On May 13, the “Intelligent Connectivity, Shared Future” Forum on Embodied Intelligence and Intelligent Systems Innovation was successfully held in Jinan, Shandong Province.

The forum focused on the cutting-edge development of embodied intelligence and intelligent systems, with discussions centered on key areas including safe and trustworthy artificial intelligence, next-generation network architectures, intelligent medical imaging, embodied AI security protection, airborne embodied intelligence applications, core technologies for the supercomputing internet, and the development of high-quality industry datasets.

During the forum, the “Intelligent Diagnosis and Treatment Computing Research Center” was officially launched. Jointly established by the Shandong Higher Education Consortium for Next-Generation Information Technology and the Shandong Higher Education Consortium for Medical and Health Care, the center will leverage the strengths of the National Supercomputing Center in Jinan in high-performance computing, AI training, medical big data processing, and secure, trustworthy computing services. Working together with clinical institutions including affiliated hospitals of Shandong First Medical University, the center will address real-world clinical needs in areas such as precision oncology, early screening and diagnosis of major diseases, AI-assisted imaging diagnosis, rehabilitation assessment, and public health disease prevention and control.

The initiative aims to build a complete innovation chain spanning computing support, data governance, algorithm development, clinical validation, industrial application, and medical equipment R&D. The center is also expected to further strengthen collaboration among universities, hospitals, research platforms, and enterprises, while exploring an interdisciplinary innovation model that integrates clinical demand, scientific research, supercomputing support, industrial transformation, and clinical revalidation. It will provide strong support for advanced medical equipment development, multimodal medical foundation models, digital-twin healthcare, drug screening, and precision medicine.

At the launch ceremony for the white papers and research outcomes on supercomputing internet technologies, three major white papers were released: the Supercomputing Internet Architecture White Paper, the Supercomputing Internet Security Framework White Paper, and the Supercomputing Internet Transaction and Settlement Strategy White Paper. Addressing the three core questions of how computing power can be interconnected, securely operated, and efficiently traded and settled, the white papers systematically outline the technical roadmap, governance framework, and service models for building a supercomputing internet ecosystem. These efforts will help drive the transition of high-end computing resources from isolated supply models toward networked collaboration and from mere accessibility toward inclusive, user-friendly services.

The National Supercomputing Center in Jinan has fully leveraged its integrated strengths in “computing power + data + models + application scenarios,” achieving a series of landmark results in supercomputing internet technologies, artificial intelligence, data governance, and industry applications.

At the forum, four major datasets were unveiled, including a cross-domain multimodal scientific dataset, a legal and compliance operations dataset, the “Hydrogen into Thousands of Homes” full-scenario multi-source heterogeneous dataset, and the Zhijiang Industrial Multimodal Large-Scale Dataset. Covering key sectors such as energy transition, corporate compliance, scientific research, and industrial manufacturing, these datasets integrate real-world operational data, industry knowledge, scientific observation data, and industrial multimodal data. They are expected to provide robust support for industry foundation model training, AI agent development, knowledge base construction, risk early warning systems, decision-making assistance, and industrial digital transformation, helping turn data resources into intelligent capabilities, innovation capacity, and industrial value.

The successful hosting of the forum created an important platform for high-level talent exchange, frontier technology discussions, and the release of innovative achievements in the fields of embodied intelligence and intelligent systems. It also further strengthened collaboration among universities, research institutes, supercomputing platforms, and industry enterprises.

Looking ahead, the forum will continue to leverage strengths in education, technology, talent, and industrial foundations to accelerate breakthroughs in key embodied intelligence technologies, expand application scenarios, and foster a more dynamic innovation ecosystem. These efforts will provide stronger intellectual support and innovation momentum for cultivating future industries, developing new quality productive forces, and advancing the construction of a digitally empowered Shandong.

(责任reporter :news)