“2023中国智能制造十大科技进展”入围项目公示

2023年5-10月，中国科协智能制造学会联合体开展“中国智能制造科技进展”研究，经过15家成员学会、智能制造领域内专家的推荐、遴选，现有10项科技进展成果入围“2023中国智能制造十大科技进展”。现将入围项目予以公示，公示期10月27日-11月3日。

“2023中国智能制造十大科技进展”入围项目公示

（排名不分先后）

一、活体细胞精准操作机器人技术及系统

关键词：机器人技术；显微操作；细胞操作；动物克隆

入围理由：活体细胞操作对生物医药的发展，农业育种关键核心问题的解决具有重要意义且需求增长迅猛。南开大学面向生命科学发展的迫切需求，研发活体细胞精准操作机器人技术及系统，旨在利用机器人代替人工实现自动化活体细胞操作。活体细胞有生命，具有操作成功率低、操作后成活率低、后续发育率低的特点，对机器人技术提出了极大挑战。本项进展为生命科学研究与成果推广提供自动化细胞操作系统，具有广泛的应用价值。研发基于最小力的精准定点操作技术、基于最小应变的精准微创操作技术、面向最小去核量的定量去核操作技术，研制出国内活体细胞精准操作机器人系统。成果应用于生物医药、脑科学研究，已在14家单位实现应用。 数字化转型网www.szhzxw.cn

二、核燃料组件自主化关键制造技术及成套装备

关键词：核燃料组件；制造技术；装备开发

入围理由：核燃料组件作为最重要的核岛内反应堆部件及核工业的战略性基础部件，对国家“安全高效发展核电”的能源战略、核工业产业安全等具有重大影响。湖南大学面向国家重大需求，历经10余年产学研联合攻关，针对核燃料从“芯块”到“元件”再到“组件”整个链条关键智能制造技术开展系统研究，攻克一系列关键共性技术及核心智能制造工艺，研制成套智能化装备，包括：辐射损伤可靠性分析与设计关键共性技术；核燃料芯块制备的磨削制造工艺及自动化装备；核燃料组件组装制造的格架条带级进模冲制工艺与智能化装备等。本项科技进展自主开发芯块制备、元件制造、组件组装3个方面共计8类关键工艺及11类系列化高端设备/装备，支撑建设我国5条核燃料组件制造骨干生产线，推动我国核工业实现“中国芯”的核心能力建设，形成完整的技术、工艺及装备体系，相关研究成果有力推动了我国核燃料组件制造从受制于人到整体技术自主可控的重要转变，为核工业产业安全及国家能源战略安全提供有力保障。

三、燃气轮机全寿命周期一体化研制关键技术研究与应用

关键词：燃气轮机；数字化工厂；全寿命周期数字化

入围理由：燃气轮机是国之重器，是涉及国家国防安全和能源安全的战略性高端装备，在船舶动力、分布式能源和发电等领域有着不可替代的战略地位和作用。中国船舶集团有限公司第七〇三研究所、中船重工龙江广瀚燃气轮机有限公司联合攻关燃气轮机全寿命周期一体化研制与新一代信息技术创新融合，利用数字技术对燃气轮机研制进行全方位、全角度、全链条赋能，提升全要素生产率。通过近10年的建设实践，解决燃气轮机设计、制造、维修等核心技术问题，成功研制具有自主知识产权的工业燃气轮机，在天然气输送、油气开采、分布式能源、应急供电等领域实现应用。本项科技进展以全面建设燃气轮机数字化工厂为目标，构筑燃气轮机全寿命周期数字化、智能化创新链，实现研发设计数字化、制造过程可视化、试验数据资产化、服务保障智能化，产品研发周期缩短30%，生产能力提升一倍以上，单台燃机成本降低约600万元。 数字化转型网www.szhzxw.cn

