HS.cs
Swarming UAVs
Fight UAV swarms with the HITBIRD hunting UAV. Equipped with mechanical means of combating light UAVs and a radar system, confusing attack situations can be handled reliably.
Systems
A single platform, configured for the mission — from counter-UAV defence to long-range effect, reconnaissance and on-board AI.
Defence
HS.cs
Fight UAV swarms with the HITBIRD hunting UAV. Equipped with mechanical means of combating light UAVs and a radar system, confusing attack situations can be handled reliably.
HS.jam
Control of radio and navigation signals from high altitudes. Equipped with jammers, several HITBIRDs can control areas of any size. The appropriate AI on board ensures precise and stable navigation in the jammed area.
Reconnaissance
HS.mesh
Flying transmission-range extender, bi-directional for large distances and areas — for HITBIRD control and live data/video transmission. Coverage of approximately 300 km² per system.
HS.night / HS.radar / HS.tc
Information acquisition for evaluation. Capture night vision, radar, thermal and electromagnetic signals, store them and/or transmit them live to the ground station.
Effect
HB.lm
HB.lm (HB.350 / HB.700) is a MALE-LM system, delivering ranges exceeding 1,000 km and a payload capacity of nearly 100 kg (HB.700). Autonomous route tracking and semi-autonomous, highly effective target engagement, with a service ceiling of 6,000 m.
HS.lm
Equipped with precise target coordinates, mines are laid.
HS.pe
Designed to accommodate and trigger different systems. Offers internal and external payload options, including wing hardpoints.
AI & Systems
HS.ki
Independent of GNSS navigation through visual information from various sources generated on board (photo, radar, heat). The system autonomously calculates mission routes based on on-board sensor data.
HS.gs
Mission planning, multi-user coordination, evaluation tools, media import/integration, open layer interfaces, mission logs, user activity tracking, reports and mission playback.
HS.mesh / HS.comm
Handles flight control via HITBIRD, operates as a mesh network system, and receives data from photo, film, night-vision imagery, radar signals, thermal readings and electromagnetic signals.