On the Design of Human-Robot Collaboration Gestures
Abstract
Effective communication between humans and collaborative robots is essential for seamless Human-Robot Collaboration (HRC). In noisy industrial settings, nonverbal communication, such as gestures, plays a key role in conveying commands and information to robots efficiently. While existing literature has thoroughly examined gesture recognition and robots' responses to these gestures, there is a notable gap in exploring the design of these gestures. The criteria for creating efficient HRC gestures are scattered across numerous studies. This paper surveys the design principles of HRC gestures, as contained in the literature, aiming to consolidate a set of criteria for HRC gesture design. It also examines the methods used for designing and evaluating HRC gestures to highlight research gaps and present directions for future research in this area.
Keywords: Human-robot collaboration, Human-robot interaction, Gesture-based interaction, Gesture recognition, Gesture design, Gesture validation, Gesture types
DOI: 10.54941/ahfe1005166
Cite this paper
More from this volume
- Framework for agile organization and work design for industry 4.0
- Exoskeletons in action: The impact of exoskeletons on human factors during manual material handling
- Change and Configuration Management as a Foundation for a new Digital Enterprise Education
- Designing hybrid intelligence: understanding the impact of human decision-making on AI
- Exploring the Influence of Industry 4.0 Technologies on Workplace Dynamics: A Literature Analysis
- A Systematic Framework for the Integration of Lean, Green, and Human Factors for Sustainable Production
- Assessment of the validity of implementing the Shopfloor Management (SFM) method. Methodology and its application
- Interdependency Matrix to Evaluate Influence Factors in Circular Value Creation Systems
- On the manufacturing of potted electrical connectors with 3D printing resin: an unobtrusive workflow
- Innovating ceramic products through digitalization and additive manufacturing: two Made in Italy case studies
- Factors Affecting the Pillow Effect in Single-Point Incremental Forming
- The Flow of Sustainability Information Through Interorganisational Shipbuilding Ecosystem


AHFE Open Access