四、水稻生产全程数字化管理与智能装备产业化

关键词：水稻智慧生产；智能农机；数字化管理平台；决策模型

入围理由：中联农业机械股份有限公司、中联智慧农业股份有限公司、国家农业智能装备工程技术研究中心与安徽中科智能感知科技股份有限公司以水稻生产为对象，全过程运用耕、种、管、收、储五个环节智能化农机装备和数字化管理，通过解决水稻生产智能化水平低、数字化管理缺失、农机农艺数据不融合等问题，使水稻生产从“靠天吃饭”，转变为依托智能装备，依靠科学决策依据进行全过程数字化管理的农业生产方式。水稻生产全过程使用卫星激光平地技术，使土地平整度不超过3cm；种植过程采用无人化有序抛秧机抛秧技术，替代人工并缩短秧苗缓青期，实现增产；收获环节人工智能收割机根据作物姿态、土壤环境、天气情况等信息，实现自适应调节、低损收获；运输环节由无人运粮车与收获机完成自动卸粮后，转运至智能烘干中心，利用水稻水分烘干曲线控制技术，降低爆腰率、减少谷物内伤，从而增加水稻出米率，同时保粮食品质。生产过程中配合数字化管理平台，构建土壤、病虫害、肥力等决策模型，90%以上的病虫草害和水分长势识别精度，实现精准喷药、变量追肥、智能灌溉和作物长势全程监控。全程智能装备与技术应用，每亩可以减少农事作业30%~40%；减少农药投入约20元；减少各类肥料20-30元；节水30%左右；碳汇量约1.8~2吨，效益显著。 数字化转型网www.szhzxw.cn

五、离子束设备与工艺解决方案的国产化替代

关键词：离子束装备；超精密微纳加工；国产替代

入围理由：佛山市博顿光电科技有限公司从源头突破核心技术和关键工艺，实现高性能离子源及离子束装备的全国产化，工艺应用功能表现优异。如：在航天探测领域实现SiC光学遥感反射镜大面积高均匀性低温镀银；实现激光陀螺反射镜的亚纳米抛光修形、5PPM超低损耗极致指标镀膜；在国产光刻机镜头的超光滑镜片亚纳米抛光修形、掩膜版多层纳米级镀膜/刻蚀（钼硅）、紫外超低吸收镀膜等工艺上得到应用。高性能离子源产品进入半导体领域并实现批量和标杆客户复购的离子源产品，助力半导体领域特色工艺线应用实现突破。同时，开发出矩形射频离子源产品，在高温超导带材领域实现超薄超高精度种子层薄膜的低温大面积卷绕式镀膜量产。

六、立面维护机器人在大型复杂立面的智能化作业技术及装备

关键词：立面维护机器人；爬壁机构创成；工艺动态规划；智能安全作业；人机高效协作

入围理由：面向船舶、石化、风/核电等行业大型立面维护作业需求，彼合彼方机器人（天津）有限公司聚焦爬壁机器人工程应用中的技术与工艺瓶颈，系统突破爬壁机构创成设计、高效高质工艺规划、智能感知安全作业、人机互助高效协作等关键技术，创新研发出立面除锈、喷涂、检测机器人，构建覆盖立面维护全流程的智能化机器人立面维护作业体系。机器人现已应用船舶、石化、风/核电等行业，并实现海外供货。 数字化转型网www.szhzxw.cn

七、面向批量定制的自适应可重构柔性控制技术

关键词：在线工艺规划；自适应运动规划；自动编程

入围理由：中国科学院沈阳自动化研究所针对批量定制产品离线工艺规划、机器人与PLC离线编程周期长的难题，通过融合在线工艺知识学习与推理、自适应运动规划、自动编程的工艺控制一体化、自动化架构，突破非结构化工艺知识高效提取、工艺知识主动推荐、复杂约束下机器人快速路径寻优、机器人和PLC程序自动生成与转换等技术，实现批量定制过程柔性控制系统的自适应可重构，大幅缩短批量定制的工艺规划、编程离线调整时间，以及交付周期。有力支撑批量定制产品对于生产系统快速响应的需求。本项科技进展已在电梯行业进行示范应用，研发出的上坎门头自适应可重构柔性装配系统，缩短电梯批量个性化定制的交付周期40%。该项科技进展成果也已推广至航天重大防务装备的柔性制造。

