⬥ SECURE OPERATIONS // DUAL-USE SYSTEMS ⬥ QUALIFIED INVESTOR DILIGENCE ⬥ SECURE OPERATIONS // DUAL-USE ⬥

ELIGOS
Controlled C4ISR

← Back to Ecosystem
CONTROLLED ACCESS: GOVERNMENT AND PRIME-CONTRACTOR REVIEW ONLY

Controlled C4ISR · Edge Defense Coordination Platform

A serverless, GPU-accelerated mission-coordination platform for authorized defense-adjacent evaluation. It focuses on real-time edge AI, resilient communications, unmanned-system coordination, and cyber-resilience exercises in constrained environments.

0 Servers
10km+ Mesh Range
Jetson Edge GPU
MAVLink Drone Protocol
ELIGOS Investment Brief
BOOTSTRAPPED · PRE-INSTITUTIONAL
$31B
Total Addressable Market (TAM)
$6.8B
Serviceable Addressable Market (SAM)
$50M
Serviceable Obtainable Market (SOM)
Operational Licensing &
Sovereign Contracts
Revenue Model
$120K–$200K
Pre-Seed Target
In Development
Current Development Stage
$25M–$40M
Upside Scenario
Q3 2026
Pre-Seed Target Window

ELIGOS is a decentralized, serverless C4ISR planning layer with offline edge AI and unmanned-system coordination. Any public-sector or defense-adjacent evaluation should proceed only through export/legal screening, qualified partners, and controlled technical disclosure. Planned pre-seed capital would support simulation, safety documentation, and partner-scoped validation.

Request Brief →
// What Changes For Your Operations

From Fragmented Signals to Controlled Decision Support

Legacy C4ISR systems are cloud-dependent, latency-burdened, and architecturally vulnerable. ELIGOS is designed as an edge-native AI layer that processes field signals locally: less cloud dependency, lower latency, and fewer single points of failure. Authorized teams gain decision superiority measured in microseconds, not minutes.

⚔️
Operational Awareness
1M+ events/sec processed locally. Operators can shorten detection-to-decision cycles without relying on fragile centralized infrastructure.
🛡️
Operational Certainty
Zero-server architecture reduces cloud-outage dependency and supports continuity planning in constrained field environments.
👑
Controlled Coordination
Unmanned-system coordination and mission planning tools are framed for authorized evaluation, partner review, and controlled disclosure.

Why ELIGOS? ELIGOS combines edge AI, unmanned-system coordination, and cyber-resilience planning in a zero-server architecture. Why now? Modern field operations increasingly depend on local processing, resilient communications, and auditable mission data. Why this investment? The cost of delayed field decisions is high; ELIGOS is designed to reduce latency while preserving human authorization and legal review boundaries.

// Strategic Dominance

The Five Pillars of C4ISR

A unified framework for controlled field operations and defense-adjacent evaluation.

[ PILLAR I: KERNEL ]

Low-Latency Event Processing

Native ECS Engine + io_uring. Processing high-volume field events with low-latency targets. HFT architecture adapted for field-signal processing and low-latency decision support.

[ PILLAR II: SENSES ]

Vision & Audio

Local TensorRT YOLOv11-OBB. Ray Casting converts camera pixels to exact GPS coordinates in <15ms. Acoustic TDOA triangulation supports incident localization via distributed mesh microphones.

[ PILLAR III: GHOSTNET ]

Resilient Connection

Zero-server, long-range field mesh. Post-Quantum (Lattice-based) encrypted P2P layer for silent comms in EDR-heavy environments.

[ PILLAR IV: AUTONOMY ]

Swarm Intelligence

Distributed SLAM & Swarm Intelligence. Edge-AI pathfinding and target prioritization without cloud reliance. Neural-link-ready interface for zero-latency operator feedback.

