Large language model as parking planning agent in the context of mixed period of autonomous vehicles and Human-Driven vehicles

IF 10.5 1区 工程技术 Q1 CONSTRUCTION & BUILDING TECHNOLOGY Sustainable Cities and Society Pub Date : 2024-10-28 DOI:10.1016/j.scs.2024.105940
Yuping Jin , Jun Ma
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Abstract

Autonomous vehicles (AVs) are anticipated to revolutionize future transportation, necessitating updates to traffic infrastructure, particularly parking facilities, due to the unique characteristics of AVs compared to Human-Driven Vehicles (HDVs). During the transition period in which AVs and HDVs coexist, adaptable infrastructure is essential to accommodate both vehicle types. Traditional research, typically reliant on complex mathematical models and simulations, faces challenges in adapting to diverse urban settings, requiring substantial time and resources. To address these challenges, a government-level framework was developed, enabling urban planners to quickly and accurately evaluate and optimize existing parking facilities for future AV and HDV coexistence scenarios. The framework integrates a Large Language Model (LLM) to enhance flexibility and efficiency in parking planning throughout the transitional period. Structured guidance is incorporated to enhance decision-making precision and reduce LLM hallucination risks. The flexibility, robustness, and accuracy of the framework were validated through step-by-step and end-to-end testing using real-world datasets. Specifically, the framework achieved 91.1 % comprehensiveness and 70.2 % consistency in Indicator Selection Module testing, a 68.9 % success rate in the Single Indicator Calculation Module, and a 66.7 % success rate in end-to-end testing, demonstrating its practical value in supporting cities during AV integration. Finally, the success rates of different LLM agent modules were further explored, along with a comparison of multiple LLMs and an analysis of key issues related to LLM trustworthiness in urban planning applications. The research highlights the potential of LLMs in advancing urban planning processes and optimizing existing infrastructure, contributing to smarter and more adaptable urban environments.
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在自动驾驶车辆和人工驾驶车辆混合使用的情况下,作为停车规划代理的大型语言模型
由于自动驾驶汽车(AV)与人类驾驶汽车(HDV)相比具有独特的特点,预计自动驾驶汽车(AV)将彻底改变未来的交通状况,因此有必要更新交通基础设施,特别是停车设施。在自动驾驶汽车与普通汽车共存的过渡时期,适应性强的基础设施对于同时容纳两种类型的车辆至关重要。传统的研究通常依赖于复杂的数学模型和模拟,在适应多样化的城市环境方面面临挑战,需要大量的时间和资源。为了应对这些挑战,我们开发了一个政府层面的框架,使城市规划者能够快速、准确地评估和优化现有停车设施,以适应未来 AV 和 HDV 共存的场景。该框架整合了大型语言模型(LLM),以提高整个过渡时期停车规划的灵活性和效率。结构化指导被纳入其中,以提高决策的准确性并降低 LLM 出现幻觉的风险。该框架的灵活性、稳健性和准确性通过使用真实世界数据集进行的逐步和端到端测试得到了验证。具体而言,该框架在指标选择模块测试中实现了 91.1% 的全面性和 70.2% 的一致性,在单一指标计算模块中实现了 68.9% 的成功率,在端到端测试中实现了 66.7% 的成功率,证明了其在支持城市进行视听集成方面的实用价值。最后,研究人员进一步探讨了不同 LLM 代理模块的成功率,并对多个 LLM 进行了比较,还分析了与 LLM 在城市规划应用中的可信度有关的关键问题。这项研究强调了 LLM 在推进城市规划进程和优化现有基础设施方面的潜力,有助于创造更智能、适应性更强的城市环境。
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来源期刊
Sustainable Cities and Society
Sustainable Cities and Society Social Sciences-Geography, Planning and Development
CiteScore
22.00
自引率
13.70%
发文量
810
审稿时长
27 days
期刊介绍: Sustainable Cities and Society (SCS) is an international journal that focuses on fundamental and applied research to promote environmentally sustainable and socially resilient cities. The journal welcomes cross-cutting, multi-disciplinary research in various areas, including: 1. Smart cities and resilient environments; 2. Alternative/clean energy sources, energy distribution, distributed energy generation, and energy demand reduction/management; 3. Monitoring and improving air quality in built environment and cities (e.g., healthy built environment and air quality management); 4. Energy efficient, low/zero carbon, and green buildings/communities; 5. Climate change mitigation and adaptation in urban environments; 6. Green infrastructure and BMPs; 7. Environmental Footprint accounting and management; 8. Urban agriculture and forestry; 9. ICT, smart grid and intelligent infrastructure; 10. Urban design/planning, regulations, legislation, certification, economics, and policy; 11. Social aspects, impacts and resiliency of cities; 12. Behavior monitoring, analysis and change within urban communities; 13. Health monitoring and improvement; 14. Nexus issues related to sustainable cities and societies; 15. Smart city governance; 16. Decision Support Systems for trade-off and uncertainty analysis for improved management of cities and society; 17. Big data, machine learning, and artificial intelligence applications and case studies; 18. Critical infrastructure protection, including security, privacy, forensics, and reliability issues of cyber-physical systems. 19. Water footprint reduction and urban water distribution, harvesting, treatment, reuse and management; 20. Waste reduction and recycling; 21. Wastewater collection, treatment and recycling; 22. Smart, clean and healthy transportation systems and infrastructure;
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