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Deeply rooted in vertical industries, we understand technology—and even more, we understand you.

Every industry has its own unique process flows and pain points. By combining cutting-edge sensing technologies with deep industry expertise, we create tailor-made, proprietary solutions for ten core industries—including road transportation, smart logistics, and high-end manufacturing.

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Round-the-clock precise identification of ultra-high vehicles safeguards the safety of bridge and tunnel assets.

Bridges, tunnels, and culverts are critical chokepoints in highway transportation. Once struck unexpectedly by a vehicle that is excessively tall, such incidents can—depending on the severity—result in traffic disruptions caused by trucks becoming stuck, or even lead to structural damage or collapse of the bridge or tunnel itself. Traditional physical height restriction barriers represent “passive protection”—they often only become effective after an accident has already occurred, lacking a proactive intervention mechanism. Meanwhile, conventional single-point photoelectric detection systems are highly susceptible to false alarms triggered by birds, fallen leaves, or adverse weather conditions, leading to frequent ineffective alerts and making it difficult to achieve precise, round-the-clock protection.

Three-dimensional stereoscopic safety protection for robotic arm workstations

In modern factories where human-robot collaboration is becoming increasingly close, traditional two-dimensional safety protection measures—such as safety light curtains, safety mats, or 2D LiDAR—can no longer adequately meet the demands of complex three-dimensional safety protection. When robotic arms perform tasks like palletizing or assembly, their motion trajectories are three-dimensional, posing not only horizontal collision risks but also irregular danger zones from above or the sides. Operators may inadvertently extend their limbs into the robotic arm’s operational envelope, or workpieces might accidentally fall—both scenarios that conventional planar sensors often “overlook,” leaving significant safety blind spots.

AGV for safe obstacle avoidance during heavy-load yarn bobbin transfer in the synthetic fiber workshop

In the downstream packaging workshop for synthetic fibers, the transfer AGVs loaded with spools of filament have considerable self-weight and high inertial mass. As these vehicles shuttle back and forth through densely packed production lines and pedestrian walkways, a collision could result in severe injuries to personnel, as well as potentially causing the vehicle to tip over, damage the spools of filament, or even wreck expensive production equipment. Due to their wide body and frequent need to turn in narrow intersections, large blind spots exist on either side of the vehicle’s front end; thus, conventional contact-type anti-collision strips cannot provide sufficient braking distance.

Automatic bobbin-releasing machine for synthetic fiber lanes—collision protection during operation

In the synthetic fiber textile workshop, automatic bobbin-releasing machines need to move back and forth within narrow, elongated machine aisles. Due to the enclosed and confined nature of these aisles, if an operator accidentally enters the aisle for inspection or cleaning, they could easily be squeezed or struck by the high-speed bobbin-releasing machines. Moreover, since the bobbin-releasing machines are equipped with lifting mechanisms, a collision could not only cause personal injury but also result in the costly silk bobbins being dropped and damaged while being handled. Ensuring the safety logic of "machines stop when people are present, and people stop when machines are operating" in such a cramped, human-machine-shared space is a major challenge in production management.

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