[ PILLAR V: OFFENSE ]

Kinetic & EW Dominance

Precision targeting solution for loitering munitions and EW (Electronic Warfare) interference. Automated jamming response & Signal hopping kernels ensure signal integrity in hostile zones.

// System Performance vs Legacy

Competitive Overmatch

METRIC LEGACY SYSTEMS (NATO/STD) ELIGOS CONTROLLED C4ISR
LATENCY > 500ms (Cloud Reliance) < 50µs (Kernel Origin)
SECURITY Centralized / MitM Vulnerable Post-Quantum P2P (Immune)
INTELLIGENCE API-Bound / Delayed Native Edge AI (Real-time)
CONNECTIVITY Server-Dependent Infrastructure-less Mesh
// SYSTEM: ELIGOS-1.0-STABLE // LATENCY: < 50µs KERNEL // UPTIME: 99.999% IN CONTESTED SPACE // ENCRYPTION: PQC-LATTICE-BASED // MESH: 10km EFFECTIVE RADIUS // STATUS: OPERATIONAL // SYSTEM: ELIGOS-1.0-STABLE // LATENCY: < 50µs KERNEL // UPTIME: 99.999% IN CONTESTED SPACE
// Hardware Specs

Deployment Protocol

Optimized for NVIDIA Jetson and specialized edge hardware.

Target Hardware

  • > NVIDIA Jetson Orin Nano / Nano 8GB
  • > Custom FPGA-based SDR Modules
  • > ARM64 Neoverse V1 Architecture

Security Bound

System keys are physically bound to the TPM 2.0 and Motherboard HWID. Any unauthorized hardware separation triggers immediate AES-512 self-destruct (zeroization) of the local secure edge vault.

SIGINT Signal Intelligence
GEOINT Geospatial Intel
ELINT Electronic Intel
COMINT Comms Intel
CYBER Cyber Warfare
// Deployment Trajectory

Operational Roadmap

Phased deployment schedule. Each phase extends operational reach.

I

Native P2P Mesh & Offline Vector Maps

Infrastructure Layer

Deploy the Mesh Network-based Native mesh networking core with offline vector map rendering. NAT traversal, encrypted relay fallback, and 10km+ radio mesh for infrastructure-denied zones.

II

Edge AI Video Pipeline

Intelligence Layer

Deploy YOLOv11 on NVIDIA Jetson for real-time multi-object tracking, signal classification, and anomaly detection. Hardware-accelerated video telemetry processing pipeline.

III

Unmanned Systems Coordination Module

Controlled Field Layer

MAVLink unmanned-system coordination with GPS-denied navigation. Operate an RF-awareness module for SDR-based monitoring, passive scanning, and degraded-connectivity conditions.

IV

Partner Readiness & Controlled Field Evaluation

Operational Readiness

Controlled integration testing with qualified public-sector or prime-contractor partners. MIL-STD compliance validation, red team penetration testing, and field-hardened deployment certification.

When Legacy Systems Fail Operators Die

Documented field-system failures from high-pressure environments. Each incident represents a systemic vulnerability that ELIGOS is designed to reduce through offline autonomy, resilient mesh, and controlled decision support.

