WP2 – Stage 2 – Sensor Environment
Planned activities for Stage 2
Activity 2.1
(Further) development of the sensor layer of the IoT platform as a heterogeneous environment for testing and experimentation, including various electronic modules.
Achieved results during Stage 2
- Well-functioning electronic modules were developed for integration into the created IoT platform EMULSION, aiming to facilitate the rapid development of IoT prototype systems based on it and the quick deployment and offering of corresponding IoT services. The electronic modules include both simpler sensor modules and more complex functional modules, such as microprocessor boards and communication gateways. While in Stage 1 of the project, the primary focus was on designing custom boards1 based on microcontrollers (MCUs), in Stage 2, the focus shifted to developing high-end IoT devices to provide greater communication flexibility with user-selectable options and usability in more application scenarios, including machine learning algorithms, object-oriented applications, various database types, etc.
- The achieved results in this work package are presented in the following scientific publications:
- In conference proceedings, referenced in WoS/Scopus – 2 publications.
[2.1*] Z. Ji and I. Ganchev. 2024. “4$ LuatOS-based 4G IoT gateway”. Proc. of the 32nd National Conference with International Participation "TELECOM 2024", Pp. 1-4, 21-22 November, Sofia, Bulgaria. eISSN: 2837-5246. eISBN: 979-8-3503-5500-0. DOI: 10.1109/TELECOM63374.2024.10812290. (will be referenced in Scopus)
https://ieeexplore.ieee.org/document/10812290[2.2*] I. Ganchev, Z. Ji, M. O'Droma. 2022. “Designing a Low-cost High-end Android-based Wireless Board for the EMULSION IoT Platform”. Proc. of 2022 3rd URSI Atlantic and Asia Pacific Radio Science Meeting (AT-AP-RASC), Pp. x1-x4, 29 May - 3 June, Gran Canaria, Spain. eISBN: 978-9-4639-6-8058. DOI: 10.23919/AT-AP-RASC54737.2022.9814211. WoS Scopus
https://ieeexplore.ieee.org/document/9814211 - In other publications – 1 publication.
[2.3*] Z. Ji, I. Ganchev, M. O'Droma. 2022. “A Low-Cost GNSS-based Sensor Unit for a Displacement Monitoring System Prototype structured on the EMULSION IoT Platform”. 19th RIA/URSI Research Colloquium on Radio Science and Communications, Pp. x1-x4. 26-27 October. RIA, Dublin, Ireland. Proceedings Book (©RIA).
1 For example, see I. Ganchev, Z. Ji, and O. D. M., "Low-cost and ultra-low-power consuming RTUs for use in IoT systems," Int. J. Circ., Syst. And Sig. Process., vol. 14, pp. 76–82, 2020.