Provides essential services for mass production and maintenance, such as device management, data analytics, OTA, remote diagnostics, etc.
Delivers full-stack solutions that seamlessly integrate with mainstream SoCs and sensors, fully supporting the ROS ecosystem. The hardware includes core controllers, while the software features advanced brain and nervous systems, complemented by SaaS services to enhance robot intelligence.
Additionally, mature AMR/AGV/Embodied AI solutions facilitate rapid OEM product development and efficient mass production.
Based on AutoCore's robotics products, we provide a complete AGV (Automated Guided Vehicle) system solution that standardizes and platforms underlying technologies, freeing you from engineering complexities.
One-stop AGV solution
Pre-integrated optimized AGV algorithms
Custom hardware design and integration
Cloud and edge integration for seamless access and management experience
Long R&D cycles, repeated algorithm development, complex hardware-software integration, and the challenge of balancing performance and power consumption hinder innovation and competitiveness.
High failure rates require frequent manual intervention, disrupting workflows and impacting productivity.
Inefficient fault diagnosis and maintenance; every on-site debugging and firmware upgrade eats into profits and customer satisfaction.
Too much time spent debugging low-level drivers and coordinating systems; integration of devices, sensors, and control systems is difficult, delaying core algorithm innovation and custom scenario development.
AutoCore provides integrated hardware-software and remote-collaborative Turnkey solutions.
Provides essential services for mass production and maintenance, such as device management, data analytics, OTA, remote diagnostics, etc.
Offers algorithm software repositories along with simulation environments.
Optimized algorithm stack tailored for hardware, sensors, and OS compatibility.
Deeply optimized OS for AGV scenarios, fully compatible with ROS.
More stable, more secure, better performance.
Offers a deeply optimized robot operating system
Multi-chip compatibility (Qualcomm, Rockchip, x86)
Diverse sensor support and unified abstraction
Rich standard peripheral interfaces
Predictive maintenance reducing emergency repair costs and enables smart upgrades without full system overhaul.
Minimizes downtime due to failure, improving overall efficiency.
Delivers more reliable performance in high-precision docking scenarios.
Optimized for cost-performance in fixed-path applications.
Used in scenarios with structured data processing, fixed paths, and high payloads.
Fixed route, precisely follows floor magnetic strips.
Automotive assembly lines with fixed workstations and delivery routes.
Fixed shelf layout and organized aisles.
Fixed pick-up routes in traditional warehouses.
Simple tasks, fixed paths, cost control.
Fixed steel transportation lines in steel plants.
Controlled environments with limited human activity.
Material circulation in unmanned workshops.