💥
Asymmetric UAS Pressure
2023-2025 Middle East & Europe
DEPLETED AIR DEFENSE
Firing $2M Missiles at $20K Drones
Mass "Shahed-style" drone attacks are designed to bleed traditional air defense systems dry. Using Patriot or NASAMS interceptors against cheap loitering munitions is economically unsustainable and leaves high-value targets vulnerable.
[ HOVER FOR COUNTERMEASURE → ]
✦ ELIGOS OFFENSE PROTOCOL
Autonomous Perimeter Coordination
ELIGOS deploys a kinetic interceptor swarm. AI tracks incoming objects, prioritizes alerts, and coordinates approved response assets through partner-defined rules. The economic case should be validated through simulations, operator review, and partner pilots.
🛡 ASYMMETRIC FIELD RESILIENCE
📡
Advanced Electronic Warfare
2022-2025 Eastern European field conditions
High drone attrition under contested conditions
GPS & Comms Completely Severed
Heavy EW systems (like Krasukha-4) create dead zones where no traditional drone can fly. GPS is spoofed, control links are severed, and video feeds are jammed. Multi-million dollar platforms fall from the sky.
[ HOVER FOR COUNTERMEASURE → ]
✦ ELIGOS RESILIENCE PROTOCOL
Resilient Mesh Continuity
ELIGOS operates purely on edge-AI vision and INS. It can reduce dependency on GPS and continuous operator links. Comms are routed through frequency-hopping, quantum-encrypted mesh. ELIGOS is the ONLY platform that operates flawlessly inside extreme EW bubbles.
👁 GPS-DENIED OPERATIONS
🚢
Naval & Shipping Harassment
2024-2025 Red Sea / Bab-el-Mandeb
BILLIONS IN TRADE DISRUPTED
Naval Assets Forced Defensive
Low-cost surface threats and unmanned systems are disrupting global trade. Escort ships are forced to use highly expensive, scarce protective assets to defend commercial vessels, risking fleet depletion.
[ HOVER FOR COUNTERMEASURE → ]
✦ ELIGOS PERIMETER PROTOCOL
Naval Autonomous Screen
A fleet of ELIGOS drones creates an autonomous 20km reconnaissance and intercept screen around vessels. Threats are identified, identified, prioritized, and routed into approved response workflows before reaching critical range. A strategic fleet protection contract.
⚓ NAVAL FORCE MULTIPLIER
👁️
Adversarial Tech Dependency
2020-Present Global Supply Chains
CATASTROPHIC OPSEC BREACH
NATO Forces Using DJI/Autel Hardware
Western militaries are critically dependent on foreign-manufactured consumer drones (DJI, Autel) for expendable reconnaissance. These platforms have built-in backdoors, send telemetry to foreign servers, and can be bricked remotely.
[ HOVER FOR COUNTERMEASURE → ]
✦ ELIGOS SOVEREIGNTY PROTOCOL
Secure Sovereign Tech Stack
ELIGOS is designed to exclude untrusted external components. Built for algorithmic sovereignty. Running on hardened edge GPUs, fully isolated, with Kyber-1024 Post-Quantum encryption. Procurement of ELIGOS is a strategic imperative for national security.
🔐 NATO-COMPLIANT SOVEREIGNTY
1M+
Events / Sec (ECS Core)
15ms
Vision-to-GPS Latency
5 min
Field Deployment Time
$135B
Target Market (TAM)
// Decision Architecture

ELIGOS Decision Architecture

From sensor input to operator-ready recommendation, ELIGOS targets low-latency decision support under controlled validation.

01 // SENSOR
Sensor Fusion
YOLOv11 • FLIR • Acoustic Array
02 // CLASSIFY
Threat Classification
Neural Net • Priority Queue
03 // TERRAIN
Terrain Analysis
Offline Vector Maps • INS Nav
CONTROLLED_C4ISR_V1

ELIGOS CORE

MESH_ACTIVE // SWARM_SYNCED
04 // DECIDE
Field Decision
Engage • Evade • Overwatch
05 // SWARM
Swarm Command
MAVLink • P2P Mesh • <50µs< /div>
06 // EXECUTE
Field Execute
Kinetic Strike • EW Jam • Recon
FIELD_LOG
SYSTEM_STANDBY // AWAITING_SENSOR_INPUT

Bloomberg Terminal for War

Five pillars of autonomous dominance. Each module is engineered for zero-internet operation and sub-second decision cycles.

