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Title	Performance Evaluation Of Rpl Protocol In A 6Lowpan Based Smart Home Environment
ID_Doc	41777
Authors	Sanila A.; Mahapatra B.; Turuk A.K.
Year	2020
Published	2020 International Conference on Computer Science, Engineering and Applications, ICCSEA 2020
DOI	http://dx.doi.org/10.1109/ICCSEA49143.2020.9132942
Abstract	The advancement in technologies like IoT, deviceto-device communication lead to concepts like smart home and smart cities, etc. In smart home architecture, different devices such as home appliances, personal computers, surveillance cameras, etc. are connected to the Internet and enable the user to monitor and control irrespective of time and location. IPv6-enabled 6LoWPAN is a low-power, low-range communication protocol designed and developed for the short-range IoT applications. 6LoWPAN is based on IEEE 802.15.4 protocol and IPv6 network protocol for low range wireless applications. Although 6LoWPAN supports different routing protocols, RPL is the widely used routing protocol for low power and lossy networks. In this work, we have taken an IoT enabled smart home environment, in which 6LoWPAN is used as a communication and RPL as a routing protocol. The performance of this proposed network model is analyzed based on the different performance metrics such as latency, PDR, and throughput. The proposed model is simulated using Cooja simulator running over the Contiki OS. Along with the Cooja simulator, the network analyzer tool Wireshark is used to analyze the network behaviors. © 2020 IEEE.
Author Keywords	6LoWPAN; PDR; RPL; Smart Home; Throughput

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