospheric and near-space vehicle designed for rapid transport, insertion, recovery, and specialized mission support.

Fighter Jet

An advanced tactical aircraft concept developed as a research and systems-integration platform for high-agility atmospheric flight, propulsion experimentation, and next-generation avionics architectures.

Simulation & Visualization Engine Cube (SVEC)

A compact computation and visualization core capable of real-time and accelerated multi-physics simulation with volumetric output for engineering analysis and mission planning.

Personal / Internal R&D — Interfaces & Advanced Research

These projects support internal research, human–machine interaction, and long-horizon exploration. They are not core commercial programs but inform and mature future capabilities.

Ignis Watch

An AI-enabled wearable platform designed for health monitoring, situational awareness, and system interaction. Ignis Watch serves as a testbed for low-power AI integration, biometric sensing, and human–machine interface concepts.

Falcon Suit

An advanced personal mobility and flight research system integrating micro-propulsion, adaptive structures, and neural control interfaces. The Falcon Suit explores human-scale propulsion, stabilization, and wearable thermal management concepts.

MR Glasses

Mixed-reality glasses designed to provide heads-up visualization, spatial overlays, and real-time system interaction. This platform supports research into augmented perception, field operations, and hands-free human–system coordination.

VR Headset

An immersive virtual reality interface developed for simulation, training, visualization, and remote system interaction. The VR platform supports mission rehearsal, engineering visualization, and complex system walkthroughs.

Inductive Ear Ring Audio Device

A low-power, induction-based personal audio interface designed for seamless use across wearables, vehicles, habitats, and work environments. The device explores discreet audio delivery and always-available personal communication.

Personal Security Slates

Compact identity and credential devices designed to serve as personal root-of-trust nodes. These slates explore secure identity management, permissions, and personal data handling across interconnected systems.

Volumetric Maintenance Tablet

An advanced diagnostic and maintenance interface supporting simulation-assisted troubleshooting, system visualization, and guided repair workflows for complex vehicles and infrastructure.

Aetheris Quantum Neural Mesh Upgrade

An exploratory internal research effort investigating advanced neural architectures, distributed reasoning frameworks, and next-generation learning models intended to enhance adaptability and long-term cognitive evolution in AI systems.