2月3日，对外发布的2026年中央一号文件提出"拓展无人机、物联网、机器人等应用场景"。记者注意 到，这是无人机和机器人首次被写入中央一号文件。 "当前，迅速发展的信息技术和人工智能技术，正与我国农业生产深度融合。"农业农村部南京农业机械 化研究所研究员夏先飞表示，作为智能农业装备的典型代表，无人机和农业机器人操作省心省力、作业 高质高效，能有效替代人力承担繁重、重复性高的作业环节，正成为生产一线用得越来越顺手的"新农 具"。 "今年的中央一号文件对我们鼓舞很大，期待未来能进一步降低研发成本和市场推广门槛，更早实现农 业机器人产品的规模化应用。"王佳虹说。 农机装备研发应用加快发展，农作物耕种收综合机械化率达到76.7%；智慧农业应用场景全链条拓展， 农用无人机保有量超过30万架、年作业面积突破4.6亿亩；农业机器人研发应用加快攻关突破……近年 来，我国农业现代化水平持续提升，农业科技进步贡献率超过64%。 在浙江杭州富阳的一处猕猴桃大棚里，智能采摘机器人伸出机器臂前端的蓝色软爪，轻轻抓住猕猴桃， 前后摇摆爪子，把猕猴桃从藤上"掰"了下来，摘下的猕猴桃顺着软管滑落到了小筐里。 王佳虹介绍，通过搭载激光雷达、机 ...

这款智能采摘机器人由杭州乔戈里科技有限公司研发生产。公司创新中心总监王佳虹介绍，通过搭载激 光雷达、机器视觉等多传感器融合系统，依托AI大模型和智能算法，采摘机器人能够自主识别出成熟 果实，并根据不同果实的不同生长状态，决策出最佳采摘位置与方向。如今公司正将这些技术快速复 制，用到番茄、草莓、黄瓜、彩椒等作物上。 目前，不仅农业机器人广泛渗透进我国农业生产的"耕、种、管、收、运"全场景作业中，农业无人机的 应用也愈发成熟，给相关企业带来发展新机遇。 早在2012年，大疆公司就开始将无人机技术应用于农业领域。如今，大疆农业无人机已应用在100多个 国家和地区，截至去年底全球累计销量突破60万台，国内农业无人机单年作业台数超过32万台，单年作 业量突破33亿亩次，实现650万吨物资吊运。 "中央一号文件首提无人机，是对无人机在农业领域应用价值的高度认可，为行业的未来发展注入强劲 动力。"大疆农业全球市场负责人沈晓君说。据新华社 2月3日对外发布的2026年中央一号文件提出"拓展无人机、物联网、机器人等应用场景"。记者注意到， 这是无人机和机器人首次写入中央一号文件。 "当前，迅速发展的信息技术和人工智能技术，正与 ...

Group 1 - The 2026 Central Document emphasizes the expansion of applications for drones, IoT, and robots in agriculture, marking the first time drones and robots have been included in this key policy document [1] - The mechanization rate for crop farming has reached 76.7%, with over 300,000 agricultural drones in operation, covering more than 460 million acres annually [1] - The contribution rate of agricultural science and technology to modernization has exceeded 64%, indicating significant advancements in agricultural technology [1] Group 2 - The intelligent picking robot developed by Qiaogeli Technology is designed to autonomously identify ripe fruits and determine the best picking methods using multi-sensor fusion systems and AI algorithms [2] - The Central Document has encouraged companies in the agricultural robotics sector to lower R&D costs and market entry barriers for broader application of agricultural robots [2] - DJI has applied drone technology in agriculture since 2012, with over 600,000 units sold globally and more than 320,000 units operating in China, achieving a workload of over 3.3 billion acres [3] - The recognition of drones in the Central Document is seen as a strong impetus for the future development of the agricultural drone industry [3]