八、基于5G+工业互联的增材制造产线及在航天高端装备中的应用

关键词： 增材制造产线；5G+工业互联；航天高端装备

入围理由：面对当前增材制造单机设备有效利用率低、全流程自动化水平低、数据价值低、过程管控弱等问题，北京星航机电装备有限公司增材制造与5G融合，建成基于5G+工业互联的增材制造产线。通过开发多缸体连续生产的增材制造设备、自适应粉末循环供粉系统、基于力传感补偿的成形缸粉末自动清理、以及基于5G低时延RGV/AGV物流和基于力反馈的基板自动紧松螺钉等增材制造产线全流程的自动化成套装备，借助5G“大带宽、低时延、广连接”技术，打通自动化和信息化孤岛，增材制造产线实现设备、生产过程、工艺数据的全方位采集与信息集成。开发基于任务驱动的增材制造产线协同控制系统，实现基于5G边缘云存储与低时延的打印程序下发，生产调度、生产状态实时反馈，产线装备异常管控等功能。该科技进展成果已在近10余种航天装备4000余件产品实现应用，显著降低生产成本、提高生产效率，提升产品管控质量。 数字化转型网www.szhzxw.cn

九、差别化聚酯长丝高效规模化智能制造工厂

关键词：智能制造；工业互联网平台；5G技术；未来工厂

入围理由：化纤行业是我国纺织工业的重要支柱产业，正面临着领先地位竞争激烈、产业不断外移的风险与压力。新凤鸣集团股份有限公司针对设备多、环节多、批次多、作业细的生产过程特点；规模化、长周期、产业链长的工艺制造特点和多工艺段、多产线并行的规模化制造特点，打造差别化聚酯长丝高效规模化智能制造工厂。综合应用5G、人工智能、数字孪生、工业互联网和先进制造工艺等10余项技术，以解决超1300万吨产能和超500亿产值所带来“大而不强，大而不精，大而不智 ”的工厂管理问题，同时解决行业装置分段式运作、数据链不完善、产业链协同管理能力低等共性问题。本项科技进展构建形成：“1（凤平台）+2（双网融合）+4（四链协同）+N（N家企业输出服务）”智能工厂构建新模式；产业协同化、产业数字化、管理现代化和数字产业化的智能工厂“四化”运营新样板；5G MEC云网融合、5G飘丝巡检机器人等工业场景5G创新应用；解决方案可复制可推广，服务行业多家企业。 数字化转型网www.szhzxw.cn

十、现代制造业高速高精智能感知测控关键技术及应用

关键字：现代制造业；智能感知；测控技术；高速高精；生产流水线

入围理由：上海大学通过产学研协同攻关突破现代制造业高速高精智能感知测控关键技术难题，针对现代高速生产过程中造成视觉传感图像亮度不均、拖尾、模糊等问题，提出基于局部能量离散水平集图像子空间定位算法，攻克复杂场景下模糊图像的精准定位技术，技术高速动态检测精度达到了0.01毫米。提出基于区域投影直方图不变特征的数据稀疏表征映射匹配算法，实现图像子空间快速搜索。研发了速度1100米/分钟线缆检测装备。研制拥有自主产权的高速高精智能感知测控系统，攻克车辆紧固件、医药包装、新能源电池等产线的高速测控难题，实现在确保检测后产品合格率100%情况下，误检率小于0.3%。

以上为“2023中国智能制造十大科技进展”入围项目基本介绍。公示期为2023年10月27日-11月3日。

关于“中国智能制造十大科技进展”

自2017年起，中国科协智能制造学会联合体持续7年开展“智能制造科技进展”研究，以智能化车间/工厂、智能制造技术及装备、基础、标准、服务模式等维度，持续跟踪发展与应用趋势，研究分析不同行业、企业推进智能制造的实践案例，遴选“中国智能制造十大科技进展”。