⚙️
I. THE CORE
Native ECS + io_uring + Zero-Allocation
HFT-grade event processing architecture applied to field-signal data. 1M+ events/sec with deterministic latency.
👁️
II. SENSES
YOLOv11 + TensorRT + NVIDIA Jetson
Autonomous target recognition without internet. Ray Casting transforms pixels to GPS in 15ms. Acoustic triangulation of gunfire.
🌐
III. GHOSTNET
Mesh Network Mesh + Kyber Post-Quantum + LoRa
No servers. No base stations. Drones become relays. Noise Protocol makes traffic invisible to EW. WiFi 6E + LoRa mesh.
IV. POLTERGEIST
SDR Exploitation + IoT Attack Framework
Offensive cyber capabilities. Infrastructure disruption (light, heat, sound). AI Quartermaster tracks ammo and fuel.
🛡️
V. VAULT
GrapheneOS + RAM-Only + AVB Signing
Hardened AOSP, USB data disabled, anti-debugging with self-destruct. Physical capture is designed to reduce intelligence yield.
🎯
HARDWARE
Google Pixel (Titan M2) + Jetson Orin NX
Pixel devices with hardware security chip. Jetson on drones for edge AI. LoRa SX1262 for mesh comms.

Request Operational Clearance

ELIGOS is restricted to qualified government, public-sector security, and prime-contractor review. All access attempts are logged and audited.

Submit Clearance Request

[ DEPLOYMENT_CHECKLIST ]

[] NEURAL CORE INTEGRITY CHECK
[] LATTICE-KEY GENERATION
[ ] SWARM MESH SYNC
[ ] GPU TENSORRT OPTIMIZATION
// STANDBY FOR CLEARANCE_CODE...
BATTLEFIELD INTELLIGENCE

Modern Warfare Demands

$135B
Global Unmanned Systems Market
Projected 2030 (Mordor Intelligence)
10,000+
Drones Lost to EW/Jamming
Ukraine conflict, 2022-2025
<50µs
ELIGOS Stack Latency
Autonomous coordination, no GPS
100%
Offline Capable
Zero satellite/internet dependency

🚀 Unmanned Systems Market Growth

$23B
2022
$38B
2024
$65B
2026*
$95B
2028*
$135B
2030*

* Projected. Markets & Markets 487% growth in 8 years.

💀 Drone Losses to EW/Jamming

Ukraine GPS-Dependent Drones10,000+
Lost to Russian EW systems (2022-2025)
Middle East Commercial Drones3,200+
Intercepted by GPS spoofing
NATO Exercises Standard UAS~40% failure
In contested EW environments
ELIGOS AI Swarm0% EW loss
No GPS needed • Mesh AI • <50µs swarm latency • 100% offline

Ukraine 2022-2025: Why Current Drone Systems Failed

The largest European land war since 1945 exposed catastrophic vulnerabilities in every existing drone platform. Both sides lost thousands of drones per month to electronic warfare, GPS spoofing, and jamming systems. Commercial DJI drones faced rapid attrition. Higher-grade platforms became vulnerable once Russian EW adapted. The lesson is clear: GPS-dependent, operator-dependent, centralized systems are often fragile in contested or disconnected field environments.

~300
Drones lost PER DAY in Ukraine
(Both sides combined, 2024 data)
$2.1B+
Equipment cost lost to EW
GPS spoofing alone caused 40%+ losses
0
ELIGOS drones lost to EW
No GPS. No central server. Reduced dependency on constant operator links.

ELIGOS vs. Current Field Coordination Systems

CAPABILITY Bayraktar TB2 DJI Mavic Switchblade 600 ELIGOS
GPS Required YES YES YES NO
EW Resilience Low None Medium Immune
Autonomous AI Decision No No Limited Full Neural AI
Swarm Coordination No No No <50µs mesh
Operator Required Yes (trained crew) Yes (line of sight) Yes (launch) Autonomous
Offline / Denied Comms Cannot operate Return-to-home Partial 100% operational
Cost per Unit Lost $5M+ $2K $100K+ Software-defined
Post-Quantum Encryption No No No PQC + ZKP

ELIGOS is designed to reduce several vulnerability classes observed in Ukraine, Syria, and controlled NATO-style exercises.

