Dear Colleagues,

Social robots aim to help to improve the lives of various individuals (e.g., those suffering from loneliness, stress, dementia, or autism) who lack sufficient care from human caregivers; however, social robots are not yet a reality in our daily surroundings. It is necessary to show that robots can provide various forms of real value at low cost. This will involve the following:

• Identifying promising new opportunities and challenges (e.g., in therapy, entertainment, and education, related to daily needs or emergencies, through, for example, transdisciplinary, sustainable, or speculative prototyping perspectives);
• Exploring new evidence-based evaluations of wellbeing, as well as constituents such as self-actualization, self-esteem, and belonging/love, afforded by robot strategies (such as nudging);
• Gaining rich awareness of a person’s state, not only regarding their behaviors and identity, but also underlying meanings, intentions, creativity, or emotions (especially via subtle hints or signals that humans cannot sense, such as heartbeats, to potentially save lives);
• Applying SOTA deep learning approaches, and releasing useful open source code and videos, e.g., on Github/ROS/Colab/YouTube;
• Integrating human-inspired adaptive Theory of Mind (ToM) in the architectures for social robots to advance robots’ social skills and improve the aspects of HRI related to belief understanding and tracking, proactivity, active perception, and learning.

This Special Issue aims to present innovative approaches for social robots to enhance the wellbeing of interacting individuals. We solicit original contributions that report on the development of novel scenarios, recognition, behaviors, and evaluation approaches. Of particular interest are papers that clearly reference wellbeing and present new insights from thinking outside the box. Contributions that show high performance and are expected to help others are also relevant to this Special Issue.

The proposed approaches can target various user demographics, types of robots (such as those that we ride, live in, and wear: AVs, smart homes, wearables), and settings (e.g., several interactions). 

Dr. Martin Cooney
Dr. Mariacarla Staffa
Dr. Filippo Cavallo
Guest Editors

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