智能制造科技进展的研究、推荐、遴选，主要从创新性、引领性、应用成效、影响力、未来预期、知识产权等方面考虑，在智能制造领域中具有前沿性、新颖性或实质性、示范性的技术突破；解决智能制造领域技术难点或行业热点问题；在劳动生产率、效能回报率、对生态和生活环境改善的贡献程度；以及对行业创新能力和竞争力的提升等方面都具有一定影响。 数字化转型网www.szhzxw.cn

翻译：

“2023 China Intelligent manufacturing ten scientific and technological progress” finalist project announcement

From May to October 2023, the Intelligent Manufacturing Society of China Association for Science and Technology consortium carried out the research of “China’s intelligent manufacturing science and technology Progress”, after the recommendation and selection of 15 member societies and experts in the field of intelligent manufacturing, the existing 10 scientific and technological progress achievements were shortlisted for “2023 China’s top ten scientific and technological progress of intelligent manufacturing”. The shortlisted projects will now be publicized, and the publicity period will be from October 27 to November 3. 数字化转型网www.szhzxw.cn

“2023 China Intelligent manufacturing ten scientific and technological progress” finalist project announcement

(in no particular order)

Living cell precision operation robot technology and system

Key words: robot technology; Micromanipulation; Cell manipulation; Animal cloning

Live cell manipulation is of great significance to the development of biomedicine and the solution of key core problems in agricultural breeding, and the demand is growing rapidly. Facing the urgent needs of the development of life science, Nankai University develops the technology and system of living cell precision operation robot, aiming to realize the automatic living cell operation by using robot instead of human. Living cells are alive, with the characteristics of low operation success rate, low survival rate after operation, and low subsequent development rate, which poses great challenges to robot technology. This development provides an automated cell operating system for life science research and achievement promotion, and has wide application value. Research and development of precision fixed-point operation technology based on minimum force, precision minimally invasive operation technology based on minimum strain, quantitative nucleation operation technology for minimum nucleation, and the development of domestic living cell precision operation robot system. The results have been applied in biomedicine and brain science research, and have been applied in 14 units.

Key manufacturing technologies and complete sets of equipment for autonomous nuclear fuel assemblies

Key words: nuclear fuel assembly; Manufacturing technology; Equipment development

As the most important reactor components in the nuclear island and the strategic basic components of the nuclear industry, nuclear fuel components have a significant impact on the national energy strategy of “safe and efficient development of nuclear power” and the safety of the nuclear industry. Facing the major needs of the country, after more than 10 years of industry-university-research joint research, Hunan University has carried out systematic research on the key intelligent manufacturing technologies of the whole chain of nuclear fuel from “pellet” to “component” to “component”, conquered a series of key common technologies and core intelligent manufacturing processes, and developed complete sets of intelligent equipment, including: key common technologies for radiation damage reliability analysis and design; Grinding and manufacturing process and automatic equipment for the preparation of nuclear fuel pellets; The grid strip progressive die punching process and intelligent equipment for the assembly of nuclear fuel assemblies. This scientific and technological progress independently develops a total of 8 types of key processes and 11 types of serialized high-end equipment/equipment in 3 aspects of pellet preparation, component manufacturing and component assembly, supports the construction of 5 backbone production lines of nuclear fuel assembly in China, promotes the core capability construction of “China core” in China’s nuclear industry, and forms a complete technology, process and equipment system. The relevant research results have strongly promoted the important transformation of China’s nuclear fuel assembly manufacturing from being subject to others to the overall technology autonomy and control, and provided a strong guarantee for the safety of the nuclear industry and the national energy strategy. 数字化转型网www.szhzxw.cn

Research and application of key technologies for integrated development of gas turbine life cycle

