// Tri-Domain Autonomous Systems

One
System.
Every
Domain.

TEURUS engineers autonomous platforms and unified control intelligence for air, ground, and maritime operations — built to perform in contested, GPS-denied, and electronically hostile environments where conventional systems fail.

Explore the Platform Request Briefing
3DOMAINS
Air · Ground · Maritime
1PLATFORM
Unified Control System
AIPOWERED
Autonomous Decision Layer
EWHARDENED
Electronic Warfare Resilient

01 — Operational Domains

Three Dimensions.
Total Coverage.

TEURUS platforms operate across all three physical domains — air, ground, and maritime — through a single unified command architecture. Each domain is fully integrated: sensors, telemetry, and control signals flow through one encrypted backbone, enabling true multi-domain coordination.

01
Air Domain
Multi-rotor and fixed-wing UAVs executing autonomous surveillance, logistics, reconnaissance and precision payload delivery. Capable of BVLOS operations in complex and denied airspace, coordinated with ground and maritime assets in real time.
Multi-rotor UAVFixed-wing BVLOSSwarm-capableEW-hardened
02
Ground Domain
Wheeled and tracked unmanned ground vehicles for all-terrain navigation, persistent surveillance, logistics support and force protection. AI-driven obstacle avoidance and autonomous path planning allow operation in urban, off-road and hazardous environments without continuous operator input.
UGV WheeledUGV Tracked All-terrainAI navigationSemi-auto
03
Maritime Domain
Autonomous surface and underwater vehicles for coastal patrol, port security, hydrographic survey and critical infrastructure inspection. Built to operate in open-sea conditions with encrypted communications and long-endurance mission profiles requiring minimal crew intervention.
USV SurfaceUUV Underwater SonarCoastal patrolLong-endurance
360°
Situational Awareness
Comms Redundancy
<50ms
Control Latency
99.9%
Platform Uptime Target

02 — Control Architecture

Unified Command.
Every Platform.

Air
Ground
Sea
💻GCS
CTRL HUB
01
Single-Pane Mission Control
All air, ground, and maritime assets appear on one unified operational picture. Operators manage entire multi-domain missions from a single interface — no platform-switching, no context loss, no gaps in situational awareness.
02
Real-Time Telemetry & Video
Live encrypted telemetry streams from all active platforms are aggregated, timestamped and correlated. Dual EO and thermal video feeds are displayed simultaneously with auto-switching based on mission phase and environmental conditions.
03
Autonomous Mission Planning
3D map-based route planning with terrain-awareness, geofence enforcement and dynamic re-routing. The AI mission planner continuously evaluates conditions and proposes or executes course corrections — reducing operator cognitive load under stress.
04
Dual-Redundant Communications
Trelisware frequency-hopping RF mesh and Starlink LEO satellite operate simultaneously as parallel data channels. Automatic seamless failover means a jammed or lost link never results in platform loss — the backup channel is already active.
05
Rugged GCS — Field-Ready Terminal
MIL-SPEC Getac rugged tablet with integrated dual joysticks, daylight-readable display, and mission software pre-loaded. Deployable in under 5 minutes with no external infrastructure required — one operator, full multi-domain authority.

03 — Artificial Intelligence

AI at the
Decision Edge

TEURUS integrates machine intelligence at every layer of the autonomous stack — from sensor fusion and navigation to mission planning and threat response. AI is not a feature; it is the operational backbone that allows our platforms to act, adapt, and survive without continuous human input.

🧠
Autonomous Decision Layer
Onboard AI continuously processes sensor data, mission parameters, and environmental conditions to make real-time navigation and tactical decisions — without waiting for operator commands. Operates in full comms-loss scenarios.
👁
Computer Vision & Target Recognition
Deep-learning vision models process EO and thermal streams in real time. Detects, classifies, and tracks objects of interest with high accuracy across variable lighting, weather, and camouflage conditions.
🗺
AI Mission Planning & Re-routing
Predictive mission planner generates optimal multi-platform routes, dynamically adjusts to emerging threats, weather changes, and platform status — proposing updated plans to operators or executing autonomously as authorised.
📡
Sensor Fusion & Situational Awareness
Multi-source sensor fusion combines GNSS, optical flow, IMU, radar, and acoustic data into a single coherent state estimate. The system maintains accurate position and heading even when individual sensors are degraded or spoofed.
Anomaly Detection & Predictive Maintenance
AI monitors platform health in flight — detecting anomalous vibration, power draw, thermal signatures, and communication patterns. Predictive alerts are surfaced before failures occur, enabling proactive maintenance scheduling.
🤝
Swarm Coordination
Distributed AI enables multiple TEURUS platforms to self-organise into collaborative swarms — assigning roles, deconflicting airspace, sharing sensor data, and adapting collectively to mission changes without centralised orchestration.

