Operator visual attention allocation prediction in a robotic arm teleoperation interface

IF 2.2 3区 工程技术 Q3 ENGINEERING, MANUFACTURING
Yueqi An, Cong Zhang, Changhua Jiang, Wenhao Zhan, Jianwei Niu
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引用次数: 0

Abstract

In digital interactive interfaces with high visual workloads, it is important for operators to allocate their limited attentional resources appropriately to ensure efficient information collection. The salience, effort, expectancy, value (SEEV) model, which combines top-down and bottom-up attention mechanisms for predicting attention allocation, has been validated in research areas such as piloting, driving, and surgical operations. However, the validity of the SEEV model in the field of robotic arm teleoperation has not yet been thoroughly studied. The primary purpose of this study was to confirm the feasibility of the SEEV model for operator visual attention allocation prediction in a robotic arm teleoperation scenario. The improved ITTI algorithm, distance-measuring tool, Delphi method, and lowest ordinal algorithm were adopted to qualify the four factors of the SEEV model, which also contributed to salience and expectancy quantification methods. Accordingly, an attention allocation prediction model in a robotic arm teleoperation scene was constructed. To verify the validity of the prediction model, 20 participants were recruited to control the robotic arm using V-REP simulation software, and their fixation durations were recorded using an eye tracker as an attention allocation indicator. Participants controlled the robotic arm according to the experimental requirements and operational tasks, such as grasping and placing the target. The results demonstrated that the theoretical data based on the SEEV prediction model are significantly related to the proportion of fixation durations. The experiment verifies the suitability of the SEEV prediction model, and it is anticipated to be utilized in the optimization of interactive interfaces for robotic arm teleoperation.

机械臂远程操作界面中操作员视觉注意力分配预测
在高视觉工作量的数字交互界面中,操作员必须合理分配有限的注意力资源,以确保高效地收集信息。突出、努力、期望、价值(SEEV)模型结合了自上而下和自下而上的注意力机制来预测注意力分配,已在驾驶、驾驶和外科手术等研究领域得到验证。然而,SEEV 模型在机械臂远程操作领域的有效性尚未得到深入研究。本研究的主要目的是确认 SEEV 模型在机械臂远程操作场景中用于操作员视觉注意力分配预测的可行性。采用改进的 ITTI 算法、距离测量工具、德尔菲法和最低序算法对 SEEV 模型的四个因素进行了定性,这也有助于突出性和期望值量化方法。据此,构建了机械臂远程操作场景中的注意力分配预测模型。为了验证预测模型的有效性,研究人员招募了 20 名参与者,让他们使用 V-REP 模拟软件控制机械臂,并使用眼动仪记录他们的固定持续时间作为注意力分配指标。参与者根据实验要求和操作任务控制机械臂,如抓取和放置目标。结果表明,基于 SEEV 预测模型的理论数据与固定持续时间比例有显著关系。该实验验证了 SEEV 预测模型的适用性,并有望用于优化机械臂远程操作的交互界面。
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来源期刊
CiteScore
5.20
自引率
8.30%
发文量
37
审稿时长
6.0 months
期刊介绍: The purpose of Human Factors and Ergonomics in Manufacturing & Service Industries is to facilitate discovery, integration, and application of scientific knowledge about human aspects of manufacturing, and to provide a forum for worldwide dissemination of such knowledge for its application and benefit to manufacturing industries. The journal covers a broad spectrum of ergonomics and human factors issues with a focus on the design, operation and management of contemporary manufacturing systems, both in the shop floor and office environments, in the quest for manufacturing agility, i.e. enhancement and integration of human skills with hardware performance for improved market competitiveness, management of change, product and process quality, and human-system reliability. The inter- and cross-disciplinary nature of the journal allows for a wide scope of issues relevant to manufacturing system design and engineering, human resource management, social, organizational, safety, and health issues. Examples of specific subject areas of interest include: implementation of advanced manufacturing technology, human aspects of computer-aided design and engineering, work design, compensation and appraisal, selection training and education, labor-management relations, agile manufacturing and virtual companies, human factors in total quality management, prevention of work-related musculoskeletal disorders, ergonomics of workplace, equipment and tool design, ergonomics programs, guides and standards for industry, automation safety and robot systems, human skills development and knowledge enhancing technologies, reliability, and safety and worker health issues.
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