Voyager 1800
Cost-effective USV platform optimized for modular payload integration and practical field deployments.
Moon poolModular mountsField serviceable
Open-stack USV platforms built for sensor integration
Targeting a 2026 public launch; open for technical inquiries
Deployable USV platforms that reduce custom integration cost.
Roboteering develops modular Unmanned Surface Vehicle (USV) platforms and core subsystems—Voyager hulls, the Nautix controller stack, Vortex thrusters, the ShoreLink LTE Kit, and Roboteering.Cloud. Our focus is practical field missions with standardized interfaces so customers can integrate sensors without expensive custom work.
Environmental monitoring
Bathymetry & sonar payloads
Aquaculture
Security patrol
Offshore pilot projects
Academic research
About Us
Independent, technology-driven USV development company based in Houston, USA.
From concept to sea trials
ROBOTEERING is focused on researching, designing, and developing next-generation Unmanned Surface Vehicle (USV) systems for marine applications. We deliver robust, modular, and cost-effective solutions for commercial, environmental, and defence use cases, leveraging expertise in autonomous systems, hydrodynamic design, marine electronics, and open-source control platforms. Our services span engineering design, systems integration, custom controller development, rapid prototyping, field testing, training, and leased fleet solutions—supporting customers from concept through sea trials.
Modular architecture
Standards-based interfaces
Field serviceability
Repeatable manufacturing
Prelaunch
Targeting a 2026 public launch. Today, we are building qualified relationships, technical alignment, and pilot pipelines.
Available now
- Technical inquiries and integration planning discussions
- Pilot and proof-of-concept alignment (use case, payload, environment, timeline)
- Partner and distributor conversations (North America and South East Asia)
- Subsystem selection guidance (thruster class, comms strategy, controller interfaces)
Targeting 2026 public launch
- Voyager USV platforms (Voyager 1800 and Voyager 2500)
- Nautix controller kits and integration-ready electronics
- Vortex thruster family (400 / 1100 / 2000 / 3500 classes)
- ShoreLink LTE Kit and Roboteering.Cloud fleet telemetry
Credibility and approach
Our approach is to provide standardized “enabler platforms” that simplify payload integration, reduce custom engineering effort, and improve repeatability across fleets. We build around proven open-source control ecosystems while delivering robust hardware packaging and field-ready integration.
Product line
Core platforms plus curated third-party components we integrate and support as part of complete USV solutions.
Voyager 2500
Larger multi-mission USV platform designed for higher payload margin, endurance, and demanding operations.
Expanded payloadMulti-missionIntegration-ready
Nautix controller
Marine-optimized controller stack for ArduPilot workflows with practical interfaces for sensors and payload control.
CANRS-485MAVLink
Vortex thrusters
Thruster family organized by power class to simplify sizing discussions and platform matching.
400110020003500
ShoreLink LTE Kit
Roboteering-branded LTE communications kit designed for USV integration and operational workflows.
USV integrationIP networkingAntenna + enclosure
Roboteering.Cloud
Telemetry and analytics layer to manage missions, monitor health, and organize mission data at scale.
Mission logsHealth telemetryFleet dashboards
Payload integration kits
Pre-made mounts, masts, and moon-pool frames designed to bolt to Voyager platforms for repeatable payload installs.
Mounting systemsMastsMoon-pool frames
Third-party integration
Curated components integrated and supplied with Voyager solutions where appropriate for deployment success.
MikroTik Wi-Fi bridgeIndustrial computers (Windows IoT)Sonar add-on kits
Project support
Engineering design, system integration, field testing support, and training aligned to mission requirements.
Integration supportField testingTraining
Note: Detailed specifications and availability are finalized closer to launch. Prelaunch discussions focus on mission fit, integration approach, and pilot planning.
Vortex thrusters
Simple sizing conversation by power class. Each class includes a “best for” cue to help prospects self-qualify.
Vortex 400 — ~410 W class
Compact shrouded thruster class optimized for efficient, endurance-focused operation and lighter payload missions.
Best for
Endurance-focused missions, lighter payloads, calmer water conditions, and smaller/efficient platform configurations.
Typical configuration
Single or dual thrusters depending on hull and steering approach; sizing confirmed using mission speed and current profile.
Specifications are finalized closer to launch; prelaunch discussions focus on selecting the correct class for your mission.
