Collaborative Research: FW-HTF-R: The Future of Trucking: Pathways to Positive Societal Outcomes

合作研究:FW-HTF-R:卡车运输的未来:实现积极社会成果的途径

基本信息

  • 批准号:
    2222541
  • 负责人:
  • 金额:
    $ 146.31万
  • 依托单位:
  • 依托单位国家:
    美国
  • 项目类别:
    Standard Grant
  • 财政年份:
    2022
  • 资助国家:
    美国
  • 起止时间:
    2022-10-01 至 2025-09-30
  • 项目状态:
    未结题

项目摘要

The long-distance trucking industry is poised to be an early adopter of vehicle automation. Significant technological challenges need to be resolved before long-distance trucking can work safely without substantial human oversight. This research team effort is motivated by a shared belief that remote operation of trucks is a necessary step in the automation journey and will lead to positive technological, economic, environmental, and societal outcomes. As-needed remote operation could fundamentally transform trucking into something closer to a white-collar job, requiring human-computer interaction, in a controlled and scheduled environment. It would eschew long hours by drivers on the road, far from home, and likely change the skills and characteristics of the job in ways that will have gender/racial equity, health, and socio-economic implications. What technological problems must be solved for a truck to safely operate almost entirely autonomously, with a remote operator intervening on request or as warranted when the autonomy stack is challenged? How will the nature of the trucking occupation change, and what does it portend for current and future workers? We propose an integrated effort that innovates on remote operation technology and identifies concomitant changes in policies, regulations, and skills (including (re)training requirements) to positively affect the number and quality of jobs and improve outcomes for all stakeholders. This research will be informed by key stakeholders: drivers, independent owner-operators, shipping firms, regulators, vehicle manufacturers, and automation developers. In the Future technology context, this project will: (i) develop a data-driven and simulation-informed system that can continuously monitor and predict challenging traffic conditions, (ii) develop a robust safety filter that mediates the commands issued by the local autonomy stack and the remote human operator, (iii) establish a cooperative architecture and algorithms for automated trucking, and (iv) identify network solutions to meet the communication needs of remote operation. In the Future work component, this project will: (i) investigate information requirements of remote operators and techniques to balance automated in-vehicle control with remote control by an operator, (ii) explore managing operators’ attention and level of control across multiple trucks, and (iii) address critical regulatory issues and how to balance operator compensation, firm profitability, and technology adoption. In the Future worker category, this project will: (i) evaluate expected changes in the distribution of occupations and skill requirements in the workforce, (ii) assess the impact of job creation and loss on rural economies, and (iii) elucidate the skill and demand changes for truckers and the new training needed for these workers.This award reflects NSF's statutory mission and has been deemed worthy of support through evaluation using the Foundation's intellectual merit and broader impacts review criteria.
长途卡车运输行业有望成为车辆自动化的早期采用者。在长途卡车运输能够在没有大量人为监督的情况下安全运行之前,需要解决重大的技术挑战。这一研究团队的努力是出于一个共同的信念,即卡车的远程操作是自动化旅程中的必要步骤,并将带来积极的技术,经济,环境和社会成果。按需远程操作可以从根本上将卡车运输转变为更接近白领工作的工作,需要在受控和预定的环境中进行人机交互。它将避免司机在远离家乡的路上长时间工作,并可能以具有性别/种族平等,健康和社会经济影响的方式改变工作的技能和特征。要让卡车安全地几乎完全自主地运行,必须解决哪些技术问题,当自主堆栈受到挑战时,远程操作员可以根据请求或授权进行干预?卡车运输职业的性质将如何改变,它对当前和未来的工人意味着什么?我们提出了一项综合努力,在远程操作技术上进行创新,并确定政策,法规和技能(包括(再)培训要求)的相应变化,以积极影响工作岗位的数量和质量,并改善所有利益相关者的成果。这项研究将由关键利益相关者提供信息:司机,独立业主运营商,航运公司,监管机构,汽车制造商和自动化开发人员。在未来的技术背景下,该项目将:(i)开发一个数据驱动和模拟通知系统,可以连续监测和预测具有挑战性的交通状况,(ii)开发一个强大的安全过滤器,调解本地自治堆栈和远程人工操作员发出的命令,(iii)建立一个自动化卡车运输的合作架构和算法,及(iv)确定网络解决方案,以满足远程操作的通信需求。在未来的工作部分,该项目将:(i)调查远程操作员的信息需求和技术,以平衡自动车载控制与操作员远程控制,(ii)探索管理操作员的注意力和多辆卡车的控制水平,以及(iii)解决关键的监管问题,以及如何平衡操作员薪酬,公司盈利能力和技术采用。在未来工人类别中,该项目将:㈠评估职业分布和劳动力技能要求的预期变化,㈡评估创造和丧失就业机会对农村经济的影响,以及(iii)阐明卡车司机的技能和需求变化以及这些工人所需的新培训。该奖项反映了NSF的法定使命,并通过评估被认为值得支持使用基金会的知识价值和更广泛的影响审查标准。

项目成果

期刊论文数量(2)
专著数量(0)
科研奖励数量(0)
会议论文数量(0)
专利数量(0)
Classification of Roadway Infrastructure and Collaborative Automated Driving System
道路基础设施分类与协同自动驾驶系统
Backward Reachability Analysis of Neural Feedback Systems Using Hybrid Zonotopes
使用混合区域位的神经反馈系统的后向可达性分析
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David Noyce其他文献

Effects of transit signal priority on traffic safety: Interrupted time series analysis of Portland, Oregon, implementations
  • DOI:
    10.1016/j.aap.2018.12.001
  • 发表时间:
    2019-02-01
  • 期刊:
  • 影响因子:
  • 作者:
    Yu Song;David Noyce
  • 通讯作者:
    David Noyce

David Noyce的其他文献

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