Open Access
MATEC Web Conf.
Volume 292, 2019
23rd International Conference on Circuits, Systems, Communications and Computers (CSCC 2019)
Article Number 02003
Number of page(s) 10
Section Communications
Published online 24 September 2019
  1. Habbal, Mohamed. "Bluetooth low energy– assessment within a competing wireless world". Proceedings of the Wireless Congress (2012) [Google Scholar]
  2. Maharjan, Bishnu Kumar, Ulf Witkowski, and Reza Zandian. "Tree network based on Bluetooth 4.0 for wireless sensor network applications.", (EDERC), 6th European Embedded Design in. IEEE (2014) [Google Scholar]
  3. Kim, Joonkyo, Shin-kwang Kang, and Jaehyun Park. "Bluetooth-based tree topology network for wireless industrial applications". (ICCAS), 15th International Conference on. IEEE (2015) [Google Scholar]
  4. Darroudi, Seyed Mahdi, and Carles Gomez. "Bluetooth low energy mesh networks: A survey". Sensors 17.7 (2017) [Google Scholar]
  5. Shahzad, Khurram, and Bengt Oelmann. "A comparative study of in-sensor processing vs. raw data transmission using ZigBee, BLE and Wi-Fi for data intensive monitoring applications". In Wireless Communications Systems (ISWCS), 11th International Symposium on, pp. 519-524. IEEE (2014) [Google Scholar]
  6. Gomez, C., Oller, J., Paradells, J. “Overview and Evaluation of Bluetooth Low Energy: An Emerging Low-PowerWireless Technology.” Sensors (2012) [Google Scholar]
  7. Bluetooth SIG. Specification of the Bluetooth System, Covered Core Package; Version 4.1; Bluetooth Special Interest Group: Kirkland, WA, USA (2013) [Google Scholar]
  8. Bluetooth SIG. Specification of the Bluetooth System, Covered Core Package; Version 4.2; Bluetooth Special Interest Group: Kirkland, WA, USA (2014) [Google Scholar]
  9. Bluetooth SIG. Specification of the Bluetooth System, Covered Core Package; Version 5; Bluetooth Special Interest Group: Kirkland, WA, USA (2016) [Google Scholar]
  10. Mikhaylov, Konstantin. "Simulation of networklevel performance for Bluetooth Low Energy". IEEE 25th Annual International Symposium on (PIMRC).IEEE (2014) [Google Scholar]
  11. Bluetooth Low Energy, Cypress documentation (2014) [Google Scholar]
  12. Bluetooth Low Energy Deep Dive, LPRF San Diego, TEXAS INSTRUMENTS (2011) [Google Scholar]
  13. Patti, Gaetano, Luca Leonardi, and Lucia Lo Bello. "A Bluetooth low energy real-time protocol for industrial wireless mesh networks". In Industrial Electronics Society, IECON 42nd Annual Conference of the IEEE, pp. 4627-4632. IEEE (2016) [CrossRef] [Google Scholar]
  14. Haatanen, Marko. "Self-organizing routing protocol for Bluetooth Low Energy sensor networks" (2012) [Google Scholar]
  15. CSRmesh. CSRmesh® Development Kit. Available online: (accessed on 13March 2018) [Google Scholar]
  16. Kim, H.-S., Lee, J., Jang, J.W. BLEmesh: “A Wireless Mesh Network Protocol for Bluetooth Low Energy Devices.” In Proceedings of the 3rd International Conference on (FiCloud), Rome, Italy, 24–26 August (2015) [Google Scholar]
  17. Silvair. Silvair Bluetooth Mesh Stack Dedicated for Lighting. Available online: (accessed on 15 May 2018) [Google Scholar]
  18. Estimote. Estimote Homepage. Available online: (accessed on 12 March 2018) [Google Scholar]
  19. Mindtree Mesh over Bluetooth Low Energy. Available online: (accessed on 20 April 2018) [Google Scholar]
  20. Available online: (accessed on 20 March 2018) [Google Scholar]