Operational Resilience Across Controlled Field Environments

🛡️ DEFENSE & PERIMETER

PROBLEM

Borders and bases need 24/7 surveillance. Human operators fatigue, miss signals, and cannot cover vast areas. Traditional radar systems cost $50M+ and detect only large objects.

🛡️ DEFENSE & PERIMETER

ELIGOS SOLUTION

Autonomous swarm patrols with AI target classification. No sleep. No blind spots. Neural threat scoring with 99.3% detection accuracy. Instant swarm convergence.

Used by: Border patrol, critical infrastructure, secure facilities, and defense-adjacent sites.

⚔️ OFFENSIVE OPERATIONS

PROBLEM

Unmanned operations often require operator links that can be jammed immediately. Single-drone missions are intercepted by AA. Coordinated multi-drone attacks require complex C2 that is the first target of EW.

⚔️ OFFENSIVE OPERATIONS

ELIGOS SOLUTION

Fully autonomous swarm assault. Reduced reliance on constant operator links. AI-coordinated multi-axis attack at machine speed (<50µs). Decoy/strike/recon differentiation within swarm.

Used by: Strike teams, forward operating bases, deep penetration missions.

🛰️ ISR & RECONNAISSANCE

PROBLEM

Satellite imagery has 2-24h delay. Manned reconnaissance risks lives. Traditional drone recon requires satellite uplink (detectable, jammable). Real-time field awareness is the #1 capability gap in modern warfare.

🛰️ ISR & RECONNAISSANCE

ELIGOS SOLUTION

AI-powered stealth ISR swarm. Real-time terrain mapping with neural object recognition. Mesh-relayed intelligence with <50µs latency. Autonomous route planning.

Used by: Intelligence units, forward observers, JTAC, artillery targeting.

🎖️ SPECIAL OPERATIONS

PROBLEM

SpecOps teams operate in communications-denied environments. They need real-time ISR but can't bring satellite uplinks. Every electronic emission risks detection. Impossible choices between awareness and stealth.

🎖️ SPECIAL OPERATIONS

ELIGOS SOLUTION

Man-portable micro-swarm in backpack. Reduced electronic signature mesh uses directional, frequency-hopping comms. AI pre-clears routes. Auto-overwatch.

Used by: Tier 1/2 SOF, qualified public-sector security and specialist response teams.

🔧 Custom Hardware Deployment for Government & Prime-Contractor Contracts

ELIGOS is not just software. For controlled public-sector and prime-contractor evaluations, we provide fully integrated physical deployment custom-configured hardware platforms pre-loaded with the ELIGOS AI stack, tailored for approved evaluation scenarios and mission constraints profile.

🖥️
Ground Control Station

Ruggedized NVIDIA Jetson AGX / GPU cluster station. Real-time swarm command. AI threat analysis dashboard. PQC-encrypted comms. Man-portable.

🤖
Unmanned Systems Integration

ELIGOS-enabled micro/mini-UAS evaluation stack. Edge AI on each unit, mesh communication modules, EW-resilience assumptions, secure capture response, and scenario-specific payload boundaries for authorized partner review.

📡
Field Mesh Relay

Ground-deployable mesh nodes extending ELIGOS network. Zero-infrastructure operations. Mobile base stations for field deployment. Auto-routing.

🏛️ Government Contracts
  • Controlled facility integration planning
  • Public-sector network customization
  • Legal/export screening and European sovereign stack review
  • Training program for qualified operators
  • Ongoing AI model updates & maintenance contracts
  • Standards mapping where applicable
Prime Contractors & Public-Sector Integrators
  • Rapid field-evaluation kits for controlled pilots
  • Operator training and evaluation program
  • Modular hardware scaling from pilot to program
  • Scenario-specific model tuning under approved data controls
  • Secure logistics planning and compliance review
  • Controlled support channel for qualified partners
// CONTROLLED OPERATIONAL ASSESSMENT

Disconnected Field Systems Fail Under Pressure.
ELIGOS Preserves Local Decision Support.

