Actual Time wireless Communication Application for Microcomputer System Based on Data Acquisition
Elbehiry, E., Soliman, E., Mahmoud, T., Moussa, M. (2024). Actual Time wireless Communication Application for Microcomputer System Based on Data Acquisition. EKB Journal Management System, 7(2), 82-88. doi: 10.21608/fuje.2024.343799
Eman Adel Elbehiry; Elsayed Soliman; Tarek Mahmoud; Mahmoud Moussa. "Actual Time wireless Communication Application for Microcomputer System Based on Data Acquisition". EKB Journal Management System, 7, 2, 2024, 82-88. doi: 10.21608/fuje.2024.343799
Elbehiry, E., Soliman, E., Mahmoud, T., Moussa, M. (2024). 'Actual Time wireless Communication Application for Microcomputer System Based on Data Acquisition', EKB Journal Management System, 7(2), pp. 82-88. doi: 10.21608/fuje.2024.343799
Elbehiry, E., Soliman, E., Mahmoud, T., Moussa, M. Actual Time wireless Communication Application for Microcomputer System Based on Data Acquisition. EKB Journal Management System, 2024; 7(2): 82-88. doi: 10.21608/fuje.2024.343799

Actual Time wireless Communication Application for Microcomputer System Based on Data Acquisition

Fayoum University Journal of Engineering
Volume 7, Issue 2, 2024, Page 82-88  XML PDF (530.15 K)
Document Type: Original Article
DOI: 10.21608/fuje.2024.343799
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Authors
Eman Adel Elbehiry email 1; Elsayed Soliman2; Tarek Mahmoud2; Mahmoud Moussa1
1Giza Higher Institute for Engineering and Technology
2Communication and Electronics Department, Faculty of Engineering, El-Azhar University
Abstract
Promising remote interactive solutions are offered by the RTC wireless mul-ti-channel data gathering systems. In order to identify and analyze data, this study constructs and uses wireless octet channels. Using an Arduino-Uno con-nected to National Instruments (NI)-LabVIEW, the data analysis and the appro-priate control action will be carried out. A straightforward and user-friendly graphical user interface (GUI) has been created and put into use. The ambient parameters are read using passive infrared (PIR) sensors for temperature, pulse, humidity, and motion. The system offers the possibility of high accuracy data measurements, such as those for temperature and humidity, as well as individual measurements of eight parameters at various reading rates. The means values approach is used to collect correct data for the three sensors in the two de-scribed scenarios. Additionally, an effective storage method is employed. It keeps time- and date-stamped information that enables cancellation of any sub-sequent repeated measurements. The system will only save the most recent up-dates whenever the environmental parameters have changed. This can signifi-cantly reduce the amount of memory needed while yet providing an accurate enough representation of the sensor output. As triggering signals for the actua-tors, quad flags are used. Finally, this system allows for remote monitoring of the collected data using either a computer or a smartphone with a wifi local area network (WLAN) coverage.
Keywords
LabVIEW; Arduino-Uno; GUI; DAS; Real-Time
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