3日对外发布的2026年中央一号文件提出"拓展无人机、物联网、机器人等应用场景"。记者注意 到，这是无人机和机器人首次写入中央一号文件。 "当前，迅速发展的信息技术和人工智能技术，正与我国农业生产深度融合。"农业农村部南京农业 机械化研究所研究员夏先飞表示，作为智能农业装备的典型代表，无人机和农业机器人操作省心省力、 作业高质高效，能有效替代人力承担繁重、重复性高的作业环节，正成为生产一线用得越来越顺手 的"新农具"。 农机装备研发应用加快发展，农作物耕种收综合机械化率达到76.7%；智慧农业应用场景全链条拓 展，农用无人机保有量超过30万架、年作业面积突破4.6亿亩；农业机器人研发应用加快攻关突破…… 近年来，我国农业现代化水平持续提升，农业科技进步贡献率超过64%。 作者：古一平 许舜达 "今年的中央一号文件对我们鼓舞很大，期待未来能进一步降低研发成本和市场推广门槛，更早实 现农业机器人产品的规模化应用。"王佳虹说。 目前，不仅农业机器人广泛渗透进我国农业生产的"耕、种、管、收、运"全场景作业中，农业无人 机的应用也愈发成熟，给相关企业带来发展新机遇。 早在2012年，大疆公司就开始将无人机技术应用于农业 ...

Group 1 - The 2026 Central Document emphasizes the integration of drones, IoT, and robotics in agriculture, marking the first time these technologies are included in such a document [1] - The mechanization rate for crop farming has reached 76.7%, with over 300,000 agricultural drones operating on more than 460 million acres annually, showcasing the rapid advancement in agricultural modernization [1] - The contribution of agricultural technology progress to modernization has exceeded 64%, indicating significant improvements in efficiency and productivity [1] Group 2 - The intelligent picking robot developed by Qiaogeli Technology is designed to autonomously identify ripe fruits using multi-sensor fusion systems, which include laser radar and machine vision [2] - The company aims to replicate its technology across various crops, including tomatoes and strawberries, and is optimistic about reducing R&D costs and market entry barriers for agricultural robots [2] - DJI has sold over 600,000 agricultural drones globally, with domestic operations exceeding 320,000 units and 3.3 billion acres of work completed, highlighting the growing acceptance and application of drone technology in agriculture [3] Group 3 - The inclusion of drones in the Central Document is seen as a strong endorsement of their value in agriculture, providing a boost to the industry's future development [3] - The "14th Five-Year Plan" period is identified as a critical phase for the accelerated development of new productive forces in agriculture, with a focus on innovative agricultural tools [3]

Core Viewpoint - The establishment of the "Intelligent Harvesting Robot Key Laboratory" by the Ministry of Agriculture and Rural Affairs marks a significant step towards addressing labor shortages in agriculture through the development of intelligent robots equipped with 3D vision and bionic arms [1][3]. Group 1: Establishment of the National Team - The newly approved laboratory is a timely response to the global issue of agricultural labor shortages, particularly in China, where the problem is more pronounced [3][4]. - The laboratory is led by Jicui Intelligent Manufacturing Technology Research Institute, in collaboration with Jiangsu Academy of Agricultural Sciences and Nanjing Agricultural Mechanization Research Institute [1][3]. Group 2: Technological Innovations - Jicui Intelligent has developed a leading intelligent harvesting technology system, successfully creating robots for harvesting tomatoes, strawberries, lychees, and apples [4]. - The core challenge for intelligent harvesting robots is accurately identifying and picking fruits in complex field environments, which traditional robots struggle with due to obstructions and lighting changes [6]. - Jicui's innovation includes a "perception-decision-execution" closed-loop process, utilizing a visual language model for multi-modal semantic perception to enhance fruit identification [6][7]. Group 3: Embodied Intelligence - "Embodied intelligence" is a key focus of the laboratory, emphasizing learning through interaction with the environment, akin to human intelligence development [10]. - The company has developed various embodied intelligence technologies, including a full-body visual motion attention strategy and remote operation technology based on large models [10][12]. Group 4: Challenges in Cost and Technology - The high cost of harvesting robots, ranging from 150,000 to 250,000 yuan for single-arm models and 500,000 to 800,000 yuan for multi-arm models, poses a barrier for small and medium-sized farms [15]. - Maintenance costs for domestic equipment are approximately 10,000 to 20,000 yuan annually, while imported equipment can reach 20,000 to 30,000 yuan, further deterring purchases [15]. - Despite a recognition accuracy exceeding 90% for mainstream models, challenges remain in extreme weather and complex scenarios, necessitating ongoing algorithm improvements [15]. Group 5: Integrated Innovation Model - The laboratory exemplifies an integrated innovation model, combining industry, academia, and research to create a complete innovation chain from basic research to industrial application [18]. - Jicui Intelligent is actively converting cutting-edge research into practical products and aims to establish a production base for nearly 10,000 intelligent robots by September 2026, which will significantly reduce manufacturing costs [18][20]. - The laboratory's short-term goal is to overcome key technical bottlenecks in intelligent harvesting robots, while the long-term vision includes expanding the application of agricultural robots across various farming processes [20][23].