  21. NXP. NXP Bluetooth Smart Mesh. Available online: (accessed on 18 March 2018) [Google Scholar]
  22. MESHTEK. Ilumi MESHTEK Homepage. Available online: (accessed on 14 March 2018) [Google Scholar]
  23. Nordic. Mesh Networking Platform Uses Nordic Semiconductor. Available online: (accessed on 17 March 2018) [Google Scholar]
  24. CYPRESS. Cypress Unveils New Bluetooth®Low Energy Modules and Bluetooth Smart Mesh Demo at CES. Available online: (accessed on 13 March 2018) [Google Scholar]
  25. Telink Semiconductor (IoT Silicon), Tag:BLE mesh. Available online: (accessed on 14 March 2018) [Google Scholar]
  26. S. Guo, L. He, Y. Gu, B, Jiang, and T. He, “Opportunistic Flooding in Low-Duty-Cycle Wireless Sensor Networks with Unreliable Links,” IEEE Transactions on Computer, vol. 63, no. 11. (2014, Nov) [Google Scholar]
  27. E. Ghadimi, O. Landsiedel, P. Soldati, S. Duquennoy, and M.Johansson, “Opportunistic Routing in Low Duty-Cycle Wireless Sensor Networks,” ACM Transactions on Sensor Networks, vol. 10, no. 4 (2014, June) challenge in constructing IoT-based systems using Bluetooth Low Energy technology. [CrossRef] [Google Scholar]
  28. Lee, T., Lee, M.-S., Kim, H.-S. “A Synergistic Architecture for RPL over BLE.” In Proceedings of the 13th Annual IEEE International Conference on (SECON), London, UK, 27–30 (2016, June) [Google Scholar]
  29. Reddy, Y.K., Juturu, P., Gupta, H.P., Serikar, P.R., Sirur, S., Barak, S., Kimy, B. Demo Abstract: “A Connection Oriented Mesh Network for Mobile Devices using Bluetooth Low Energy.” In Proceedings of the 13th ACM Conference on Embedded Networked Sensor Systems, Seoul, Korea, 1–4 (2015, November) [Google Scholar]
  30. Sirur, Shruthi, et al. "A mesh network for mobile devices using Bluetooth low energy." SENSORS, 2015 IEEE. IEEE (2015) [Google Scholar]
  31. Nieminen, Johanna, et al. "Networking solutions for connecting Bluetooth low energy enabled machines to the internet of things." IEEE network 28.6 (2014) [Google Scholar]
  32. Brown, Eric "Who Needs the Internet of Things?". (accessed on 12April 2018) [Google Scholar]
  33. "Internet of Things: Science Fiction or Business Fact?" (PDF)(accessed on 12April 2018) [Google Scholar]
  34. Gaitatzis, Tony, Andrew Ward, and Linda Manning. "Bluetooth Low Energy: A Technical Primer Your Guide to the Magic Behind the Internet of Things." (2017) [Google Scholar]
  35. Terán, M., Aranda, J., Carrillo, H., Mendez, D., & Parra, C. “IoT-based system for indoor location using bluetooth low energy.” IEEE Colombian Conference on (COLCOM), (pp. 1-6). IEEE (2017, August). [Google Scholar]
  36. Mercer, D. "Connected world the internet of things and connected devices in 2020." Strategy Analytics (2014, Oct) [Google Scholar]
  37. Macaulay, James, Lauren Buckalew, and Gina Chung. "Internet of Things in Logistics: A collaborative report by DHL and Cisco on implications and use cases for the logistics industry,”." DHL Trend Research (2015) [Google Scholar]

Current usage metrics show cumulative count of Article Views (full-text article views including HTML views, PDF and ePub downloads, according to the available data) and Abstracts Views on Vision4Press platform.

Data correspond to usage on the plateform after 2015. The current usage metrics is available 48-96 hours after online publication and is updated daily on week days.

Initial download of the metrics may take a while.