Key words: gas turbine; Digital factory; Full life cycle digitization

Shortlisted reasons: Gas turbine is a national instrument, is involved in national defense security and energy security of the strategic high-end equipment, in the field of ship power, distributed energy and power generation has an irreplaceable strategic position and role. The 73rd Research Institute of China State Shipbuilding Corporation Limited and CSIC Longjiang Guanghan Gas Turbine Co., Ltd. jointly study the integrated development of the whole life cycle of gas turbines and the innovative integration of the new generation of information technology, and use digital technology to enable the development of gas turbines in all aspects, all angles and all chains, and improve the total factor productivity. Through nearly 10 years of construction practice, the company has solved core technical problems such as gas turbine design, manufacturing and maintenance, successfully developed industrial gas turbines with independent intellectual property rights, and realized applications in natural gas transmission, oil and gas exploitation, distributed energy, emergency power supply and other fields. This scientific and technological progress aims to comprehensively build a gas turbine digital factory, build a digital and intelligent innovation chain for the whole life cycle of gas turbines, realize the digitization of R&D design, visualization of manufacturing process, test data assets, and intelligent service guarantee, shorten product R&D cycle by 30%, increase production capacity by more than double, and reduce the cost of a single gas turbine by about 6 million yuan. 数字化转型网www.szhzxw.cn

The whole process of rice production digital management and intelligent equipment industrialization

Key words: rice intelligent production; Intelligent agricultural machinery; Digital management platform; Decision model

Reasons for shortlisting: Zhonglian Agricultural Machinery Co., LTD., Zhonglian Intelligent Agriculture Co., LTD., National Agricultural Intelligent Equipment Engineering and Technology Research Center and Anhui Zhongke Intelligent Sensing Technology Co., LTD., take rice production as the object, the whole process uses five links of intelligent agricultural machinery equipment and digital management: ploughing, planting, management, harvesting and storage. By solving the problems of low intelligence level of rice production, lack of digital management, and non-integration of agricultural machinery and agronomic data, rice production has changed from “relying on the sky to eat” to relying on intelligent equipment and relying on scientific decision-making basis for the whole process of digital management of agricultural production. The whole process of rice production uses satellite laser leveling technology, so that the flatness of the land does not exceed 3cm; In the planting process, the technology of unmanned orderly seedling throwing machine was adopted to replace manual and shorten the slow green period of seedlings to achieve yield increase. The artificial intelligence harvester realizes self-adaptive adjustment and low-loss harvest according to information such as crop posture, soil environment and weather conditions; In the transportation link, after the automatic unloading of grain by the unmanned grain truck and the harvest machine, the grain is transferred to the intelligent drying center, and the rice moisture drying curve control technology is used to reduce the burst waist rate and reduce the internal injury of the grain, thereby increasing the rice yield and maintaining the grain quality. In the production process, with the digital management platform, the decision-making model of soil, pests and diseases, and fertility is built, and the identification accuracy of disease, insect and grass damage and water growth is more than 90%, and the precision spraying, variable topdressing, intelligent irrigation and the whole process monitoring of crop growth are realized. The whole process of intelligent equipment and technology application, can reduce farming operations by 30% to 40% per acre; Reduce pesticide input about 20 yuan; Reduce all kinds of fertilizers 20-30 yuan; Water saving about 30%; The carbon sink is about 1.8~2 tons, and the benefit is significant. 数字化转型网www.szhzxw.cn

Localization of ion beam equipment and process solutions

Key words: ion beam equipment; Ultra-precision micro and nano machining; Domestic substitution

Shortlisted reasons: Foshan Boton Optoelectronic Technology Co., Ltd. from the source to break through the core technology and key processes, to achieve high-performance ion source and ion beam equipment localization, process application function performance is excellent. For example, in the field of space exploration, the SiC optical remote sensing mirror has a large area of high uniformity and low temperature silver plating; Sub-nano polishing and modification of laser gyro mirror, 5PPM ultra-low loss ultimate index coating; It has been used in sub-nano polishing and modification of ultra-smooth lenses of domestic lithography machine lenses, multilayer nano-coating/etching (molybdenum silicon) of mask plate, ultra-low UV absorption coating and other processes. High-performance ion source products enter the semiconductor field and achieve batch and benchmark customer re-purchase ion source products, helping the semiconductor field characteristic process line application to achieve breakthroughs. At the same time, rectangular RF ion source products have been developed to achieve mass production of ultra-thin and ultra-high precision seed layer films in the field of high temperature superconducting strips.

