Abstract
Inspired by the reflective and deliberative control mechanisms used in cognitive architectures such as SOAR and Sigma, we propose an alternative decision mechanism driven by architectural appraisals allowing robots to overcome impasses. The presented work builds on and improves on our previous work on a generally applicable decision mechanism with roots in the Standard Model of the Mind and the Generalized Cognitive Hour-glass Model. The proposed decision mechanism provides automatic context-dependent switching between exploration-oriented, goal-oriented, and backtracking behavior, allowing a robot to overcome impasses. A simulation study of two applications utilizing the proposed decision mechanism is presented demonstrating the applicability of the proposed decision mechanism.
Subject
Artificial Intelligence,Control and Optimization,Mechanical Engineering
Reference27 articles.
1. Industry 5.0 and Human-Robot Co-working;Demir;Procedia Comput. Sci.,2019
2. Collaborative task assignment of interconnected, affective robots towards autonomous healthcare assistant;Fang;Future Gener. Comput. Syst.,2019
3. Farid, F., Elkhodr, M., Sabrina, F., Ahamed, F., and Gide, E. (2021). A Smart Biometric Identity Management Framework for Personalised IoT and Cloud Computing-Based Healthcare Services. Sensors, 21.
4. Santosh, K., and Joshi, A. (2021). COVID-19: Prediction, Decision-Making, and Its Impacts, Springer.
5. Toward an idiomatic framework for cognitive robotics;Damgaard;Patterns,2022