TIP: A trust inference and propagation model in multi-human multi-robot teams

IF 3.7 3区计算机科学 Q2 COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCE

Autonomous Robots Pub Date : 2024-09-30 DOI:10.1007/s10514-024-10175-3

Yaohui Guo, X. Jessie Yang, Cong Shi

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引用次数: 0

Abstract

Trust is a crucial factor for effective human–robot teaming. Existing literature on trust modeling predominantly focuses on dyadic human-autonomy teams where one human agent interacts with one robot. There is little, if not no, research on trust modeling in teams consisting of multiple human and robotic agents. To fill this important research gap, we present the Trust Inference and Propagation (TIP) model to model and estimate human trust in multi-human multi-robot teams. In a multi-human multi-robot team, we postulate that there exist two types of experiences that a human agent has with a robot: direct and indirect experiences. The TIP model presents a novel mathematical framework that explicitly accounts for both types of experiences. To evaluate the model, we conducted a human-subject experiment with 15 pairs of participants (\(N=30\)). Each pair performed a search and detection task with two drones. Results show that our TIP model successfully captured the underlying trust dynamics and significantly outperformed a baseline model. To the best of our knowledge, the TIP model is the first mathematical framework for computational trust modeling in multi-human multi-robot teams.

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TIP：多人多机器人团队中的信任推断和传播模型

信任是人类与机器人有效合作的关键因素。关于信任建模的现有文献主要集中在二元人类-自主团队，即一个人类代理与一个机器人互动。关于由多个人类和机器人代理组成的团队的信任建模的研究很少，甚至没有。为了填补这一重要的研究空白，我们提出了信任推理与传播（TIP）模型，用于模拟和估算多人多机器人团队中的人类信任度。在一个多人多机器人团队中，我们假设人类代理与机器人之间存在两类经验：直接经验和间接经验。TIP 模型提出了一个新颖的数学框架，明确地说明了这两种类型的体验。为了评估该模型，我们用 15 对参与者（（N=30））进行了人类-主体实验。每对参与者使用两架无人机完成搜索和探测任务。结果表明，我们的 TIP 模型成功捕捉到了潜在的信任动态，其表现明显优于基线模型。据我们所知，TIP 模型是第一个用于多人多机器人团队信任建模的数学框架。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Autonomous Robots 工程技术-机器人学

CiteScore

7.90

自引率

5.70%

发文量

审稿时长

3 months

期刊介绍： Autonomous Robots reports on the theory and applications of robotic systems capable of some degree of self-sufficiency. It features papers that include performance data on actual robots in the real world. Coverage includes: control of autonomous robots · real-time vision · autonomous wheeled and tracked vehicles · legged vehicles · computational architectures for autonomous systems · distributed architectures for learning, control and adaptation · studies of autonomous robot systems · sensor fusion · theory of autonomous systems · terrain mapping and recognition · self-calibration and self-repair for robots · self-reproducing intelligent structures · genetic algorithms as models for robot development. The focus is on the ability to move and be self-sufficient, not on whether the system is an imitation of biology. Of course, biological models for robotic systems are of major interest to the journal since living systems are prototypes for autonomous behavior.