Collaborative Research: Robots that Influence Human Behavior across Long-Term Interaction

协作研究：通过长期交互影响人类行为的机器人

• 批准号: 2246447
• 负责人: Andrea Bajcsy
• 金额: $ 24.39万
• 依托单位: Carnegie-Mellon University
• 依托单位国家: 美国
• 项目类别: Standard Grant
• 财政年份: 2023
• 资助国家: 美国
• 起止时间: 2023-09-01 至 2026-08-31
• 项目状态: 未结题
• 来源: https://www.nsf.gov/awardsearch/showAward?AWD_ID=2246447&HistoricalAwards=false
• 关键词: Collaborative; Research; Robots; Influence; Human

Whenever robots work next to humans, influence is inevitable. Yet while current approaches can influence humans in the short-term, new approaches are needed to understand and control such influence over the long-term. This work is motivated by the observation that human-robot interaction is bi-directional and evolving: as humans adapt to robots, robot actions that previously influenced the human may no longer have the intended effect once the human learns the robot’s patterns, capabilities, and objectives. Over longer time frames, human/robot interactions may become adversarial, where humans may learn to take advantage of autonomous system behaviors, highlighting an explicit tradeoff between influential actions and transparency. This award supports research that will build new understanding of human cognition and decision-making, resulting not only in new models that capture how people adapt to influential robot behaviors over time, but also in novel control strategies that influence humans towards desired behaviors while maintaining safety and incentives. Overall, this award has the potential to improve societal well-being by improving understanding of human/robot interaction over time and in safety-critical situations. To inspire and train K-12 students for future careers in engineering, the team will host live demonstrations at university open houses where students directly interact with robots that apply our influencing algorithms. To support these impacts, this research introduces a modeling and controls formalism for multi-agent systems that enables robots to influence humans over the long-term. The key insight is that — instead of assuming humans always respond to robot behaviors in the same way — robots should model humans as dynamic, adaptive agents that learn by observing the robot’s actions. In doing so, the researchers explicitly address tradeoffs between transparent behavior and influential actions, mitigating the chance that humans will exploit the autonomous system’s policy and increasing the capability of the robots to maintain the ability to influence agent behavior. Foundational work by this multidisciplinary team of investigators will (i) build theory and mathematical models that explain human/robot adaptation in adversarial settings over the longer-term, (ii) control robots to maintain influence even as the human co-adapts alongside the robot and (iii) formalize an optimization framework to ensure the resulting behaviors are safe in the short-term, and do not have unintended consequences in the long-term. This combination of human modeling with game-theoretic controllers will provide novel, unified insights into how robots can make decisions while accounting for their effects on humans.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.

每当机器人与人类一起工作时，影响是不可避免的，尽管当前的方法可以在短期内影响人类，但需要新的方法来理解和控制这种长期影响。机器人交互是双向的且不断发展：随着人类适应机器人，一旦人类在更长的时间范围内了解了机器人的模式、能力和目标，以前影响人类的机器人行为可能不再产生预期的效果。互动可能会变成对抗性，其中人类可能会学会利用自主系统行为，强调有影响力的行为和透明度之间的明确权衡。该奖项支持对人类认知和决策建立新理解的研究，不仅产生捕捉人们如何适应的新模型。随着时间的推移影响机器人的行为，而且在影响人类期望行为的同时保持安全和激励的新颖控制策略总体而言，该奖项有可能通过提高对人/机器人交互的长期和安全性的理解来改善社会福祉。 - 激励和培训 K-12 学生的未来。在工程职业生涯中，该团队将在大学开放日举办现场演示，学生们可以直接与应用我们的影响算法的机器人进行互动，为了支持这些影响，这项研究引入了多智能体系统的建模和控制形式，使机器人能够影响人类。从长远来看，关键的见解是，机器人不应假设人类总是以相同的方式对机器人行为做出反应，而是应该将人类建模为通过观察机器人的行为来学习的动态、自适应代理，研究人员明确表示。解决透明行为和影响力之间的权衡这个多学科研究小组的基础工作将（i）建立解释人类/行为的理论和数学模型。机器人在对抗环境中的长期适应，（ii）控制机器人保持影响力，即使人类与机器人一起共同适应，以及（iii）形式化优化框架以确保所产生的行为在短期内是安全的，并且不从长远来看，这种人类建模与博弈论控制器的结合将为机器人如何在考虑其对人类影响的同时做出决策提供新颖、统一的见解。该奖项反映了 NSF 的法定使命，并被认为是值得的。通过使用基金会的智力优势和更广泛的影响审查标准进行评估来获得支持。