The press service for the project announced that nine finalist teams have earned their spot in Perm during the international championship known as Battle of Robots.
In the second stage, a total of 34 teams competed, drawing participants from Russia, China, and India among others, showcasing a broad international mix and a range of engineering approaches. The event highlighted the global interest in robotic sport and the collaboration of diverse engineering schools and startup teams coming together to push the boundaries of machine competition.
The prize pool for the tournament stands at 6 million rubles, a significant incentive that reflects the seriousness of the competition and the level of talent on display. This prize money rewards both technical excellence and strategic design, encouraging teams to pursue innovative solutions and rigorous testing before they step into the arena.
Officials from the Games of the Future project voiced strong confidence in the championship, noting that it helps establish world standards for what is described as innovative sport. The organizers call Robot Battle a premium spectacle that blends engineering prowess with high-stakes competition. Looking ahead, the super final of the event is slated to unfold at the Games of the Future in 2024, a moment that organizers say will elevate the profile of robot sports on the global stage. The remarks from Igor Stolyarov, head of the Games of the Future project, underscored the belief that the tournament is setting benchmarks for the genre and attracting wide audience interest. The statements were issued by the project’s press service and circulated to participants and observers alike as a signal of the event’s trajectory and prestige.
Robot Battle is described as a sports and technical championship in which engineering teams design and pit their robots against one another in a controlled fighting ring. In this arena, robots crafted by the teams engage in mechanical combat, aiming to deliver controlled damage while adhering to established safety and rule sets. The format is built to test not just raw power, but also the precision of mechanical systems, control algorithms, and the ability to adapt tactics in real time. Spectators witness a display that blends cutting-edge engineering with dramatic, athletic competition, creating an experience that appeals to tech enthusiasts and sports fans alike. Stakeholders emphasize that the contest encourages collaboration between education, industry, and innovation, bridging the gap between academic research and practical, hands-on robotics development. The competition structure promotes experimentation, iterative testing, and rapid prototyping, with teams often iterating on design between rounds to optimize performance under pressure. This approach helps catalyze advances in robotics hardware, sensing, and autonomous control strategies while delivering an entertaining and educational event for audiences across multiple regions. In sum, Robot Battle stands as a focal point for the convergence of sport, engineering, and emerging technology, drawing attention to the creative energy that drives modern robotics. The tournament’s organizers and participants alike view the championship as a platform for discovery and inspiration, where ideas tested in competition often translate into real-world applications in automation, manufacturing, and research. Acknowledgment from the organizing committees stresses that the event is not only about winning but about the learning and collaboration that emerge from serious competition and international participation.