Your search keyword '"LoRa"' showing total 3 results

1. Triple-Band Reconfigurable Monopole Antenna for Long-Range IoT Applications.

Author

Yahya MS, Soeung S, Singh NSS, Yunusa Z, Chinda FE, Rahim SKA, Musa U, Nor NBM, Sovuthy C, and Abro GEM

Subjects

Asia, Computer Simulation, Europe, Serogroup, Communication

Abstract

In this study, a novel reconfigurable triple-band monopole antenna for LoRa IoT applications is fabricated on an FR-4 substrate. The proposed antenna is designed to function at three distinct LoRa frequency bands: 433 MHz, 868 MHz, and 915 MHz covering the LoRa bands in Europe, America, and Asia. The antenna is reconfigurable by using a PIN diode switching mechanism, which allows for the selection of the desired operating frequency band based on the state of the diodes. The antenna is designed using CST MWS ® software 2019 and optimized for maximum gain, good radiation pattern and efficiency. The antenna with a total dimension of 80 mm × 50 mm × 0.6 mm (0.12λ0×0.07λ0 × 0.001λ0 at 433 MHz) has a gain of 2 dBi, 1.9 dBi, and 1.9 dBi at 433 MHz, 868 MHz, and 915 MHz, respectively, with an omnidirectional H-plane radiation pattern and a radiation efficiency above 90% across the three frequency bands. The fabrication and measurement of the antenna have been carried out, and the results of simulation and measurements are compared. The agreement among the simulation and measurement results confirms the design's accuracy and the antenna's suitability for LoRa IoT applications, particularly in providing a compact, flexible, and energy efficient communication solution for different LoRa frequency bands.

Published

2023

2. An Easily Integrable Industrial System for Gamma Spectroscopic Analysis and Traceability of Stones and Building Materials †.

Author

Marini, Marco, Panicacci, Silvia, Donati, Massimiliano, Fanucci, Luca, Fanchini, Erica, Pepperosa, Andrea, Morichi, Massimo, Albéri, Matteo, Chiarelli, Enrico, Montuschi, Michele, Raptis, Kassandra Giulia Cristina, Serafini, Andrea, Strati, Virginia, and Mantovani, Fabio

Subjects

*BUILDING stones, *CONSTRUCTION materials, *CYBER physical systems, *CLOUD computing, *ACQUISITION of data

Abstract

In the building material and stones market, lots of restrictions are coming in different world zones. In Europe, a recent regulatory set up the maximum level of radiological emissions for materials intended for use in public and private building structures. For this reason, companies need to have a very efficient radiological measurements system in their production chain, in order to respect all the rules and to be competitive in the world market. This article describes CORSAIR, a Cloud-Oriented Measurement System for Radiological Investigation and Traceability of Stones. Our cyber-physical system consists of sensing nodes network connected to a data collection gateway through LoRaWAN protocol, and interfaces with a centralized cloud application. CORSAIR introduces a fast, repeatable, real-time and non-destructive method to measure radiological emissions and other parameters of each single building material item, uniquely identified by an applied RFID tag. The validity of this system is confirmed by in-situ measurement campaign compared with high-precision laboratory analysis. The results demonstrate the accuracy of the CORSAIR sensor and the possibility to easily integrate it in the company production chain without any change. [ABSTRACT FROM AUTHOR]

Published

2021

3. LoRa-Based Traffic Flow Detection for Smart-Road.

Author

Asiain, David and Antolín, Diego

Subjects

*TRAFFIC flow, *TRAFFIC monitoring, *WIDE area networks, *TRAFFIC accidents, *TELECOMMUNICATIONS standards, *AUTOMOBILE speed

Abstract

This paper presents a wireless traffic flow detection system, mainly focused on conditions in which the traffic flow is slow or stopped, which increases the risk of highway accidents. To achieve this goal, a Low Power Wide Area Network (LPWAN) based on LoRa called Short LoRa has been developed. This LoRa sub-network complies with the European Telecommunications Standards Institute (ETSI) harmonized standard for its compatibility in Europe countries. In addition, the development of the devices has allowed them to also work on a LoRaWAN network. The introduced development has been compared to a reference system mounted with laser barriers that provided a high accurate comparison. Field tests of the system have been carried out and the data obtained in the measurement has been analyzed with two different methods, and both of them were valid for the application. The results can determine vehicle speed with adequate precision at low speeds. The attenuating behavior of the communication signal is also analyzed through the Radio Signal Strength Indicator (RSSI). The relationship between vehicle speed, gate distances and RSSI attenuation has been studied. The system is proven to have efficient results in detecting traffic flow under the conditions for which it has been developed. [ABSTRACT FROM AUTHOR]

Published

2021