04 — Electronic Warfare Resilience & Security

Hardened to
Operate Anywhere.

GPS SPOOF
RF JAM
SIGNAL INT.
CYBER ATK
🛡
PROTECTED
RESILIENT
🛰
Anti-Jam / Anti-Spoof GPS
Multi-constellation GNSS receiver with hardware-level anti-spoofing and adaptive nulling antenna. Detects and rejects spoofed signals, maintaining accurate navigation under active EW attack.
👁
GPS-Denied Navigation
When GNSS is lost, optical flow, visual odometry and inertial dead-reckoning maintain platform stability and mission continuity. No GPS — no problem. Autonomous operations continue uninterrupted.
📡
Frequency-Hopping RF (Trelisware)
Military-grade tactical mesh network using spread-spectrum frequency hopping. Resistant to broadband jamming. Supports multi-node relay for extended range and network resilience in contested RF environments.
🔒
End-to-End Encrypted Datalinks
All telemetry, video, and command traffic is encrypted at the hardware level. Authentication prevents command injection. Data integrity checks detect and reject tampered packets before they reach flight-critical systems.
Hardened Flight Controller
Redundant IMUs with voting logic. EMI-shielded electronics. Safe-return and autonomous hold modes engage automatically if communication is disrupted — ensuring platform recovery even under total link loss.
🌐
Starlink Satellite Backup
Starlink provides a geographically independent communications layer. If terrestrial RF is fully jammed, satellite uplink maintains command and telemetry continuity over global LEO coverage with low latency.

05 — Reliability & Innovation

Engineering
Uncompromising Reliability

🔋
Solid-State Battery Technology
Next-generation solid-state cells deliver higher energy density, non-flammable chemistry and stable performance across extreme temperature ranges. Hot-swap modular design enables field battery replacement in under 3 minutes, minimising turnaround time between missions.
Redundant Systems Architecture
Every safety-critical system has a backup: dual IMUs, dual power rails, dual comms channels, and dual processors. No single point of failure can cause mission loss. Fault detection is automatic and transparent to the operator.
🌡
All-Weather Hardened Platforms
IP67-rated enclosures, MIL-SPEC connectors, and temperature-compensated electronics ensure reliable operation in rain, dust, salt fog, extreme heat, and sub-zero conditions without performance degradation.
🔬
Continuous Innovation Cycle
TEURUS operates a continuous development pipeline: field-collected data feeds directly into AI model retraining, firmware updates, and hardware refinements. Operator feedback loops are embedded into our release cadence — every deployment makes the system smarter.
🏙
Urban Operations Ready
Optional urban safety kits add detect-and-avoid radar, parachute recovery, ADS-B transponders and noise-optimised propulsion for compliant operations over populated areas. TEURUS platforms are airspace-regulation aware by design.
🔄
Modular & Mission-Configurable
Hardware and software are modular to their core. Sensor payloads, communication modules, and propulsion systems are field-swappable. A single airframe can be reconfigured for surveillance, logistics, or EW sensing between sorties.

06 — About TEURUS

Built for the
Hardest Problems

TEURUS is an autonomous systems company engineering the next generation of unmanned platforms and intelligent control infrastructure. We design for operational reality — not laboratory conditions.

Our systems are built on the principle that every domain, every environment, and every threat scenario must be anticipated in the design phase — not patched after deployment. That means EW resilience, AI autonomy, and multi-domain interoperability are core architecture — not optional add-ons.

We operate at the intersection of robotics, AI, and secure communications — integrating cutting-edge technology into platforms that field operators can trust and maintain without specialist support.

From forward-deployed logistics to persistent maritime surveillance and contested-environment reconnaissance, TEURUS delivers where it matters most: in conditions where communication is degraded, GPS is spoofed, and human presence is not possible.

🎯
Operational First
Every design decision is validated against real mission requirements. Field performance is the only metric that matters.
🔒
Resilience by Architecture
Anti-jamming, anti-spoofing, encrypted comms and redundant systems are structural — not features to be optioned in later.
🧠
AI-Native Development
Machine learning is embedded at every layer: navigation, perception, mission planning, and predictive maintenance.
🌐
True Multi-Domain
Air, ground and maritime under one control system. One operator. One interface. Total domain coverage.
Continuous Innovation
Rapid iteration, field-data feedback loops, and operator-in-the-loop development keep our systems ahead of the threat.

07 — Contact

Let's
Talk.

Whether you're evaluating autonomous systems for a specific mission profile, exploring integration with existing platforms, or seeking a classified briefing on our EW-resilient technology — our team is ready to engage.

Send Message
🌐
Website
📞
Phone
+XX (000) 000-0000
📍
Headquarters
Warsaw, Poland
Domains
Air · Ground · Maritime · AI Control Systems