A major project, led by Harbin Institute of Technology Artificial Intelligence Research Institute Co., Ltd., has been initiated with an investment of 1 billion yuan. The project is designated as a national-level, full-chain pilot-scale data training base for new energy agricultural machinery and agricultural intelligent robots. It aims to break through core technology bottlenecks in these fields, establishing an innovation hub for agricultural equipment in Northeast China and nationwide, thereby contributing to rural revitalization and the building of a strong agricultural sector.
The project, titled "Harbin New Energy Agricultural Machinery and Agricultural Intelligent Robot Pilot Data Training Base," involves the construction of an indoor R&D and testing facility spanning approximately 6,900 square meters, along with a 500-mu field comprehensive verification and demonstration base. The platform will establish a "Four Centers" system. This includes a 1,300-square-meter public testing and certification center, a 1,300-square-meter technology R&D and prototype manufacturing center, an enterprise incubation and industrial services cluster, and field verification bases covering dryland, paddy field, and facility agriculture scenarios. The initiative is committed to creating a comprehensive pilot service chain from technology development and prototype trial production to testing, field verification, and enterprise incubation, forming an integrated industrial innovation platform.
The construction details are outlined as follows:
1. Public Testing and Certification Center: This center will feature several specialized platforms. A 500-square-meter whole-machine performance testing platform will be equipped to assess comprehensive performance, PTO output, traction, braking, and energy consumption according to national standards. A 200-square-meter intelligent system verification platform will conduct full-stack testing of perception, decision-making, communication, and control systems using hardware-in-the-loop simulation and multi-sensor fusion calibration. A 300-square-meter reliability and environmental adaptability testing platform will simulate extreme conditions using specialized chambers and vibration tables. A 300-square-meter precision operation testing platform will quantitatively evaluate tasks like weeding and seeding, supported by simulation software and digital twin systems.
2. Technology R&D and Prototype Manufacturing Center: This center is divided into three sections. A 200-square-meter Future Technology Research Center will focus on exploratory research in areas like agricultural metaverse and swarm intelligence. A 300-square-meter Common Technology Research Center will tackle industry-wide technical challenges through collaborative efforts. An 800-square-meter Prototype Trial-Production and Iteration Center will provide rapid manufacturing services from design to physical prototype, facilitating multiple rounds of design improvements.
3. Field Comprehensive Verification and Demonstration Base: This extensive outdoor facility includes multiple specialized zones. A 200-mu dryland verification base will simulate various field conditions and crops, equipped with data collection networks. A 200-mu paddy field verification base will replicate different water depths and soil conditions specific to rice cultivation. A 50-mu facility agriculture verification base will host smart robots for tasks like inspection and harvesting, with a precise data collection system. A 20-mu permanent demonstration core area will feature static displays and live demonstrations for promotion purposes. Finally, a 30-mu new operation mode试验基地 will test the feasibility of concepts like unmanned farms and multi-machine collaboration.
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