Trust-Aware Emergency Response for A Resilient Human-Swarm Cooperative System

2021 IEEE International Symposium on Safety, Security, and Rescue Robotics (SSRR) Pub Date : 2020-06-27 DOI:10.1109/SSRR53300.2021.9597682

Yijiang Pang, Rui Liu

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引用次数: 6

Abstract

A human-swarm cooperative system, which mixes multiple robots and a human supervisor to form a mission team, has been widely used for emergent scenarios such as criminal tracking and victim assistance. These scenarios are related to human safety and require a robot team to quickly transit from the current undergoing task into the new emergent task. This sudden mission change brings difficulty in robot motion adjustment and increases the risk of performance degradation of the swarm. Trust in human-human collaboration reflects a general expectation of the collaboration; based on the trust humans mutually adjust their behaviors for better teamwork. Inspired by this, in this research, a trust-aware reflective control (Trust-R), was developed for a robot swarm to understand the collaborative mission and calibrate its motions accordingly for better emergency response. Typical emergent tasks “transit between area inspection tasks”, “response to emergent target - car accident” in social security with eight fault-related situations were designed to simulate robot deployments. A human user study with 50 volunteers was conducted to model trust and assess swarm performance. Trust-R's effectiveness in supporting a robot team for emergency response was validated by improved task performance and increased trust scores.

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基于信任感知的弹性人群合作系统应急响应

一种由多个机器人和一名人类监督员组成任务小组的人群合作系统，已广泛应用于罪犯追踪和受害者援助等紧急情况。这些场景与人类安全有关，需要机器人团队从当前正在进行的任务快速过渡到新的紧急任务。这种任务的突然变化给机器人运动调节带来困难，增加了群体性能下降的风险。对人与人之间合作的信任反映了对合作的普遍期望;基于信任，人们相互调整自己的行为，以更好地团队合作。受此启发，本研究开发了一种信任感知反射控制(Trust-R)，用于机器人群理解协作任务并相应地校准其运动，以更好地响应紧急情况。设计了社会保障中的典型紧急任务“区域间中转检查任务”、“紧急目标-车祸响应”等八种故障相关情景，模拟了机器人的部署。研究人员对50名志愿者进行了一项人类用户研究，以建立信任模型并评估群体表现。trust - r在支持机器人团队进行应急响应方面的有效性得到了任务绩效改善和信任分数提高的验证。

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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2021 IEEE International Symposium on Safety, Security, and Rescue Robotics (SSRR)

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