Source: Reddit
A constant in the skies of Ukraine are waves of Russian drones destined for mostly civilian targets with additional targets being military or infrastructure such as power plants. On a daily basis, an average of 180 to 200 or more drones are launched against Ukraine. Typically, these are HESA Shahed 136 drones purchased from Iran, the Russian produced version called the Geran-2, and decoy lookalikes designated as the Gerbera. The Shahed 136 carries a 110 pound warhead, the Geran-2 either a 115 pound or 200 pound warhead, while the Gerbera can carry a 22 pound warhead if fitted with one. Monthly totals average about 5,000 drones. In some individual attacks, the drone count can rise to as many as 600 in order to overwhelm Ukrainian air defenses and ensure successful strikes. While these defenses are managing a kill score of 87 to 89 percent, the sheer volume means drones get through. While ammunition for machine-guns and small caliber cannon is relatively inexpensive and plentiful, usage of air defense missiles is far more costly and replenishment of expended munitions is not a guaranty. To this end, designers of the Wild Hornets Charitable Fund have created an inexpensive loitering munition designed specifically to engage and destroy large Russian drones such as the Geran-2. It is called the “Zhalo”, meaning “Sting”.
The Sting was developed sometime in 2024 with the first knowledge of the drone appearing in the media in October 2024. The Sting is a “hit-to-kill” weapon and as that suggests, it knocks down Russian drones by flying right into them. Because of this expendability, the Sting is built as cheaply as possible and as simply as possible to permit production in volume. It is estimated that a single Sting has a price tag of $2,500USD. Compare this to the estimated $30,000 to $80,000 for a single Geran-2 drone. In addition, consider that even old missiles such as the Vympel R-73 (NATO reporting name AA-11 Archer) have costs into the tens of thousands of dollars while FIM-92 Stinger missiles can have a cost of $480,000USD or more in price. Thus, it can be seen that the Sting is a very cost effective means to destroy drones.
The Sting's body, wings, and rotor pylons are built using 3-D printers (made by Bambu Labs and Elegoo). This can be seen in wings where the sunlight shows the lattice structures within the wings which provide rigidity while keeping the weight down. Although the photograph angle makes the Sting look large, it is not and though no specific height has been given, it is under 2 feet tall and easily held in a single hand. It is a quadcopter, using four electric motors. The reported top speed of the Sting is 196 miles per hour, more than adequate to catch the Shahed and Geran-2 which top out at 115 miles per hour. The Sting does have an explosive warhead but how large it is has not been disclosed. Given range is 16 miles up to a ceiling of 10,000 feet. The Sting is a FPV (First Person View) munition and is flown using a hand-held controller and VR goggles, the latter using a Hornet Vision digital video link. The pilot's view comes from a Odd Systems designed and built Kurbas 640 Alpha thermal imaging camera fixed to the Sting's body. The Wild Hornets Charitable Fund provide night pilot training with the Sting and the basics can be learned in a three day course.
A typical Sting mission profile begins when incoming Russian drones are detected and estimates made on their heading. Air defense units will mobilize and rapid reaction groups will move towards the flight path of the drones. At this time, Sting equipped units will set up the drones which can take up to 15 minutes to do. Next, radar confirmation is required to ensure accurate location of Russian drones and once received and within range, the pilot launches the Sting. The Sting takes off vertically and can do so from any flat surface. Once airborne, it transitions to level flight. The radar operator relays telemetry data to the pilot who guides the Sting towards the target. Once close, the Sting's thermal camera can provide visual target confirmation and it is up to the pilot to successfully fly the Sting into the drone, effecting detonation of the warhead and obtain the shoot-down. Typically, a Sting pilot has around 10 minutes from launch to locate and effect the attack on the drone before the drone flies out of range of the Sting. With effective guidance, the average kill time can be as low as 10 to 15 seconds which means that in a “target rich” environment, pilots can fly more than one intercept mission in optimal conditions.
The Sting appears to have entered troop trials around May 2025 and by August 2025, was in more widespread usage. By October 2025, it is reported that the Sting has been responsible for downing over 1,000 Russian drones. Currently, 100 Sting drones are built and assembled per day with the goal to ramp up production capability and capacity so that 600 to 800 Sting drones can be completed per day.