Intelligent operation technology and equipment of facade maintenance robots in large and complex facades

Key words: facade maintenance robot; Wall climbing mechanism was created; Process dynamic planning; Intelligent safe operation; Man-machine efficient collaboration

Reasons for shortlisting: Facing the needs of large-scale facade maintenance operations in shipbuilding, petrochemical, wind/nuclear power and other industries, Bihe Bifang Robot (Tianjin) Co., Ltd. focuses on the technical and process bottlenecks in the engineering application of wall-climbing robots, and breaks through key technologies such as the creation design of wall-climbing mechanisms, efficient and high-quality process planning, intelligent perception and safety operation, and man-machine mutual assistance and efficient cooperation. Innovative development of facade rust removal, spraying, inspection robots, to build an intelligent robot facade maintenance operation system covering the whole process of facade maintenance. Robots are now used in Marine, petrochemical, wind/nuclear power and other industries, and to achieve overseas supply. 数字化转型网www.szhzxw.cn

Adaptive reconfigurable flexible control technology for mass customization

Key words: online process planning; Adaptive motion planning; Automatic programming

Reasons for shortlisting: Shenyang Institute of Automation, Chinese Academy of Sciences, aimed at the problems of offline process planning of mass-customized products, long offline programming cycle of robots and PLC, through the integration of online process knowledge learning and reasoning, adaptive motion planning, automatic programming process control integration, automation architecture, It breaks through technologies such as efficient extraction of unstructured process knowledge, active recommendation of process knowledge, rapid path optimization of robots under complex constraints, automatic generation and conversion of robots and PLC programs, and realizes adaptive reconfiguration of flexible control system of batch customization process, greatly shortening process planning, programming offline adjustment time, and delivery cycle of batch customization. Strong support for mass customized products for the rapid response of the production system needs. This scientific and technological progress has been demonstrated in the elevator industry, and the adaptive reconfigurable flexible assembly system of the upper slab-head has been developed, reducing the delivery cycle of elevator batch personalized customization by 40%. This scientific and technological progress has also been extended to the flexible manufacturing of major aerospace defense equipment.

Additive manufacturing production line based on 5G+ industrial interconnection and its application in high-end aerospace equipment

Key words: additive manufacturing production line; 5G+ industrial interconnection; High-end aerospace equipment

Shortlisted reasons: In the face of the current problems such as low effective utilization rate of single additive manufacturing equipment, low level of full process automation, low data value, and weak process control, Beijing Xinghang Machinery and Electrical Equipment Co., Ltd. has integrated additive manufacturing and 5G to build an additive manufacturing production line based on 5G+ industrial interconnection. Through the development of additive manufacturing equipment for multi-cylinder continuous production, adaptive powder cycle feeding system, automatic cleaning of forming cylinder powder based on force sensing compensation, and automatic equipment for the whole process of additive manufacturing production line based on 5G low-delay RGV/AGV logistics and automatic substrate tightening screws based on force feedback, With 5G “large bandwidth, low delay, wide connection” technology, open up automation and information islands, additive manufacturing production line to achieve a full range of equipment, production process, process data collection and information integration. Develop a task-based additive manufacturing production line collaborative control system to realize functions such as 5G edge cloud storage and low-delay printing program delivery, production scheduling, real-time feedback of production status, and abnormal control of production line equipment. The scientific and technological progress achievements have been applied in more than 4,000 products of nearly 10 kinds of aerospace equipment, significantly reducing production costs, improving production efficiency, and improving product control quality. 数字化转型网www.szhzxw.cn

