Benefits of Robotic Unloading Systems
Manual unloading and sorting are labor-intensive, inconsistent, and difficult to scale.
AMC Robotics delivers an end-to-end robotic unloading solution that improves efficiency, safety, and operational stability.
Autonomous Truck Unloading
Robotic systems unload parcels directly from trucks and containers without continuous manual handling.
Stable Throughput at Scale
Maintain consistent unloading and sorting performance regardless of labor availability or shift duration.
Improved Safety in Confined Spaces
Remove workers from hot, narrow, and repetitive unloading environments.
Seamless Integration with Sorting Lines
Designed to work directly with flexible conveyors and six-side scanning systems.
From Truck Arrival to Intelligent Sortation
Robotic unloading systems are deployed directly at unloading docks in large-scale logistics and parcel sorting centers.
The first robotic workcell autonomously unloads parcels from trucks and places them onto flexible conveyor connections. Parcels then pass through six-side scanning systems, where routing codes are identified in real time.
A second robotic workcell receives the routing information and performs accurate sorting and palletizing—completing the unloading-to-sortation process without manual intervention.
Core Capabilities of the Robotic Unloading System
Modular robotic workcells designed for autonomous unloading and SRC-based sortation.
Vision-Based Parcel Detection
Robust visual perception identifies parcels with varying shapes, sizes, and stacking conditions inside truck containers.
Autonomous Unloading Workcell
A mobile robotic arm unloads parcels from trucks and places them onto flexible conveyor connections with retry and fallback logic.
Six-Side Scan Integration (SRC-Based Routing)
The system integrates with six-side scanning equipment to receive routing codes and determine sorting destinations in real time.
Intelligent Sorting & Palletizing
Robotic arms sort parcels by destination and perform stable, space-efficient pallet stacking.
AI & VLA Closed-Loop Execution
Vision–Language–Action models enable perception, decision-making, execution, and validation in a closed loop, reducing manual intervention.
Edge-Deployed & Scalable Architecture
Edge computing enables offline operation, local inference, and scalable deployment across multiple unloading bays.