Unknown

Dataset Information

0

ReaCog, a Minimal Cognitive Controller Based on Recruitment of Reactive Systems.

ABSTRACT: It has often been stated that for a neuronal system to become a cognitive one, it has to be large enough. In contrast, we argue that a basic property of a cognitive system, namely the ability to plan ahead, can already be fulfilled by small neuronal systems. As a proof of concept, we propose an artificial neural network, termed reaCog, that, first, is able to deal with a specific domain of behavior (six-legged-walking). Second, we show how a minor expansion of this system enables the system to plan ahead and deploy existing behavioral elements in novel contexts in order to solve current problems. To this end, the system invents new solutions that are not possible for the reactive network. Rather these solutions result from new combinations of given memory elements. This faculty does not rely on a dedicated system being more or less independent of the reactive basis, but results from exploitation of the reactive basis by recruiting the lower-level control structures in a way that motor planning becomes possible as an internal simulation relying on internal representation being grounded in embodied experiences.

SUBMITTER: Schilling M 

PROVIDER: S-EPMC5276858 | biostudies-literature | 2017

REPOSITORIES: biostudies-literature

Json Xml
altmetric image

Publications

ReaCog, a Minimal Cognitive Controller Based on Recruitment of Reactive Systems.

Schilling Malte M   Cruse Holk H  

Frontiers in neurorobotics 20170130

It has often been stated that for a neuronal system to become a cognitive one, it has to be large enough. In contrast, we argue that a basic property of a cognitive system, namely the ability to plan ahead, can already be fulfilled by small neuronal systems. As a proof of concept, we propose an artificial neural network, termed reaCog, that, first, is able to deal with a specific domain of behavior (six-legged-walking). Second, we show how a minor expansion of this system enables the system to p  ...[more]

Similar Datasets

Genomics Diet based Minimal Microbiome
| PRJEB36253 | ENA
Unknown HIV controller CD4+ T cells respond to minimal amounts of Gag antigen due to high TCR avidity.
| S-EPMC2829066 | biostudies-literature
Genomics Mucus Diet based Minimal Microbiome
| PRJEB46578 | ENA
Unknown Operant conditioning: a minimal components requirement in artificial spiking neurons designed for bio-inspired robot's controller.
| S-EPMC4110879 | biostudies-other
Unknown Systems biology perspectives on minimal and simpler cells.
| S-EPMC4187685 | biostudies-literature
Unknown Recruitment of CD34(+) fibroblasts in tumor-associated reactive stroma: the reactive microvasculature hypothesis.
| S-EPMC4044710 | biostudies-literature
Unknown Design of biochemical pattern forming systems from minimal motifs.
| S-EPMC6922632 | biostudies-literature
Unknown Optically inducible membrane recruitment and signaling systems.
| S-EPMC6697567 | biostudies-literature
Proteomics Accelerating multiplexed profiling of protein-ligand interactions: high-throughput plate-based reactive cysteine profiling with minimal input
2023-12-24 | PXD044402 | Pride
Unknown Combined surface micropatterning and reactive chemistry maximizes tissue adhesion with minimal inflammation.
| S-EPMC4170832 | biostudies-literature