| Literature DB >> 32116635 |
Carlos Calvo Tapia1, José Antonio Villacorta-Atienza2, Sergio Díez-Hermano2, Maxim Khoruzhko3, Sergey Lobov3, Ivan Potapov3, Abel Sánchez-Jiménez2, Valeri A Makarov1,3.
Abstract
Evolved living beings can anticipate the consequences of their actions in complex multilevel dynamic situations. This ability relies on abstracting the meaning of an action. The underlying brain mechanisms of such semantic processing of information are poorly understood. Here we show how our novel concept, known as time compaction, provides a natural way of representing semantic knowledge of actions in time-changing situations. As a testbed, we model a fencing scenario with a subject deciding between attack and defense strategies. The semantic content of each action in terms of lethality, versatility, and imminence is then structured as a spatial (static) map representing a particular fencing (dynamic) situation. The model allows deploying a variety of cognitive strategies in a fast and reliable way. We validate the approach in virtual reality and by using a real humanoid robot.Entities:
Keywords: cognitive maps; dynamical systems; manipulation of objects; neural networks; semantic description
Year: 2020 PMID: 32116635 PMCID: PMC7031254 DOI: 10.3389/fnbot.2020.00004
Source DB: PubMed Journal: Front Neurorobot ISSN: 1662-5218 Impact factor: 2.650