首届国际工程智能大赛
今日启动
赛题解读抢先看
自由创新赛道:
以智慧拓展工程边界,勇做工程领域的先行者
Free Innovation Track:Expand Engineering Boundaries with Wisdom and Be Pioneers in the Engineering Field
当前,全球正处于一场由人工智能驱动的深刻变革之中。在工程领域,无论是基础设施的规划、设计、建造与运维,还是各类系统的运行优化与风险管控,传统模式正面临前所未有的挑战与机遇。我们看到,从智慧城市建设的宏观愿景,到能源系统的高效调度,从环境污染的智能监测与治理,到重大工程项目的安全与质量保障,无一不呼唤着更智能、更高效、更具韧性的解决方案。
Currently, the world is undergoing a profound transformation driven by artificial intelligence. In the engineering field, whether it is the planning, design, construction, and operation-maintenance of infrastructure, or the operational optimization and risk management of various systems, traditional models are facing unprecedented challenges and opportunities. We can see that from the macro vision of smart city construction to the efficient dispatch of energy systems, from the intelligent monitoring and governance of environmental pollution to the safety and quality assurance of major engineering projects, all are calling for smarter, more efficient, and more resilient solutions.
例如,在交通工程领域,我们正从“车路分割”迈向“车路云一体化”,以期解决城市拥堵、提升系统韧性;在土木工程领域,我们正通过建立高保真度的结构数字模型,加速桥梁工程的数字化与智能化转型,以此奠定桥梁全生命周期性能预测与安全保障的基础。然而,这仅仅是工程智能化变革的一个缩影。在广阔的工程世界中,仍存在大量尚未被充分探索、尚未被AI技术深度赋能的“空白地带”和“深水区”。许多工程问题,其复杂性、动态性和多学科交叉性,使得现有单一学科或传统方法难以提供最优解。
For example, in the field of traffic engineering, we are moving from "separated vehicle-road operation" to "vehicle-road-cloud integration" to solve urban congestion and enhance system resilience; in the field of civil engineering, we are accelerating the digital and intelligent transformation of bridge engineering by establishing high-fidelity structural digital models, laying the foundation for the full-life-cycle performance prediction and safety guarantee of bridges. However, this is only a microcosm of the intelligent transformation of engineering. In the vast engineering world, there are still a large number of "blank areas" and "deep water areas" that have not been fully explored or deeply empowered by AI technology. The complexity, dynamics, and interdisciplinary nature of many engineering problems make it difficult for existing single-discipline or traditional methods to provide optimal solutions.
自由创新赛道,正是为那些拥有独特视角、敢于挑战传统、并渴望将人工智能的无限潜能应用于更广泛工程领域的创新者而设。我们相信,每一位工程师和AI研究者心中都可能蕴藏着一个尚未被定义的工程难题,以及一个颠覆性的智能解决方案。本赛道旨在打破学科界限,鼓励参赛者自主发现、自主定义工程领域中的核心问题,并运用前沿的AI技术,提出具有开创性、实用性和深远影响的解决方案。
The Free Innovation Track is designed for innovators who have unique perspectives, dare to challenge tradition, and are eager to apply the infinite potential of artificial intelligence to a wider range of engineering fields. We believe that every engineer and AI researcher may have an undefined engineering problem and a disruptive intelligent solution in their hearts. This track aims to break disciplinary boundaries, encourage participants to independently discover and define core problems in the engineering field, and use cutting-edge AI technology to propose pioneering, practical, and far-reaching solutions.
在这里,你将是问题的定义者,也是解决方案的设计师。我们期待看到你如何以AI为笔,在工程智能的蓝图上,绘就属于你的独特篇章,成为驱动未来工程发展的“智拓先锋”!
Here, you will be the definer of the problem and the designer of the solution. We look forward to seeing how you use AI as a pen to write your unique chapter on the blueprint of AI4E and become a "pioneer of AI4E" driving the development of future engineering!
本挑战赛的目标是:(1)激发自主创新: 鼓励参赛者自主发现工程领域的痛点,并提出原创性AI解决方案;(2)拓展应用边界: 探索人工智能在更广阔工程领域的应用潜力;(3)孵化颠覆性方案: 发现并支持具有前瞻性、突破性,甚至可能改变行业格局的智能工程项目。
The goals of this challenge are: (1) Stimulate independent innovation: Encourage participants to independently discover pain points in the engineering field and propose original AI solutions; (2) Expand application boundaries: Explore the application potential of artificial intelligence in a wider range of engineering fields; (3) Incubate disruptive solutions: Discover and support forward-looking, breakthrough intelligent engineering projects that may even change the industry pattern.