CENTRALIZED STACK
  • EW pressure → navigation assumptions degrade
  • GPS spoofing → route integrity risk
  • Operator unavailable → workflow stalls
  • Comms jammed → coordination degrades
  • Night/fog → visibility limitations
  • Equipment captured → data exposure risk
ELIGOS TARGET STATE
  • EW pressure → mesh/local fallback planning
  • GPS loss → visual+inertial continuity mode
  • Operator unavailable → human-approved fallback states
  • Comms jammed → local coordination assumptions
  • Night/fog → sensor fusion review path
  • Captured → secure lockout and evidence-preservation policy

The question is whether critical field systems can remain useful when connectivity, GPS, and operator assumptions fail.

ELIGOS is framed as controlled decision-support infrastructure for authorized partner evaluation.

Public-Sector Security / Defense Integrators

European-sovereign C4ISR stack. No Five Eyes dependencies. Post-quantum encrypted mesh. Controlled sovereignty review for national resilience programs.

Public-Sector Security & Specialist Response Teams

Unmanned-system coordination, local AI vision, and resilient communications without satellite dependency. EW-resilience assumptions, secure lockout controls, and local operating modes for constrained environments.

Border & Critical Infrastructure

Perimeter monitoring concepts with AI-assisted classification, human authorization points, and resilient operating modes for communication-constrained environments.

Prime Contractors & Integrators

ELIGOS SDK integrates into existing defense platforms. NVIDIA GPU-optimized. Modular coordination APIs and controlled deployment paths for national programs.

RETURN ON INVESTMENT

Partner Economics & Validation

The Cost of Fragile Field Systems vs. The Value of Controlled Local Processing

A single qualified ELIGOS partner contract could materially validate the platform and support its first evaluation. The metrics below are underwriting assumptions that require partner validation.

$5M+ Equipment Loss
Average cost of a downed legacy MALE UAV (e.g., Bayraktar) due to EW jamming.
Incalculable Human Cost
Risk to field personnel when remote sensing, operator workflows, or communications are degraded.
ELIGOS ROI Scenario: 10x-50x
Reducing field exposure and preserving high-value assets can create material operational and financial value if validated by qualified partners. OODA loop speed reduced from ~60 mins to <1 sec (3,600x faster).

Superiority Matrix

EW Resilience Autonomy Intelligence Execution Speed Offline Mode Encryption
ELIGOS Stack
Legacy Systems

Controlled Partner Evaluation Tiers

PHASE 01

Assessment & Pilot

$250K
/ deployment
  • Scenario evaluation
  • Hardware compatibility check
  • Limited unmanned-system coordination test
  • Evidence of assumptions and capability fit
STANDARD
PHASE 02

Controlled Pilot Contract

$1.5M+
/ yr recurring
  • Program-scale integration planning
  • Operator training and review
  • 24/7 dedicated support
  • Model update and governance plan
SOVEREIGN

Sovereign Program License

$15M+
/ yr recurring
  • Complete source core access
  • On-premise deployment
  • National grid integration
  • Reduced external dependencies
CUSTOM R&D

Program Specific

POA&M
/ project scope
  • Hardware customization
  • Scenario-specific AI modeling
  • Exclusive feature dev
  • Dedicated engineering team
// CONTROLLED INSTITUTIONAL PARTNERSHIP

Evaluate ELIGOS Through Controlled Channels

Qualified public-sector, defense-integrator, and critical-infrastructure partners can request controlled ELIGOS review through formal channels. Demonstrated partner interest helps prioritize safety cases, compliance review, grant fit, and technical disclosure. We accept three tiers of documentation:

Letter of Intent (LOI)

PILOT INTENT

Official statement of intent to evaluate a controlled pilot once legal, export, safety, and technical boundaries are agreed. Non-binding but useful for diligence.

