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Energy-Efficient Voice Data Broadcast Method in Wireless Personal Area Networks for IoT
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 Title & Authors
Energy-Efficient Voice Data Broadcast Method in Wireless Personal Area Networks for IoT
Lee, Jaeho;
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Bluetooth Low Energy (Bluetooth LE) is a representative break-through communication technology for wireless personal area networks on nowaday. In this environment, most of significant performance should be aiming to energy efficiency due to the policy for manufacturing light-weighted communication devices derived from requirement of world IoT market, and many researches have been developed to satisfy this requirement. While Bluetooth LE has been leading the low power communication technology required from the current market by employing duty cycle and frequency hopping approaches, it couldn't address the problem of reliability on broadcast transmissions. The main goal of this paper is aiming to addressing this problem by suggesting a new method. Furthermore analytic evaluations would also be proceeded to find objective results in the view point of broadcast transmission efficiency from Master device.
Bluetooth;BLE;IoT;Energy Efficiency;Broadcast;MAC;
 Cited by
Bluetooth Core Specification 2.1, Bluetooth SIG, Jun. 2007.

Bluetooth Core Specification 4.0, Bluetooth SIG, Jun. 2010.

Bluetooth Core Specification 4.1, Bluetooth SIG, Dec. 2013.

Bluetooth Core Specification 4.2, Bluetooth SIG, Dec. 2014.

I. Akyildiz, et al., "A survey on sensor networks," IEEE Commun. Mag., vol. 40, no. 8, pp. 102-14, Aug. 2002.

W. Ye, J. S. Heidemann, and D. Estrin, "An energy-efficient MAC protocol for wireless sensor networks," in Proc. INFOCOM 2002, pp. 1567-1576, Jun. 2002.

W. Ye, J. S. Heidemann, and D. Estrin, "Medium access control with coordinated adaptive sleeping for wireless sensor networks," in IEEE/ACM Trans. Networking, vol. 12, no. 3, pp. 493-506, Jun. 2004. crossref(new window)

M. Buettner, G. V. Yee, E. Anderson, and R. Han, "X-MAC: A short preamble MAC protocol for duty-cycled wireless sensor networks," in Proc. SENSYS 2006, pp. 307-320, 2006.

S.-H. Yang, H.-W. Tseng, Eric H.-K. Wu, and G.-H. Chen, "Utilization based duty cycle tuning MAC protocol for wireless sensor networks," IEEE GLOBECOM 2005, pp. 3258-3262, 2005.

H. Yoo, M. Shim, and D. Kim, "Dynamic duty-cycle scheduling schemes for energyharvesting wireless sensor networks," IEEE Commun. Lett., vol. 6, no. 2, pp. 202-204, 2012.

IEEE, IEEE Standard for Local and Metropolitan Area Networks, Part 15.4 (Low-Rate Wireless Personal Area Networks), Sept. 2011

Zigbee Specification, Zigbee Alliance Inc., Sept. 2012


G. Alonso, E. Kranakis, R. Wattenhofer, and P. Widmayer, "Probabilistic protocols for node discovery in ad-hoc, single broadcast channel networks," in Proc. Parallel and Distrib. Process. Symp., Apr. 2003.

G. Ding, Z. Sahinoglu, P. Orlik, J. Zhang, and B. Bhargava, "Tree-based data broadcast in IEEE 802.15. 4 and ZigBee networks," IEEE Trans. Mob. Comput., vol. 5, no. 11, pp. 1561-1574, Nov. 2006. crossref(new window)

U. Ghoshdastider, R. Viga, and M. Kraft, "Experimental evaluation of a pairwise broadcast synchronization in a low-power Cyber-physical system," 2015 IEEE Topical Conf. WiSNet, pp. 50-52, San Diego, CA, Jan. 2015.

S. K. S. Gupta, V. Shankar, and S. Lalwani, "Reliable multicast MAC protocol for wireless LANs," IEEE ICC'03, vol. 1, pp. 93-97, May 2003.

J. Lee, "A new routing scheme to reduce traffic in large scale mobile ad-hoc networks through selective on-demand method," Wirel. Netw., vol. 20, no. 5, pp. 1067-1083, 2014. crossref(new window)