Russia And Ukraine Deploy Unmanned Ground Vehicles Into “Kill Zones”

Image posted on social media shows a member of the 93rd Mechanized Brigade towing a Termit UGV behind a pickup truck near Kostiantynivka in August 2025.

Social Media Capture

The battlefields of Ukraine have become dominated by drones, transforming vast stretches of terrain into lethal “kill zones.” In these areas, Russian and Ukrainian drones search for exposed enemy soldiers or military equipment and destroy them. In some regions, these drone-monitored zones extend more than 25 kilometers deep from the front lines, creating a modern equivalent of World War I’s “No Man’s Land.” This persistent stalemate has driven both sides to seek new technologies capable of breaking through these deadly barriers. In particular, Ukraine and Russia appear to both be turning to unmanned ground vehicles (UGVs) as a means to navigate and contest these zones without risking human lives.

Unmanned Ground Vehicles for Resupply Operations

These kill zones often surround towns held by enemy forces. While drones are not particularly effective at striking soldiers defending these towns, they are highly effective at targeting resupply vehicles attempting to enter them. Recent social media posts from Yunakivka indicate that Russian soldiers were forced to collect rainwater to survive after not being resupplied for 8 days due to Ukrainian drones. In the short term, cutting off resupply operations damages morale. Over time, as food, ammunition, and fuel run low, the soldiers and their equipment are no longer combat effective.

Several recent videos posted on social media show UGVs successfully resupplying Russian and Ukrainian troops. Although UGVs conducting resupply missions can be targeted in the same way as conventional vehicles, they pose less risk to human life. They are also generally more maneuverable because they do not rely on a human driver and are not limited to roads. Their compact design and agility allow them to use cover and concealment, selecting routes that maximize survival and mission success. For example, they can move through wooded or urban areas that are difficult for fiber-optic drones to navigate. While they carry smaller payloads than standard vehicles, they often prove more successful at completing resupply missions.

Unmanned Ground Vehicles for Casualty Evacuation

These kill zones also create significant challenges in evacuating injured soldiers from the battlefield. A recent report from the Institute for the Study of War indicated that the Russian killed-to-wounded ratio is currently 1 to 1.3, far higher than the standard 1 to 3 ratio typically seen in modern conflicts. This disparity suggests that many wounded soldiers are dying from otherwise survivable injuries. The report indicates that one major factor is the inability to safely conduct medical evacuations. Drone surveillance and persistent aerial threats have made it dangerous for medics or stretcher teams to approach the wounded, as evacuation attempts risk drawing drone or artillery strikes. As a result, many casualties remain on the battlefield for extended periods, where delays in medical care often prove fatal.

UGVs offer a potential solution to this challenge. They can operate without risk to human life and transport multiple casualties in a single trip. When clearly marked as medical evacuation platforms, they are less likely to be targeted by drones. Additionally, they can incorporate autonomous navigation and thermal imaging to locate the wounded quickly. Their ability to move through difficult terrain and high-risk areas could restore the rapid evacuation capability essential to maintaining morale and combat effectiveness. Although neither side has posted videos of UGVs being used for medical evacuations, both Russia and Ukraine have been developing and testing UGVs specifically for this purpose.

Unmanned Ground Vehicles Employed by Ukraine and Russia

Ukraine has developed a number of domestic UGV solutions, leveraging advances from its aerial drone industry. Several Ukrainian defense incubators, working through the Brave1 initiative, have fielded a wide range of UGVs for logistics, mine clearance, reconnaissance, and combat support. One such system is the Termit, a tracked UGV capable of carrying up to 300 kilograms over various terrains. Another system, the Protector, is significantly larger and can support payloads up to 700 kilograms with a range of 400 kilometers. This system is currently undergoing testing. A joint Czech-Ukrainian effort is also developing the UNEX UGV, a fully electric amphibious system capable of carrying payloads up to 1,700 kilograms.

These systems are supplemented by those provided through military aid packages. A recent aid package funded by the Netherlands will supply Ukraine with 150 THeMIS systems, developed by Estonia’s Milrem Robotics. These tracked UGVs, each with a payload capacity of 700 kilograms, will augment the 15 THeMIS systems that Ukraine has been using on the battlefield since 2022.

Russia has likewise fielded several UGVs in Ukraine, reflecting its push to automate frontline operations and reduce risk to personnel. Recently, Russia introduced the Courier UGV, a compact 250-kilogram electric platform designed for modular use in fire support, logistics, and electronic warfare. It has been observed carrying grenade launchers, machine guns, and mine-laying equipment, and has reportedly operated alongside infantry to suppress enemy positions. Additionally, Russia has developed the Depesha, a lighter wheeled logistics vehicle capable of transporting up to 200 kilograms of supplies or evacuating wounded troops. Similar to Ukraine, Russia has a number of experimental systems in various stages of development. Russia also has a range of older UGVs developed before the war, though most have seen very limited usage.

Future Prospects for Unmanned Ground Vehicles

These systems will provide some relief to both sides as they attempt to navigate the kill zones established by opposing drones. However, they remain relatively primitive compared to the rapid advances in drone technology. Many of the newest drones now operate with increasing autonomy driven by onboard artificial intelligence processing. Ukraine, in particular, is leveraging its drone expertise to develop more advanced UGVs. There have also been accusations that Russia is seeking to reverse-engineer or adapt captured UGV technology to improve its own designs.

As the technology matures, both nations are exploring new applications of UGVs beyond resupply and evacuation. Weaponized variants are already being fitted with machine guns, automatic grenade launchers, and anti-tank systems, effectively transforming them into remote-controlled assault platforms. Other prototypes are being tested for automated mine emplacement, allowing forces to rapidly fortify or deny terrain without direct human involvement. Further, to help break through the kill-zones, the UGVs will also start integrating counter-drone technology, carrying carry electronic warfare payloads or short-range air defense modules to jam, disable, or destroy incoming drones.

The drive to develop new unmanned ground vehicles reflects a broader shift toward roboticized combat, where machines are playing an increasing number of roles once reserved for humans. Although the current systems remain limited, their rapid evolution points to a future battlefield with an integrated network of air, ground, and maritime drones. For both Ukraine and Russia, mastery of UGVs will provide them an edge on the current battlefield, influencing the future trajectory of the war. The kill zones of today are becomeing the testing grounds for a new era of machine-led warfare.