Core Viewpoint - The establishment of the "Key Laboratory of Intelligent Harvesting Robots" by Jiangsu Jicui Intelligent Manufacturing Technology Research Institute, Jiangsu Academy of Agricultural Sciences, and Nanjing Agricultural Mechanization Research Institute represents a significant breakthrough in the application of embodied intelligence in agriculture, addressing labor shortages and low harvesting efficiency in the industry [1][3]. Group 1: Laboratory Establishment and Objectives - The laboratory aims to tackle industry pain points such as labor shortages and low harvesting efficiency by focusing on key technologies like 3D visual unordered grasping and multimodal precise perception [1][2]. - The collaboration among the three institutions is expected to enhance the development of an intelligent and standardized agricultural harvesting technology system, improving the level of agricultural production intelligence and mechanization [1][3]. Group 2: Technological Innovations and Capabilities - Jicui Intelligent Manufacturing has developed a leading intelligent harvesting technology system, successfully creating various intelligent harvesting robots for crops like tomatoes, strawberries, lychees, and apples [1][2]. - The technology reserves of Jicui Intelligent Manufacturing include embodied intelligent mobile welding robots, which provide technical references for collaborative control in agricultural harvesting robots, forming a diversified embodied intelligent technology system [2]. Group 3: Future Development and Industry Impact - The laboratory is set to become a leading base for research, transformation, and talent cultivation in embodied intelligent agricultural robots, aiming to integrate technological innovation with agricultural production needs [3]. - Nanjing's robot industry is experiencing rapid growth, with the city leveraging its strong manufacturing base and research resources to promote the integration of robot technology across various sectors, creating numerous exemplary cases [3][4].

Core Viewpoint - Dayu Water-saving Group is focusing on the integration of blockchain technology with high-end agriculture, aiming to drive agricultural modernization and innovation through technological empowerment [2][4]. Group 1: Event Overview - Dayu Water-saving held a high-end agricultural innovation seminar themed "Technology Empowers Agriculture, Innovation Leads the Future" in Tianjin, gathering experts from agricultural technology, financial technology, and policy research [2]. - The seminar featured a strategic cooperation agreement between Dayu Water-saving and Costa Group, focusing on the technological development of the blueberry industry and optimizing facility agriculture [2][3]. Group 2: Technological Innovations - The chairman of Costa Group emphasized that smart irrigation and robotic harvesting technologies are key solutions to agricultural labor shortages, expressing optimism about the collaboration with Dayu Water-saving [2][3]. - The chairman of Zhongke Yuandong introduced the innovative applications of smart harvesting robots in facility agriculture, highlighting the technology's potential for implementation in Yunnan's blueberry base [3]. Group 3: Expert Insights - Experts at the seminar recognized the vast potential of blockchain technology for digital asset confirmation in agriculture, innovative supply chain financial models, and carbon credit trading [3]. - A professor from China Agricultural University stressed the importance of collaboration between academia and industry to enhance high-quality agriculture and modern capital integration [3]. Group 4: Strategic Implications - Analysts noted that the seminar and signing actions clearly demonstrate Dayu Water-saving's strategic path in deepening its smart agriculture layout, targeting the high-end blueberry market and addressing labor shortages through robotic solutions [4]. - The exploration of RWA in agricultural asset financialization reflects the company's long-term strategic vision to establish a digital infrastructure in agriculture and seize future value opportunities [4].

