Spatial Tuples: Augmenting Physical Reality with Tuple Spaces

Alessandro Ricci, Mirko Viroli, Andrea Omicini, Stefano Mariani, Angelo Croatti, Danilo Pianini

Costin Badica, Amal El Fallah Seghrouchni, Aurélie Beynier, David Camacho, Cédric Herpson, Koen Hindriks, Paulo Novais (a cura di)

Intelligent Distributed Computing X. Proceedings of the 10th International Symposium on Intelligent Distributed Computing – IDC 2016, Paris, France, October 10-12 2016, parte IV, capitolo 12, pp. 121-130

Studies in Computational Intelligence 678

Springer

2017

We introduce Spatial Tuples, an extension of the basic tuple-based model for distributed multi-agent system coordination where (i) tuples are conceptually placed in the physical world and possibly move, (ii) the behaviour of coordination primitives may depend on the spatial properties of the coordinating agents, and (iii) the tuple space can be conceived as a virtual layer augmenting physical reality. Motivated by the needs of mobile augmented-reality applications, Spatial Tuples explicitly aims at supporting space-aware and space-based coordination in agent-based pervasive computing scenarios.

parole chiave Multi-Agent Systems, Space-based Coordination, Spatial Computing, Augmented/Mixed Reality

evento origine

IDC 2016

rivista o collana

Studies in Computational Intelligence (SCI)

funge da

pubblicazione di riferimento per presentazione

Spatial Tuples: Augmenting Physical Reality with Tuple Spaces (IDC 2016, 11/10/2016) — Alessandro Ricci (Alessandro Ricci, Andrea Omicini, Angelo Croatti, Danilo Pianini, Mirko Viroli, Stefano Mariani)