| Title |
Context Dissemination for Dynamic Urban-Scale Applications |
| ID_Doc |
41382 |
| Authors |
Morris, A; Patsakis, C; Bouroche, M; Cahill, V |
| Title |
Context Dissemination for Dynamic Urban-Scale Applications |
| Year |
2017 |
| Published |
Mobile Networks & Applications, 22, 2 |
| Abstract |
Realising the "smart city" vision requires applications that can efficiently disseminate context among millions of potentially mobile nodes. Numerous context dissemination algorithms exist based on flooding-, gossip- and overlay-based approaches. However, due to their message transmission (flooding, gossip) or control (overlay) overhead, they cannot support the amount of mobile nodes envisaged in urban-scale scenarios. This paper describes Adaptive Context Tries (ACT), a decentralised context dissemination middleware that balances message transmission and control overhead to support urban-scale context-aware applications. ACT achieves scalability using a dynamically constructed virtual overlay, structured as a retrieval tree (trie) on node identifiers (IDs), avoiding continuous overlay rebuilds due to mobility or nodes changes by removing the need for subscriptions. Through formal analysis and extensive large-scale simulations we show that unlike existing context dissemination algorithms ACT can handle dynamic context requirements in urban-scale scenarios. |
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