Artificial Intelligence

The advanced laser-SLAM technology gives your AGVs unmatched accuracy and adaptability in busy warehouses and factories. It's perfect for high-traffic areas like racking zones and loading docks where environments change frequently.

• Pinpoint Accuracy: Maintains ±5mm positioning precision even in crowded spaces.

• Reliable Performance: Keeps AGVs moving smoothly with ±10mm detection accuracy.

• 360° Smart Safety: Spots obstacles at all heights with 3D vision technology.

• Self-Updating Maps: Automatically adjusts routes when environments change.

The AGV scheduling technology enhances large-scale AGV operations by integrating real-time monitoring, simulation, and predictive scheduling. By combining simulation with live tracking data, it improves accuracy and overall performance. Time-based scheduling minimizes traffic congestion and maximizes fleet utilization, ensuring smooth and efficient workflows.

• Real-Time Awareness: Continuously updates AGV positions to prevent conflicts in time and space.

• High-Precision Scheduling: Considers vehicle size and movement patterns to reduce traffic control issues.

• Integrated Simulation & Monitoring: Merges real-time tracking with simulation for precise performance analysis.

• Scalable & Adaptive: Optimizes scheduling dynamically for expanding AGV fleets.

This cutting-edge technology leverages the OpenGL engine to deliver a high-fidelity 3D visualization platform for modeling discrete event systems using Petri nets. It features an extensive library of equipment templates and WMS/WCS algorithm modules, enabling highly professional warehouse simulations.

• Real-time online simulation: Supports dynamic data import from multiple databases for live operational insights.

• Dual-mode flexibility: Toggle between detailed animation and accelerated simulation for fast results.

• Industrial-grade OpenGL engine: Delivers superior performance and adaptability across Windows, Unix, and Linux systems

• Petri net-driven algorithms: Ideal for discrete event modeling in logistics automation.

• Expandable libraries: Customize simulations with modular equipment and algorithm templates.

The AI-powered robotic arm automates complex palletizing/depalletizing tasks with precision. Using advanced 3D vision and intelligent algorithms, it handles mixed-size boxes efficiently, eliminating manual labor while maximizing productivity.

• AI-powered 3D vision: Ensures reliable box recognition regardless of size, color, or spacing.

• Deep learning adaptability: Trained on diverse case types for superior performance in complex scenarios.

• Dynamic mixed palletizing: AI optimization calculates ideal stacking positions in real time.

• Smart buffer handling: Temporarily stores cases when stacking conditions aren't met.

• End-to-end automation: Replaces manual labor in both depalletizing and pallet building.

The AI-powered vision-based technology autonomously identifies and picks unordered items from bins with millimeter precision, directly integrating with warehouse workflows to fulfill orders faster and error-free.

• Highly stable with over 7000 hours of continuous testing.

• Flexible integration with all major robotic platforms and systems.

• Simple plug-and-play deployment with a fully visual, no-code interface.

• Robust performance in handling complex SKUs and challenging product presentations.

This cutting-edge technology combines multi-stage S-curve speed control and high-order Bézier path algorithms to optimize linear motion in automated logistics systems. By leveraging AI-driven PID regulation with dual feedback loops (speed + position), it achieves ultra-precise acceleration/deceleration while maintaining stability.

• High-Order Algorithm: Uses high-degree Bézier curves (>3rd order) for 10%+ smoother transport and less cargo vibration.

• Human-Like Navigation: Mimics forklift steering logic, boosting turning efficiency by 40% in right-angle scenarios.

• Ultra-Fast Positioning: Reduces positioning time to <0.5s (vs. 4-6s with traditional methods) in stacker applications.

The technology enables AGVs/stackers to detect pallet misalignment/deformation in advance using 3D vision, preventing fork collisions, reducing downtime, and enhancing system intelligence and stability.

• Precise Position Detection: 3D camera scans and compares pallet point clouds to detect misplacement or deformation in real time.

• Proactive Risk Avoidance: Prevents fork-pallet collisions by identifying deviations before operation.

• Auto-Correction: Adjusts fork position automatically until safe pickup is ensured.

• Reduced Downtime: Eliminates post-accident troubleshooting, boosting efficiency.

• Smarter & More Stable: Enhances equipment intelligence and operational reliability.

This technology integrates a miniature servo motor, driver, gear reducer, and position sensor into a unified servo module, enabling precise control of gripper mechanisms for flipping tasks.

• Extended Lifespan: Utilizes professional servo motors, offering over 10x longer lifespan than brushed motors and doubling positioning accuracy.

• Simplified Assembly: More convenient and faster to assemble compared to traditional DC brushed motor modules, with enhanced stability and reliability.

This technology integrates dynamic storage unit positioning and intelligent scheduling to optimize space utilization for multi-size bins in racks, working seamlessly with WMS dynamic storage management.

• 30% Higher Storage Density: Outperforms fixed-location methods by maximizing space efficiency.

• Real-Time Adjustment: Dynamically allocates storage units for optimal warehouse operations.

• WMS Compatibility: Enhances warehouse management systems for smarter inventory control.

This technology uses correlation-based smart scheduling to optimize inbound operations, increasing parallel processing rates by over 10% compared to random scheduling in pallet/case storage systems.

• 10%+ Higher Parallel Rate: Boosts equipment utilization in pallet/case storage systems.

• Improved Inbound Efficiency: Faster processing compared to random scheduling methods.

• Data-Driven Optimization: Leverages correlation analysis for smarter task allocation.

This technology uses correlation-based order batching and sequencing to intelligently group and prioritize orders, reducing redundant picking operations by over 15% compared to random methods.

• 15% Lower Re-Picking Rate: Minimizes redundant handling of bins/pallets by optimizing order grouping.

• Smart Batching & Sequencing: Heuristic algorithms cluster high-correlation orders and schedule batches efficiently.

• Dynamic Equipment Awareness: Considers real-time device status for smoother outbound operations.

• Higher Multi-Order Fulfillment: Increases the likelihood of single picks serving multiple orders simultaneously.

This technology utilizes independent waterfall buffer chutes with gate mechanisms at each sorter's front-end, enabling dense pre-sorting of cigarette cartons before merging into the main conveyor.

• Reduced Product Damage: Pre-sorting eliminates gaps between cartons, minimizing handling impacts

• 20%+ Faster Transfer Speed: Outperforms traditional multi-stage belt merging methods

• 32,000 Cartons/Hour Capacity: Achieves industry-leading processing efficiency

• Sequential Merging Control: Intelligent gate operation ensures orderly main-line integration

• Compact Buffer Solution: Space-efficient design maintains high throughput in limited areas

This technology employs a proprietary composite optimization algorithm combining expert systems, hierarchical algorithms, and branch-and-bound methods to generate 10,000+ node delivery routes within 2 hours, balancing speed and solution quality.

• GIS-Based Maintenance: Spatial GIS platform for managing large-scale route optimization data

• Smart Zoning Design: AI-powered modeling integrating orders, customers, roads, products and vehicle attributes

• Parameter Visualization: Optimized route display based on orders, mileage and household metrics

• Dynamic Simulation: Real-time navigation with service-unit based route optimization

• Multi-Algorithm Fusion: Combines expert knowledge with advanced mathematical optimization techniques