Local autonomy for MAVLink-compatible UAV/UGV platforms, built for inspection, surveillance, search & rescue, field operations, and low-connectivity environments.

GEENESSYS Drones uses the GEENESSYS Core engine for planning, coordination, failsafes, telemetry, and mission execution with operational traceability.

What is GEENESSYS Drones

An autonomy layer for unmanned vehicles.

GEENESSYS Drones turns compatible UAV/UGV platforms into autonomous systems with local operation, deterministic planning, optional visual detection, and mission control.

Compatible with open ecosystems

Designed to integrate with MAVLink, Pixhawk, ArduPilot, PX4, and existing mission architectures.

Local operation

Built to reduce cloud dependency and maintain operational capability even under limited connectivity.

Traceable missions

Decisions, routes, telemetry, and key events can be logged for later review.

Operational stack

From dashboard to vehicle.

GEENESSYS Drones organizes autonomy in layers: mission interface, orchestration, cognitive engine, MAVLink integration, and the physical vehicle.

GCS / Dashboard
Orchestration
Core 3D/4D
MAVLink
Capabilities

Physical autonomy with operational control.

Built for scenarios where the aircraft or ground vehicle must operate with routes, rules, sensors, telemetry, and structured failure recovery.

01: MISSION

Mission control

Define routes, mission templates, points of interest, geofences, and multi-drone operations.

  • Web dashboard
  • Configurable missions
  • Aggregated telemetry
02: AUTONOMY

3D/4D navigation

Motion planning across space and time for avoidance, routing, and agent coordination.

  • Deterministic pathfinding
  • Dynamic obstacles
  • Operational replanning
03: SAFETY

Multi-layer failsafes

Protection layers designed for battery, GPS, sensors, geofences, watchdogs, and critical events.

  • Internal watchdog
  • Mission failsafe
  • External guardian
Integration

Designed for real hardware and gradual evaluation.

GEENESSYS Drones can be evaluated on existing hardware or controlled platforms. Integration depends on the autopilot, sensors, mission objectives, operational context, and safety requirements.

Autopilot and protocol

Integration focused on MAVLink-compatible vehicles and open flight stacks.

  • MAVLink
  • Pixhawk / Cube
  • ArduPilot / PX4

Onboard computing

Can be evaluated with edge computing depending on mission profile, sensors, and visual inference load.

  • Raspberry Pi
  • Jetson / GPU edge
  • Linux / ARM64

Perception

Visual perception can combine object detection, telemetry, camera input, sensors, and mission rules.

  • USB / CSI camera
  • Optional YOLO
  • Optional LiDAR

Local operation

Built for scenarios where control, privacy, latency, and resilience matter.

  • Local network
  • On-prem server
  • Degraded mode
Use cases

Missions where local autonomy matters.

GEENESSYS Drones is designed for operations where the vehicle must take structured decisions, maintain telemetry, and respond to environmental constraints.

01: INSPECTION

Inspection of infrastructure, towers, power lines, pipelines, industrial plants, and hard-to-reach areas.

02: SURVEILLANCE

Perimeter patrol, monitoring of critical facilities, events, industrial zones, and predefined routes.

03: SEARCH & RESCUE

Area sweeps, visual person detection, location marking, and coordination with ground teams.

04: MULTI-DRONE

Coordination of multiple vehicles for coverage, patrol, reconnaissance, inspection, or distributed monitoring.

Technical evaluation

Before deployment, we validate the environment.

Physical autonomy requires a rigorous evaluation process. We start by reviewing the mission, hardware, sensors, safety requirements, operational environment, and real-world constraints.

TECHNICAL REVIEW

System diagnostic

We review the autopilot, vehicle, sensors, payload, communications, field constraints, and mission objectives.

  • Available hardware
  • MAVLink integration
  • Operational environment
CONTROLLED PILOT

Controlled pilot

We define a limited test to validate feasibility, safety, integration, and metrics before moving to broader deployment.

  • Controlled scope
  • Phased validation
  • NDA documentation
GEENESSYS Drones

Assess whether your platform can integrate with GEENESSYS.

Share your vehicle, autopilot, sensors, target mission, and operational environment. We will review whether the best path is a controlled pilot, technical integration, an SDK license, or joint development.