Provides essential services for robot mass production and operations, including device management, data analytics, OTA, and remote diagnostics.
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 our self-developed robotics products, AutoCore offers a next-generation cloud-edge integrated AMR (Autonomous Mobile Robot) solution to simplify and accelerate development and mass production, enabling customers to focus on scenario innovation and win in the smart era.
One-stop solution for AMR
Pre-integrated and optimized AMR algorithms
Customized hardware design and integration
Cloud-edge integration for seamless access and management
Development is repetitive, inefficient, and slow. Foundational algorithms are built from scratch. Integration of hardware and software is complex. Balancing high computing power and low power consumption is challenging, wasting valuable R&D resources.
Complex driver adaptation
Difficult sensor integration
Low debugging efficiency
Slow product iteration
Operation and maintenance are passive, fragmented, and expensive. Lack of remote tools, data silos hinder smart upgrades. Development and O&M are disconnected, making problem reproduction difficult.
On-site debugging relies on manual work
Difficult fault diagnosis
Complex upgrade and maintenance
Missing operational data
Multiple performance bottlenecks exist.
Real-time performance cannot be guaranteed
High communication latency
Limited AI computing power
Insufficient scalability
AutoCore offers an integrated hardware-software and remote-collaborative Turnkey solution.
Provides essential services for robot mass production and operations, including device management, data analytics, OTA, and remote diagnostics.
Offers algorithm software repositories along with simulation environments.
An algorithm stack optimized for hardware, sensors, and OS compatibility.
Deeply optimized for AMR scenarios and fully ROS-compatible.
More stable, more secure, better performance.
Offers a deeply optimized robot operating system.
Supports multiple chips (Qualcomm, Rockchip, x86)
Diverse sensor support and unified abstraction layer
Rich standard peripheral interfaces
Lower development costs
Lower operational costs
Shorter time-to-market
Lower overall TCO
Improved ROI
Latency reduced to microsecond level
Faster AI inference speed
Improved communication efficiency
Enhanced system stability
Supports large-scale deployment
Focus on core business innovation
Quick response to market demands
Data-driven product optimization
Build a strong technology moat
Seize market opportunities early
AMRs autonomously transport goods from storage to picking areas, improving efficiency and reducing labor costs. Supports high-density stacking, multi-layer shelf operation, and seamless WMS integration.
AMRs transport components and products in manufacturing workshops to ensure continuous production and flexible manufacturing. Supports multi-point distribution, custom paths, and real-time status feedback.
AMRs cover key hospital logistics scenarios including operating rooms, sterilization centers, pharmacies, infusion centers, wards, labs, and warehouses. Supports timed multi-point scheduling and safety monitoring.
AMRs automate restocking, goods handling, and inventory checks in supermarkets. Supports shelf replenishment automation and backend system integration to enhance customer experience.
AMRs assist in transporting checked baggage from gates to baggage claim areas, improving speed and accuracy of handling.
AMRs support field tasks such as rice transplanting, offering advanced path planning and obstacle avoidance in complex environments to promote smart agriculture.