Experimentally driven research for wireless sensor networks is invaluable to provide benchmarking and comparison of new ideas. An increasingly common tool in support of this is a testbed composed of real hardware devices which increases the realism of evaluation. However, due to hardware costs the size and heterogeneity of these testbeds is usually limited. In addition, a testbed typically has a relatively static configuration in terms of its network topology and its software support infrastructure, which limits the utility of that testbed to specific case-studies. We propose a novel approach that can be used to (i) interconnect a large number of small testbeds to provide a federated testbed of very large size, (ii) support the interconnection of heterogeneous hardware into a single testbed, and (iii) virtualise the physical testbed topology and thus minimise the need to relocate devices. We present the most important design issues of our approach and evaluate its performance. Our results indicate that testbed virtualisation can be achieved with high efficiency and without hindering the realism of experiments. © 2010 Springer Berlin Heidelberg.
Virtualising testbeds to support large-scale reconfigurable experimental facilities / Baumgartner, T.; CHATZIGIANNAKIS, IOANNIS; Danckwardt, M.; Koninis, C.; Kröller, A.; Mylonas, G.; Pfisterer, D.; Porter, B.. - 5970 LNCS:(2010), pp. 210-223. (Intervento presentato al convegno 7th European Conference on Wireless Sensor Networks tenutosi a Coimbra; Portugal) [10.1007/978-3-642-11917-0_14].
Virtualising testbeds to support large-scale reconfigurable experimental facilities
CHATZIGIANNAKIS, IOANNIS;
2010
Abstract
Experimentally driven research for wireless sensor networks is invaluable to provide benchmarking and comparison of new ideas. An increasingly common tool in support of this is a testbed composed of real hardware devices which increases the realism of evaluation. However, due to hardware costs the size and heterogeneity of these testbeds is usually limited. In addition, a testbed typically has a relatively static configuration in terms of its network topology and its software support infrastructure, which limits the utility of that testbed to specific case-studies. We propose a novel approach that can be used to (i) interconnect a large number of small testbeds to provide a federated testbed of very large size, (ii) support the interconnection of heterogeneous hardware into a single testbed, and (iii) virtualise the physical testbed topology and thus minimise the need to relocate devices. We present the most important design issues of our approach and evaluate its performance. Our results indicate that testbed virtualisation can be achieved with high efficiency and without hindering the realism of experiments. © 2010 Springer Berlin Heidelberg.| File | Dimensione | Formato | |
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