Compact Layout: Adopting a coaxial twin-rotor design, the rotor diameter is significantly smaller than that of single-rotor models of the same class. Combined with a compact size (4.2m in length, 1.6m in width), it can take off and land flexibly in narrow spaces such as warship decks and plateau outpost yards, solving the supply problem of "limited space in maritime ship-islands and mountain strongholds".

Efficient Aerodynamics: High weight efficiency and aerodynamic efficiency. Under the same payload, it has lower energy consumption and stronger flight stability, making it suitable for complex aerodynamic environments such as high-altitude low pressure and maritime high humidity, ensuring the reliability of medium and long-distance transportation.

Fuel Universality: Equipped with a domestic aviation heavy fuel engine, it supports aviation kerosene/diesel dual fuel, which is compatible with the existing fuel system of military and police equipment. No separate reserve of special fuel is required, reducing the complexity of logistics supply.

Low-Consumption and Long-Endurance: The engine operates stably with low fuel consumption. Combined with a 4-hour endurance capacity, it can realize medium and short-distance round-trip transportation between "ships and islands" and "outposts and outposts" (e.g., supply to island reefs within 200km), reducing task delays caused by frequent takeoffs and landings.

Dynamic Adjustment: The flight control system adopts a model-based adaptive robust control algorithm, which can automatically adjust control parameters in real time according to changes in wind speed, temperature, load, and center of gravity. It can still ensure flight accuracy and stability under complex conditions such as maritime waves, plateau air currents, and mountain turbulence, reducing the risk of "task interruption caused by sudden environmental changes".

High Safety: Redundant design combined with intelligent fault diagnosis function. When a single system is abnormal, it can quickly switch to a backup plan, adapting to the core demand of "high reliability" in military and police logistics, especially suitable for material delivery in dangerous areas.

Warship Compatibility: Supports takeoff and landing on mobile platforms (warship decks). Through the coordination of the deck guidance system and flight control, it can land stably under level 6 wind conditions, solving the core pain point of "maritime ship-island and ship-ship material transfer" for military and police forces, and filling the gap in maritime medium-weight unmanned transportation.

Multi-Domain Coverage: It can operate in multiple scenarios including land, plateau, and sea. It can take off and land at plateau outposts

with an altitude of 4000m, and can also perform tasks in moderate rain and level 7 wind environments, realizing "one aircraft covering multi-domain logistics".

Applicable Scenarios: Ammunition supply, food transfer, and equipment spare parts delivery between naval warships and island garrisons, as well as between warships.

Core Value: Supports takeoff and landing on warships. The 150kg payload can carry 30 cases of individual military rations + 200 rounds of small arms ammunition, or 1 set of warship maintenance spare parts (e.g., radar components). With a 4-hour endurance, it can realize round-trip transportation between ships and islands within 200km, solving the problem of "dependence on large warships for supply to remote island reefs with low efficiency" and reducing the risk of personnel landing on islands for transportation.

Applicable Scenarios: Winter material supply, heavy equipment spare parts transportation, and emergency medical support for plateau outposts below 4000m altitude.

Core Value: The maximum takeoff and landing altitude of 4000m adapts to the plateau low-pressure environment. The 150kg payload can carry 5 sets of winter tactical coldproof suits + 1 small generator, or 1 emergency stretcher

for seriously injured personnel + a full set of first aid equipment. The adaptive flight control can cope with plateau turbulence,

ensuring "accurate delivery of medium weight materials to plateau outposts". It makes up for the shortcomings of lightweight UAVs

with insufficient payload and large helicopters with poor plateau adaptability.

Applicable Scenarios: Transportation of military and police equipment (e.g., small communication base stations, reconnaissance equipment) and rescue of stranded personnel in mountainous and forested areas.

Core Value: The coaxial twin-rotor can take off and land safely in forest gaps and mountain canyons. The 150kg payload can transport 1 set of portable communication relay stations (to ensure signal coverage in mountainous areas), or be equipped with a rescue winch to lift stranded personnel. Combined with the electro-optical pod to accurately locate targets, it realizes the dual tasks of "equipment transportation + personnel rescue", improving the logistics support capability in complex terrain.

Applicable Scenarios: Ammunition supply for tactical units at the front line of the battlefield and delivery of heavy emergency equipment (e.g., portable ventilators).

Core Value: The adaptive flight control can cope with air turbulence caused by battlefield artillery fire. The 150kg payload can carry 50 82mm mortar shells (meeting the needs of 1 mortar squad for one battle), or 1 set of field surgical instruments. The unmanned mode can go deep into the edge area of enemy firepower, avoiding personnel casualties, and providing "timely and sufficient" medium-weight material support for front-line troops.