Vortex 1100 — ~1.1 kW class
Balanced general-purpose class for USV propulsion where you want practical thrust and speed margin without oversizing the power system.
Best for
General mission profiles, moderate currents, and operations needing speed margin while preserving reasonable endurance.
Typical configuration
Common choice for mid-range propulsion sizing; final match depends on payload, displacement, and sea state objectives.
Send your platform, payload, target speed, and environment to align the correct thruster class.
Vortex 2000 — ~2 kW class
Higher thrust class designed for heavier payloads, stronger currents, and demanding multi-mission deployments where margin matters.
Best for
Heavier payload missions, stronger currents, higher drag payloads, and scenarios requiring robust thrust margin.
Typical configuration
Selected when payload and environment require higher continuous thrust capability; final selection validated by mission constraints.
Prelaunch: we can recommend a class and integration approach; detailed specs are finalized near launch.
Vortex 3500 — ~3.5 kW class
Heavy-duty thruster class for larger USVs or maximum thrust margin where robustness and performance are prioritized.
Best for
High current environments, larger platform configurations, and missions requiring strong thrust margin and operational robustness.
Typical configuration
Used where performance margin is a priority; selection depends on mission profile, payload, and power system strategy.
For sizing, include displacement, payload, target speed, and current profile in your inquiry.
Voyager USV platforms
Designed as “basic enabler platforms” so customers can integrate sensors and instrumentation without costly custom work.
Standardized mounting and integration-ready architecture
Voyager platforms are designed around modular payload integration (masts, mounts, and moon-pool frames) and a consistent control/telemetry stack built around Nautix and companion computing. This enables repeatable deployments and reduces the total cost of integration across fleets.
Nautix controller stack
Marine-optimized controller architecture for ArduPilot-based USVs with practical I/O and field-friendly expansion.
High-performance controller platform
Designed for robust marine integrations with practical interfaces for sensor and payload control workflows.
PWM outputsMAVLinkCompanion integration
CAN + RS-485 + I2C/SPI
Supports modern CAN ecosystems and practical instrumentation via RS-485 while keeping payload integration flexible.
Field instrumentationSensor expansionMarine packaging
Open control stack
Aligned with established open ecosystems (ArduPilot/MAVLink/BlueOS workflows) to support development and operations.
Mission workflowsSITL/HIL friendlyIntegration-first
Connectivity and manual control
Field-ready options for local operations and remote telemetry planning, aligned to deployment realities.
ShoreLink LTE Kit
Roboteering-branded LTE kit intended to support USV integration, packaging, and operational networking workflows.
IP networkingUSV integrationAntenna strategy
MikroTik Wi-Fi bridge kits
Short-range IP links for bench testing, dockside operations, and local mission workflows.
Vehicle-to-shoreDockside opsBench testing
RadioMaster Boxer (SBUS)
Manual operation option using a RadioMaster Boxer transmitter paired with an SBUS receiver (e.g., R88) for operator control.
SBUSFailsafeOperator control
Roboteering.Cloud
Telemetry and analytics experience that complements Nautix and Voyager deployments.
Start simple, expand with fleet scale
Roboteering.Cloud can begin with essentials—device registration, health telemetry, and mission logs—then expand to analytics, fleet dashboards, and automated reporting as deployments scale. Prelaunch discussions focus on telemetry requirements and operational workflows.
Engagement model
A simple prelaunch process designed to turn inquiries into qualified pilots, partners, and future deployments.
1
Send your mission summary
Platform interest (Voyager 1800/2500), payload/sensors, environment, target speed/endurance, and timeline.
2
Technical alignment call
We validate mission constraints and propose the right architecture: controller, comms, thruster class, and mounting approach.
3
Pilot plan or partner path
We outline a pilot approach, integration roadmap, and next steps toward launch-ready deployment and supply planning.
Contact
Targeting a 2026 public launch. We are currently open for technical inquiries, pilots, partnerships, and early-access discussions.
info@roboteering.com
Email is the only contact channel for now (prelaunch).
For a faster response, please include: platform interest (Voyager 1800/2500), sensors/instruments, payload mass and mounting needs, target endurance/speed,
operating environment (currents/sea state), and comms preference (ShoreLink LTE, MikroTik Wi-Fi bridge, RadioMaster manual control).