At coastal or desert sites prone to strong winds, simultaneous operations involving multiple tower cranes pose significant
safety risks: strong winds cause booms to drift and suspended loads to swing violently, while visibility for manual signalers is often limited. Traditional anti-collision systems with fixed thresholds cannot adapt to dynamic wind conditions, making boom collisions and structural damage highly likely.
The intelligent wind-linked anti-collision system for crane clusters utilizes comprehensive wind sensing and AI algorithms to compensate for wind-induced sway. It synchronizes wind data across the site in real-time, automatically widening safety clearance zones as wind speeds increase and accurately predicting the swing paths of booms and loads. The system employs a four-level protection strategy-ranging from pop-up alerts to forced automatic shutdowns-and enables coordinated control across dozens of wirelessly networked tower cranes.
Field data shows that installing this system completely eliminates crane interference accidents during high winds, avoids blanket work stoppages, and boosts construction efficiency. It also reduces repair costs for welds and booms caused by collisions, making it an ideal solution for high-rise residential and commercial complex projects involving multiple tower cranes in the windy, sandy, or coastal regions along the "Belt and Road."