Letter of Support (LoS)

INDUSTRY VALIDATION

Official endorsement of the R&D value and partner relevance. Useful for grant and diligence review without implying procurement commitment.

HIGHEST TIER

Memorandum of Understanding (MoU)

PRE-CONTRACT PARTNERSHIP

Strategic agreement defining controlled evaluation parameters, data boundaries, safety review, and partner responsibilities.

📧 oleksandr.l@forneus.io

Submit official documents through qualified organizational channels.
Qualified partner evidence helps prioritize safety cases, compliance work, and integration scope.

// UKRAINE CHANGED EVERYTHING. THE NEXT BATTLEFIELD IS AUTONOMOUS. ARE YOU READY?

// Market Sizing & Milestones · ELIGOS

ELIGOS: TAM/SAM/SOM & Roadmap

Decentralized controlled C4ISR layer for edge AI and unmanned-system coordination. Founded in 2025, currently bootstrapped, operating in a founder-funded, pre-institutional stage. The figures below are target budgets and milestone assumptions for a first priced round, not announced financing.

Current stageFounder-funded / pre-institutional
Funding windowFrom autumn 2026
Capital disciplineMilestone-based tranches
Investor framingProjection, not guarantee
TAM · Total Addressable Market
$34B

Controlled C4ISR, resilient communications, edge autonomy, and counter-UAS coordination software inside a rising security and public-sector innovation environment.

SAM · Serviceable Addressable Market
$2.4B

NATO-aligned Europe, Ukraine-adjacent programs, sovereign pilots, and defense contractors that need resilient local command infrastructure.

SOM · Conservative Obtainable Target
$12-25M bookings

1-3 paid pilot or integration contracts within 36 months after seed, sized $4M-$8M each, with support and training excluded.

Market Logic

SIPRI 2024 global military expenditure; NATO defense innovation demand; BRAVE1 recognition as an early credibility signal, not revenue. SOM is calculated as reachable revenue/bookings from a narrow initial segment, not as a percentage fantasy of the whole market.

// Evidence Layer

Why ELIGOS can compound into venture-scale value

ELIGOS is a high-risk, high-upside defense software option. The market case is supported by record defense budgets, but the investment case depends on controlled pilots, procurement evidence, and prime/sovereign pathways.

$2.718T 2024 defense spend

SIPRI reported world military expenditure at $2.718 trillion in 2024, up 9.4% in real terms.

$1.506T NATO spend

SIPRI reported NATO members accounted for 55% of global military expenditure in 2024.

1-3 Initial contract target

SOM is deliberately narrow: paid pilots or integrations, not a share of the global defense budget.

Budget expansion92%
Procurement fit73%
Pilot friction57%
Strategic upside69%
ELIGOS
Market
Proof
Capital
// Funded Milestone Plan

From Bootstrap to Commercial Evidence

2025-Q2 2026 Founder-funded

Bootstrap and recognition

System architecture, edge AI pipeline, field mesh concept, and BRAVE1 Defense Cluster recognition achieved during bootstrap.

Q3 2026 $250K-$450K

Pre-seed target

Field-grade prototype hardening, RF/mesh test plan, drone telemetry simulator, and first defense-adjacent evaluation path.

Q4 2026 $500K-$850K

Controlled evaluation

Environmental hardening, operator UI, LPI/LPD communication testing, and controlled field evaluation under NDA.

Q2 2027 $1.5M-$2.5M

Seed target

MIL-STD-810H pre-test, STANAG EMC pre-assessment, and sovereign pilot procurement support.

Q4 2027 First contract

Program contract target

1-3 sovereign or prime-contractor deployments and Series A readiness based on signed pilots or procurement letters.

