Ukraine unveils Anubis and Seth-X strike drones for contested battlefield operations
Ukraine has revealed two new strike drones, Anubis and Seth-X, in a move to strengthen deep-attack and swarm capabilities in heavily contested combat zones.
The systems were developed by Ukrainian firm Airlogix. The company said Anubis is intended for deep-strike missions, while Seth-X is designed for swarm attacks, broadening Ukraine’s options as drones take on a larger share of frontline offensive roles. The paired rollout points to a more segmented approach to drone warfare, with separate platforms tailored for different target sets and operational demands. It also underscores how Ukraine continues to expand its strike-drone inventory beyond reconnaissance and artillery support into dedicated attack missions.
Images released with the announcement show Anubis with a streamlined fuselage and a matte black finish. The design suggests an emphasis on aerodynamic efficiency and a reduced visual and radar signature, features that could improve survivability on missions into defended airspace. No further technical details were disclosed in the available material, including range, payload, guidance architecture, or autonomy level. Still, the visible configuration indicates a platform shaped for penetration and precision strike. Seth-X, by contrast, appears aimed at massed employment, reflecting growing interest in drone swarms that can complicate air defenses through volume, coordination, and attack timing.
The introduction of Anubis and Seth-X highlights the rapid evolution of Ukraine’s unmanned strike ecosystem as the war drives demand for cheaper, adaptable weapons that can survive electronic warfare and layered defenses. Systems built for deep attack and swarm use answer two of the most urgent operational challenges on the modern battlefield: reaching targets behind the line and saturating defenders at the front. If fielded at scale, the two drones could expand Ukraine’s ability to pressure a wider range of targets and deepen the role of AI-enabled unmanned systems in future combat operations.