The possibility to have millions of computational devices interconnected across urban environments opens up novel application areas. In such highly distributed scenarios, applications must gain awareness as a result of opportunistic encounters with co-located devices, a departure from tradi- tional reasoning approaches. We envision situated awareness as an emergent property of such networks, where bio-inspired algorithms are employed to coordinate interactions between de- vices through managing the lifecycle, distribution, and content of data. A congestion-aware, crowd-steering example illustrates this vision.
Towards Situated Awareness in Urban Networks: A Bio-inspired Approach / G., S., J. L., F.M., S., M., Rosi, A., J., Y.e., A., T., S., D., G. D. M., S., M., V.. - STAMPA. - (2012), pp. 223-228. (6th IEEE International Conference on Self-Adaptive and Self-Organizing Systems Workshops (SASOW) Lyon, fra 10-14 settembre 2012) [10.1109/SASOW.2012.46].
Towards Situated Awareness in Urban Networks: A Bio-inspired Approach
ROSI, Alberto;
2012
Abstract
The possibility to have millions of computational devices interconnected across urban environments opens up novel application areas. In such highly distributed scenarios, applications must gain awareness as a result of opportunistic encounters with co-located devices, a departure from tradi- tional reasoning approaches. We envision situated awareness as an emergent property of such networks, where bio-inspired algorithms are employed to coordinate interactions between de- vices through managing the lifecycle, distribution, and content of data. A congestion-aware, crowd-steering example illustrates this vision.
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