Special Issue "Engaging in Interaction with Robots", Future Internet journal.
HumanÂ–robot Interaction (HRI) is a field of research that has reached maturity in the last decade, with a huge amount of studies that have attracted the interest of a multidisciplinary community of scientists and practitioners from engineers to psychologists, sociologists, designers, and scholars of ethics, just to quote a non-exhaustive list.
Research has moved from the traditional horizon of socially interactive robots shaped as humanoid robots undertaking human biddings, or as zoomorphic robots behaving as pets, toward the exploration of more subtle humanÂ–robot interactions where the robots assume different forms, perform aesthetic movements and are composed of smart materials which give them brand new opportunities for expression and interaction.
Robots can also communicate with each other and with other objects or devices in the environment. Over the last few decades, researchers and artists have investigated interactive artificial life and user-guided adaptive robotics for the creation of emergent robotÂ–robot interactions with the human being kept in the loop. Approaches range from simple interactive cellular automata control to more advanced interactive evolutionary robotics and user-guided modular robotics.
Further, researchers in social robotics make use of casting, molding and 3D printing to realize new custom bio-inspired shapes and behaviors for novel robots. This approach is adopted in Soft Robotics (Albu-SchÃ¤ffer et al., 2008), an emerging field of research that experiments with robots constructed of soft and deformable materials such as silicone, plastic, fabric or rubber. With their various forms and materials, soft robots offer new opportunities for nuanced interaction whose applications are still largely unexplored.
The above examples share features that open a new frontier for engaging humanÂ–robot interactions:
* They are embedded in smart ecosystems of different objects and devices.
* They are composed of smart materials.
* They have new forms beyond anthropomorphism and zoomorphism.
* They can interact with each other.
* They exhibit movements and behaviors with aesthetic qualities.
* They use a variety of means for interpersonal communication including verbal language, proxemics and body language.
* They show expressive behaviors beyond facial expressions.
* They allow users to interact with form, material and control.
This Special Issue aims to provide a comprehensive and accurate state-of-the-art selection of papers on humanÂ–robot interactions beyond mainstream anthropomorphic and zoomorphic paradigms.
It collects novel robot designs that break from the traditional view of social robots and find a new basis for designing natural, engaging, embodied HRI applications.
We welcome theoretical and methodological contributions as well as design cases.
Perpective papers are also welcome containing debatable visions about one of the proposed topics. The goal of a perspective paper is to highlight personal points of view on the state-of-the-art of human-robot interaction and its future prospects for new designs and technologies as well as future scenarios of application. The emphasis should be on a personal assessment rather than a comprehensive, critical review, however comments should be put into the context of existing literature. Perspective papers are up to 6 pages.
Topics will include:
- Intersection between robotics and ubiquitous computing.
- Full body interaction with robots.
- Cultural, social and ethical issues related to the introduction of robots into our everyday life.
- Long-term relationship with robots, inspired by how people interact with artefacts and creatures in everyday settings.
- Analyses of applications in real-world settings.
- Open-ended play interactions with robotic systems to sustain interest of users over time.
- Tangible and Embodied Interactions with social robots.
- Novel human-robot interaction designs.
- Methods for understanding and evaluating human-robot interaction.
Title submission and short abstract: 30 September 2017 (up to 150 words)
Submission Deadline: 30 October 2017 (extended deadline)
Acceptance Notification: 21 December 2017
Final Draft Due: 15 February 2018
Future Internet journal is covered by following databases and archives:
AGORA (FAO), DBLP Computer Science Bibliography (UniversitÃ¤t Trier), DOAJ - Directory of Open Access Journals, Ei Compendex / Engineering Village (Elsevier), Emerging Sources Citation Index - Web of Science (Clarivate Analytics), HINARI (WHO), Inspec (IET), Norwegian Register for Scientific Journals, Series and Publishers (NSD), Scopus (Elsevier), Web of Science (Clarivate Analytics).
Prof. Dr. Patrizia Marti, University of Siena
Prof. Dr. Henrik Hautop Lund, Technical University of Denmark
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