Differentiated polyester filament efficient large-scale intelligent manufacturing factory

Key words: intelligent manufacturing; Industrial Internet platform; 5G technology; Factory of the future

The chemical fiber industry is an important pillar industry of China’s textile industry, which is facing the risk and pressure of fierce competition in leading position and continuous industry migration. New Fengming Group Co., Ltd. for the equipment, links, batches, detailed production process characteristics; Large-scale, long cycle, long industrial chain process manufacturing characteristics and multi-process segment, prolific line parallel large-scale manufacturing characteristics, to create a differentiated polyester filament efficient large-scale intelligent manufacturing factory. Comprehensive application of 5G, artificial intelligence, digital twin, industrial Internet and advanced manufacturing technology and other more than 10 technologies to solve the production capacity of more than 13 million tons and more than 50 billion output value brought by “big but not strong, big but not fine, big but not smart” factory management problems, At the same time, it solves the common problems of segmented operation of industrial devices, imperfect data link, and low collaborative management ability of industrial chain. The construction of this scientific and technological progress is formed: “1 (Phoenix platform) +2 (dual network integration) +4 (four-chain collaboration) +N (N enterprises output services)” smart factory construction new model; A new model for the operation of the “Four modernizations” of smart factories with industrial synergy, industrial digitalization, management modernization and digital industrialization; 5G MEC cloud network integration, 5G filament inspection robots and other industrial scenes 5G innovation applications; The solution can be copied and promoted to serve many enterprises in the industry.

Key technologies and applications of high-speed and high-precision intelligent sensing measurement and control in modern manufacturing industry

Key words: modern manufacturing industry; Intelligent perception; Measurement and control technology; High speed and high precision; Production line 数字化转型网www.szhzxw.cn

Reasons for shortlisting: Through industry-university-research collaboration, Shanghai University has broken through the key technical problems of high-speed and high-precision intelligent sensing measurement and control in modern manufacturing industry. Aiming at the problems caused by uneven brightness, tailing and blurring of visual sensing images in the process of modern high-speed production, it proposes an image subspace positioning algorithm based on local energy discrete level set to overcome the precise positioning technology of fuzzy images in complex scenes. The high speed dynamic detection accuracy reaches 0.01 mm. A sparse representation mapping matching algorithm based on invariant features of regional projection histogram is proposed to achieve fast search of image subspace. Developed a speed of 1100 m/min cable detection equipment. Develop high-speed and high-precision intelligent sensing measurement and control system with independent property rights, overcome the high-speed measurement and control problems of vehicle fasteners, medical packaging, new energy batteries and other production lines, and realize that the false detection rate is less than 0.3% when the pass rate of products is 100% after detection.

The above is the basic introduction of the shortlisted projects of “2023 China’s Top Ten scientific and technological advances in intelligent Manufacturing”. The publicity period is from October 27 to November 3, 2023. 数字化转型网www.szhzxw.cn

About the “Top Ten Scientific and Technological Advances in China’s Intelligent Manufacturing”

Since 2017, the Association of Intelligent Manufacturing Society of China Association for Science and Technology has carried out research on “Progress in intelligent manufacturing technology” for 7 years, continuously tracking development and application trends in intelligent workshops/factories, intelligent manufacturing technology and equipment, foundations, standards, service models and other dimensions, and studying and analyzing practical cases of different industries and enterprises to promote intelligent manufacturing. Select “Top ten scientific and technological advances in China’s intelligent manufacturing”.

Research, recommendation, selection of intelligent manufacturing technology progress, mainly from the aspects of innovation, leading, application effectiveness, influence, future expectations, intellectual property rights and other considerations, in the field of intelligent manufacturing with cutting-edge, novel or substantial, exemplary technological breakthroughs; Solve technical difficulties or industry hot issues in the field of intelligent manufacturing; In terms of labor productivity, return on performance, and contribution to ecological and living environment improvement; It also has a certain impact on the improvement of innovation ability and competitiveness of the industry.

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