Automating the Future of Airfield Operations

Protect your personnel, passengers, and aircraft.

Built for reliability, safety, and rapid deployment

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The FOD-BOT is a fully autonomous debris-removal robot engineered for airport environments, featuring advanced collision and obstacle avoidance.

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FOD-BOT Autonomy Cycle

FOD-BOT — Autonomous FOD Removal, End-to-End

FOD-BOT operates as a full-cycle service: it runs scheduled or on-demand missions, returns to self-charge autonomously, and empties collected debris via self-disposal—all with real-time oversight through Essential Commander and Ops Supervisor.

  • Continuous protection: day/night, rain or shine
  • Hands-off autonomy with operator oversight (alerts, overrides, reports)
  • Measurable outcomes: uptime, area coverage, and FOD removal stats
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Missions

Deploy FOD-BOT on scheduled routes (e.g., nightly apron sweeps) or launch on demand during weather events or after peak turns. Missions are point-and-click from Essential Commander and tracked by Essential Ops Supervisor for full transparency and compliance.

  • Point-and-click route planning with live map visualization
  • Safe navigation around aircraft, GSE, and personnel
  • Live telemetry: position, speed, battery, sweep progress
  • Mission logs and KPI exports (uptime, pass counts, coverage)
Typical Mission Flow: Deploy → Sweep → Return → Self-Charge → Self-Dispose

Self-Charging

Between missions, FOD-BOT aligns to a weatherproof wireless dock and recharges autonomously. Charging windows can be scheduled to match your operations tempo, ensuring the robot is always ready for the next sweep with zero staff intervention.

  • Autonomous approach, alignment, and docking
  • Charge status and predicted readiness in dashboard
  • Smart scheduling to maximize mission availability
  • No exposed cables or manual connectors on the ramp
Outcome: Higher uptime, fewer manual touchpoints, predictable readiness.

Self-Disposal

Collected FOD is automatically deposited at a designated disposal station. The robot executes a safe emptying sequence to keep debris contained and off the movement areas—streamlining compliance and reducing staff burden.

  • Autonomous approach and FOD-mat emptying sequence
  • Containment-first design to prevent re-scatter
  • Event logs with time, location, and mission linkage
  • Maintenance prompts for scheduled bin checks
Outcome: Closed-loop operations—no manual cleanup or sorting between runs.

🧹 Robot-as-a-Service (RaaS) Offering

Don't Want to Operate the Robots? We'll Handle Everything.

If your team doesn't have the bandwidth, we offer FOD-BOT as a turnkey service. Our experts deploy, manage, and maintain the robots while you focus on airport operations.

What's Included

  • Full onsite deployment of FOD-BOT units
  • Trained technicians managing operations
  • Scheduled runway/taxiway/ramp sweeps
  • Performance reports and safety metrics
  • Maintenance, updates, and optimizations

Perfect For

  • Regional airports
  • Private terminals
  • Cargo hubs
  • Military airfields
  • Any airside environment requiring high uptime and minimal FOD risk
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Precision at Every Step. Autonomy You Can Trust.

Technology

Essential Core is the onboard autonomy software stack that powers the FOD-BOT and Supply-BOT. Operating directly at the edge, it fuses real-time sensor data from LiDAR, radar, GPS, and onboard cameras to deliver full mission autonomy—covering perception, navigation, obstacle avoidance, and adaptive path planning. It represents the robot's "central nervous system," enabling safe, repeatable operations without human input. Essential Core continuously evaluates its environment, adapts to surface and weather changes, and maintains mission integrity through advanced decision logic tailored for airport operations.

  • Real-time perception and object classification
  • GNSS/RTK-assisted navigation and dynamic replanning
  • Full autonomy cycle: deploy, sweep/deliver, return, self-charge, self-dispose
  • Fault-tolerant safety stack with redundant stop and override mechanisms
  • Modular API for integration of new mission types and attachments
See Features

Essential Ops Supervisor is the fleet management layer that connects every robot in the field to Essential Aero's operations ecosystem. Hosted within the EA Console App, it provides real-time command, control, and situational awareness for airport operations teams—whether managing a single FOD-BOT or a multi-robot fleet. Ops Supervisor monitors mission progress, visualizes telemetry, tracks charging and disposal cycles, and logs performance metrics for compliance and ROI analysis. It is designed for operational transparency and remote oversight—enabling airside supervisors to coordinate missions safely, efficiently, and autonomously.

  • Live mission tracking and remote command dispatch
  • Multi-robot coordination and zone scheduling
  • Automated report generation (uptime, mission count, FOD collection, etc.)
  • Remote fault alerts, safety notifications, and override capabilities
  • Cloud-linked data storage for analytics and historical review
See Dashboard

Essential Commander is the human interface and control application—that unifies the entire Essential Aero ecosystem. Built as a browser-based, Fleet management control hub, it serves as the user's primary window into the FOD-BOT network. Through Commander, operators can plan missions, visualize airfield maps, configure zones, issue manual overrides, and analyze performance trends—all in one unified dashboard. It bridges field autonomy and human supervision with intuitive fleet visualization and full integration.

  • Point-and-click navigation and route editing with real-time feedback
  • Real-time telemetry and control
  • Built-in dashboards for system health, mission analytics, and compliance metrics
  • User-friendly interface optimized for airside operations and remote monitoring
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Essential Mesh is a resilient communication network for seamless fleet coordination. Self-healing mesh architecture maintains connectivity across the entire airfield, even in challenging RF environments.

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