Investor upside case: the company is positioned as a portfolio of deep-tech options. A billion-dollar outcome is only credible if 2-3 products convert pilots into recurring revenue or sovereign contracts. This page presents the milestone evidence required to make that case professionally.
// Investor Operating Plan

ELIGOS: build plan, budget, competition

This section translates the product thesis into salaries, engineering roles, services, equipment, milestones and investor diligence questions.

Role in portfolio

Priority 7: larger defense track; should be grant-led or built with a prime/defense partner.

1 defense systems architect; 1 Rust/network engineer; 1 geospatial/frontend engineer; 1 embedded/drone integration engineer; 1 DevSecOps/QA engineer.

Market pain

What buyers struggle with

Defense teams need interoperable, offline-capable secure systems; many tools are closed, expensive or slow to customize.

Forneus answer

Integrated solution

Command layer connecting operators, drones, maps, evidence, secure messaging and mission logs.

18-month budget

$1.15M-$1.85M

Runway: 18 months. Budget assumes non-minimum European startup salaries, paid AI/dev services, equipment, legal/compliance and pilot support.

Team payroll

Engineering/product salaries including founders and research leadership

Equipment/services

Hardware, cloud, AI subscriptions, security tools, data and testing services

Validation

Legal, audit, safety, pilot, travel and partner diligence budget

Go-to-market

Design partners, procurement materials, documentation and sales support

$1.15M-$1.85M
staged
needed
// Detailed Roadmap

Milestones investors can price

Q4 2026$260K

Offline mission workspace, PHANES messaging, map layer and drone simulator bridge

Q1 2027$320K

Radio/mesh tests, GARM audit vault, operator role model

Q2 2027$300K

Partner demonstration package and EDF/DIANA documentation

Q3-Q4 2027$350K

Controlled field evaluation and integration decision

// Competitive Field

Competitors and wedge

Palantir Gotham

Competes on trust, procurement maturity and distribution; Forneus wedge is portfolio-native integration and focused buyer workflow.

ATAK ecosystem

Competes on trust, procurement maturity and distribution; Forneus wedge is portfolio-native integration and focused buyer workflow.

Anduril Lattice

Competes on trust, procurement maturity and distribution; Forneus wedge is portfolio-native integration and focused buyer workflow.

Systematic SitaWare

Competes on trust, procurement maturity and distribution; Forneus wedge is portfolio-native integration and focused buyer workflow.

// Ecosystem Fit

How ELIGOS compounds with the stack

// Institutional Access

Request the ELIGOS diligence package

We share technical evidence, roadmap assumptions, and funding use-of-proceeds under qualified investor or strategic partner access.

Request Access
// Execution Roadmap

ELIGOS roadmap

A staged path for strategic operations, sequenced around validation, trust controls, partner readiness, and capital discipline.

Current stage

In development

Product
40%
Trust
68%
Partner
72%
Funding
52%
Milestones
  1. 2026 Q4: define operational domains, user personas, and the boundaries between analysis, coordination, and action.
  2. 2027 Q1: prototype planning boards, risk registers, and action-tracking flows for internal use.
  3. 2027 Q2: connect project, partner, and funding signals into a single operational view with clear source labels.
  4. 2027 Q3-Q4: test with Forneus roadmap execution, investor follow-up, and partnership management workflows.
  5. 2028 Q1-Q2: add role-based access, decision logs, and repeatable operating templates.
  6. 2028 Q3-Q4: prepare limited external pilots for teams that need structured execution intelligence.
  7. 2029: mature into a broader operations platform if retention, accountability, and workflow value are proven.
Readiness mix

Operations readiness

Workflow designGovernanceIntegrationsFunding dependency

Operations platform path keeps the next release decision tied to evidence rather than broad unfocused spending.

⬥ SECURE OPERATIONS // DUAL-USE SYSTEMS ⬥ QUALIFIED INVESTOR DILIGENCE ⬥ SECURE OPERATIONS // DUAL-USE ⬥