工信部：工业互联网与船舶行业融合应用参考指南（2025年）

Core Viewpoint - The report titled "Guidelines for the Integration of Industrial Internet and Shipbuilding Industry Applications (2025)" focuses on promoting the digital transformation and high-quality development of the shipbuilding industry through the integration of industrial internet technologies. Group 1: Background and Significance - The industrial internet is a product of the integration of new-generation information technology and the real economy, serving as a core methodology for industrial digital transformation. The shipbuilding industry, with a solid information foundation and urgent transformation needs, is a key area for the application of industrial internet technologies. Recent advancements in digital workshops and "5G + industrial internet" have been noted, but overall application remains in the developmental stage, necessitating optimization across the entire process of research, production, and management to enhance the industry's sophistication, intelligence, and sustainability [1][2][19]. Group 2: Current Industry Status and Needs - The shipbuilding industry has made progress in deploying smart equipment, data interoperability, and virtual simulation applications. However, challenges such as an incomplete digital transformation support system, widespread data silos, and asynchronous digitalization levels across the supply chain persist. The industrial internet can empower the industry in areas such as: - Research and Design: Enhancing collaborative design and process simulation to improve research efficiency [2][27]. - Production Manufacturing: Utilizing digital management and real-time monitoring to address complexity and improve production efficiency and quality [3][29]. - Safety and Green Development: Implementing intelligent monitoring to optimize production environments and reduce risks, while enhancing energy utilization for green production [3][31]. - Supply Chain Management: Building a collaborative supply chain system to integrate upstream and downstream data, improving resilience and efficiency [4][33]. Group 3: Integration Application Models - The guidelines propose a "155N" development strategy, focusing on one goal (building a modern ship manufacturing system), solidifying five foundations (data, network, identification, platform, security), and strengthening five guarantees (organization, system, funding, talent, culture) to create multiple application scenarios. Specific application models include: - Platform-based design for parallel and intelligent design processes [5][6]. - Intelligent manufacturing covering all processes, integrating IoT and AI for automation and optimization [6][7]. - Networked collaboration to connect design, production, and supply chain data across enterprises [7][8]. - Service-oriented extensions for smart operations and data asset trading [8][9]. - Digital management and visualization for optimizing supply chain and marketing through data visualization [9][10]. Group 4: Implementation and Support - The construction of the industrial internet should be advanced through a three-tier architecture (workshop, enterprise, industry), focusing on building five major systems: network, identification, platform, security, and data. The implementation process follows an eight-step approach, emphasizing the need for organizational, institutional, funding, and talent support to ensure effective integration and application [10][12][24]. Group 5: Case Studies and Value - The guidelines highlight several case studies, such as Jiangnan Shipyard's digital collaborative design, which shortened construction cycles by nearly three months, and the intelligent warehousing management at China Shipbuilding Industry Corporation, which improved production efficiency and precision. These cases demonstrate the significant value of industrial internet applications in enhancing efficiency, reducing costs, and optimizing quality within the shipbuilding industry [11][12][19].