Euronext | MLUAV | € 42.00 | 06/21/2026
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Autopilot for HAPS
(High Altitude Pseudo-Satellites)

High-altitude drones require continuous loiter, high-efficiency climb and glide, and long-duration autonomy. Veronte Autopilot enables solar and battery-based HAPS with precise environmental adaptation and fail-safe reliability.

HAPS Layout Compatibility

Fixed-Wing HAPS

Fixed-Wing HAPS

High-aspect wings for stratospheric lift.

Solar Electric Platforms

Solar Electric Platforms

Energy-harvesting airframes.

Flexible or Modular Span Designs

Flexible or Modular Span Designs

Custom configurations for long-endurance.

Takeoff and Landing Capabilities

Takeoff

Takeoff

Runway, catapult, car or balloon-assisted ascent. Includes low-speed handling logic and solar array safety checks.

Landing

Landing

Runway or net recovery, energy-managed glide descent, and logic-based low-speed touchdown.

Flight Control for HAPS

Optimized for stratospheric thin-air flight: high-efficiency lift curves, autopilot wake logic, and loiter zone stability. Precise trim adjustment and high-altitude IMU adaptation.

Mission Capabilities & Precision Operations

Loiter Over AOI

Maintain position over key zones

Solar Energy Management

Charge cycle awareness and climb scheduling.

Network Relay

Aerial data handoff and wide-area comms.

Maintain altitude and conserve power.

Climb-Glide Cycling

Redundancy, Safety and Compliance

Thermal protection, low-light planning, and redundant flight paths. Pre-fail descent triggers and endurance forecasting models. Designed for long-range operation compliance.

Quality Airworthiness Cybersecurity

Advanced Features for HAPS

Solar Performance Logic

Dynamic power collection zones.

Extended Glide Logic

Long-distance return routing.

Envelope Overspeed Guard

Prevents airframe stress at altitude.

Weather-Responsive Altitude Adjust

Shift ceiling to avoid high winds.