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http://dx.doi.org/10.6109/jkiice.2019.23.7.829

The prevent method of data loss due to differences in bit rate between heterogeneous IoT devices  

Seo, Hyungyoon (Department of Computer Software Engineering, Changshin University)
Park, Jung Kyu (Department of Computer Software Engineering, Changshin University)
Publication Information
Journal of the Korea Institute of Information and Communication Engineering / v.23, no.7, 2019 , pp. 829-836 More about this Journal
Abstract
IoT devices are widely used in network construction and are increasing. If necessary, heterogeneous IoT devices are used for data transmission. This paper proposes to prevent the method of data loss due to differences in throughput when the local network is constructed by Bluetooth 5 and long range network does by LoRa(Long Range). Data loss occur when the data transmits through LoRa, due to the throughputs of Bluetooth 5 faster than that of LoRa. The prevent method proposed by this paper can apply not only Bluetooth 5 and LoRa but heterogeneous IoT devices and expect to prevent data loss due to differences in throughput between heterogeneous IoT devices. Also, this paper shows the simulation result by applying the proposed avoid method. In this paper, two way to the preventive method shows the data transmission ratio and amount of memory that of necessity.
Keywords
Smart Factory; Bluetooth 5; LoRa; Data Loss; Heterogeneous IoT Devices;
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1 G. Patti, L. Leonardi, and L. L. Bello, "A Bluetooth Low Energy real-time protocol for Industrial Wireless mesh Networks," Proceeding of the 42nd Annual Conference of the IEEE Industrial Electronics Society(IECON), Florence, Italy, pp. 13-26, 2016.
2 Bluetooth SIG, Bluetooth Core Specification Version: 5.0, Bluetooth Special Interest Group: Kirkland, WA, USA, 2019.
3 LoRa Alliance. LoRaWAN Specification(2016) Retrieved Apr. 04, 2018 [Internet]. Available: https://www.loraalliance.org.
4 Bluetooth SIG, Bluetooth Core Specification Version: 4.2, Bluetooth Special Interest Group: Kirkland, WA, USA, 2015.
5 J.Y. Lim, J.M. Lee, D.H. Kim, and J.D. Kim, "Performance Analysis of LoRa(Long Range) according to the Distances in Indoor and Outdoor Spaces," Journal of KIISE, vol. 44, no. 7, pp. 733-741, Jul. 2017.   DOI
6 A. Taha, M. F. Feteiha, and W. Abdul, "Performance Evaluation for LoRa Transceiver," International Journal of Computer Science and Software Engineering, vol. 8, no. 2, pp. 25-39, Feb. 2019.
7 M. Collotta, G. Pau, T. Talty, and O. K. Tonguz, "Bluetooth 5: A concrete step forward toward the IoT," IEEE Communications Magazine, vol. 56, no. 7, pp. 125-131, Jul. 2018.   DOI
8 M. B. Yaakop, I. A. A. Malik, Z. b. Suboh, A. F. Ramli, and M. A. Abu, "Bluetooth 5.0 throughput comparison for internet of thing usability a survey," 2017 International Conference on Engineering Technology and Technopreneurship (ICE2T), IEEE, pp. 1-6, 2017.
9 Y. Murillo, A. Chiumento, B. Reynders, and S. Pollin, "SDN On BLE: Controlling Resource Constrained Mesh Networks," arXiv preprint arXiv:1902.02233, 2019.
10 F. Adelantado, X. Vilajosana, P. Tuset-Peiro, B. Martinez, J. Melia-Segui, and T. Watteyne, "Understanding the Limits of LoRaWAN," IEEE Communications Magazine, vol. 55, no. 9, pp. 34-40, Sep. 2017.   DOI
11 J. J. Chen, V. Liu, and W. Caelli, "An Adaptive and Autonomous LoRa Gateway for Throughput Optimisation," Proceeding of the Australasian Computer Science Week Multiconference, ACM, Sydney, Australia, no. 7, 2019.
12 IoT Portal. SK Telecom IoT [Internet]. Available: https://www.sktiot.com/iot/main/index.