Group 1 - The seminar titled "Innovation in High-end Agricultural Products in the RWA Era" was held by Dayu Irrigation Group, focusing on the integration of blockchain technology with high-end agriculture to promote digital and intelligent agricultural development [1] - Dayu Irrigation's chairman emphasized the revolutionary potential of emerging technologies such as artificial intelligence, robotics, and blockchain in transforming agriculture, and the company aims to explore the application value of RWA in agricultural asset circulation [1] - The vice president of China Agricultural University highlighted the importance of combining high-quality agricultural products with modern capital and praised Dayu Irrigation's leadership in agricultural technology innovation, calling for collaboration between academia and industry to strengthen agricultural development [1] Group 2 - Dayu Irrigation signed a strategic cooperation agreement with Australia's Costar Group to focus on technology research and development in the blueberry industry and optimize facility agriculture, aiming to rapidly scale up planting areas and create a high-standard digital berry planting demonstration base [2] - The company also signed a robotics research and development cooperation agreement with Zhongke Yuandian to promote the large-scale application of intelligent picking robots in facility agriculture, injecting technological momentum into modern agriculture [2] - During the seminar, participants discussed the paths and impacts of integrating RWA with agriculture, agreeing that blockchain technology presents new opportunities for agricultural asset digitization, supply chain finance, and carbon credit trading, while also emphasizing the need for improved policy compliance [2]

Core Viewpoint - The 32nd China Beijing Seed Industry Conference will be held in September, marking a significant step towards deeper agricultural collaboration among Beijing, Tianjin, and Hebei, which is crucial for forming a new pattern of complementary advantages and deep cooperation in agricultural development in the region [1] Group 1: Agricultural Collaboration Achievements - The implementation of the Beijing-Tianjin-Hebei collaborative development strategy has led to significant achievements in agricultural collaboration, enhancing the capacity for agricultural product security [1] - The "Net Vegetables into Beijing" initiative has established a robust agricultural product circulation system, with Hebei's vegetable market share in Beijing reaching 42.5%, making it the largest supplier of vegetables to the capital [1] - Collaborative efforts in modern seed industry projects and technology research have been initiated, focusing on creating a complete industrial chain from planting to logistics [1] Group 2: Challenges and Areas for Improvement - There are notable challenges, including conflicts between agricultural development and resource/environmental needs, as well as issues of homogeneity in agricultural industries and insufficient overall regional competitiveness [2] - The disparity in agricultural development levels is evident, with urban areas leading nationally while Hebei still has room for improvement [2] - The mechanism for technology transfer is not fully developed, indicating a need for a more mature regional collaborative innovation model [2] Group 3: Future Directions for Agricultural Development - There is a focus on enhancing agricultural industry collaboration to meet consumer demands for healthier products and improve the supply structure and quality of agricultural products [3] - Plans include establishing more vegetable production bases around Beijing and developing emergency supply bases for agricultural products [3] - Strengthening agricultural technology innovation through collaborative platforms and addressing key technological challenges specific to Hebei's conditions is a priority [3] Group 4: Environmental Management in Agriculture - Emphasis is placed on managing agricultural ecological environments, particularly in preventing agricultural non-point source pollution and sharing relevant data [4] - Initiatives to reduce the use of pesticides and fertilizers while promoting new technologies and products are being implemented [4] - Efforts to enhance the recycling of agricultural waste and improve the management of livestock waste and crop residues are underway [4]