On 27 March 2026, Poland’s state defense group PGZ announced that it had signed a new agreement with the Estonian company Frankenburg Technologies. The agreement focuses on the development and production of the Mark I missile system, designed to engage unmanned aerial vehicles, according to Army Recognition.
PGZ President Adam Leszkiewicz says that the lessons of the war in Ukraine show that cheap drones are used on a massive scale, and that using more advanced and expensive air defense systems against them is neither operationally nor economically justified. This observation lies at the core of the Mark I concept.
Lessons from war in Ukraine: expensive missiles are no longer effective
It is primarily positioned against drone threats, especially one-way attack UAVs of the Shahed class, as well as against somewhat faster targets.
The announcement points to a concrete European effort to respond to one of the defining military challenges of current conflicts: how to stop mass drone attacks using interceptors that can be deployed in large numbers at a sustainable cost.
Mark I as a response to “Shahed-style” warfare
PGZ stated that the partnership will include production capabilities in Poland, in particular through the planned creation of a facility capable of producing up to 10,000 missiles per year, as well as laying the foundation for future systems such as the longer-range Mark II.
PGZ and Frankenburg Technologies have begun joint efforts to produce the Mark I missile in Poland at scale to counter mass-drone threats with a low-cost, rapidly deployable interceptor.
The Mark I is described as a compact guided mini-missile approximately 60 to 65 centimeters in length.
The missile uses a solid-fuel engine, reaches speeds of over 1,000 kilometers per hour, and employs terminal guidance with a proximity-fuse warhead to destroy targets.
Not replacement for Patriot, but load reducer
A missile like the Mark I is important not because it replaces systems such as Patriot, CAMM, or other high-end interceptors, but because it can absorb part of the burden of countering drones and prevent defenders from expending scarce and expensive missiles on relatively cheap aerial targets.
At the same time, key implementation details, including the level of investment, plant location, and production start date, have not yet been disclosed, leaving the industrial timeline still to be clarified.
