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All Journal Jurnal Mantik
Irga Irga
UPN Veteran Jakarta, Indonesia
Computer Science & IT Economics, Econometrics & Finance Languange, Linguistic, Communication & Media

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Agricultural monitoring system using esp32 microcontroller with IOT-Based LORA transmission Achmad Zuchriadi; Fajar Rahayu; Silvia Anggraeni; Muhamad Alif Razi; Muchamad Oktaviandri; Irga Irga
Jurnal Mantik Vol. 7 No. 2 (2023): Agustus: Manajemen, Teknologi Informatika dan Komunikasi (Mantik)
Publisher : Institute of Computer Science (IOCS)

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.35335/mantik.v7i2.3823

Abstract

Smart farming is an agricultural management plan based on precise monitoring and calculation of agricultural parameters that are useful as a reference in taking appropriate actions. The application of Smart Farming is inseparable from the IoT system that supports processing and data collection. Remote large agricultural area, far from the public, limited access to electricity and difficult cellular network access. Responding to this, this research designed an IoT-based agricultural monitoring system by implementing the ESP 32 microcontroller and LoRa Transmission which uses solar panels as a power supply and is displayed via the Web Server Dashboard. Tests are carried out in the form of sensor readings, dashboard displays, and data transmission. The results obtained are that the agricultural monitoring system design works well with the sensors used to work and the ESP32 microcontroller to process data. LoRa and Internet data transmission can be sent properly indicated by synchronous data access. The monitoring dashboard can work properly as shown by the appropriate home page and graphic page.
Power consumption analysis using deep sleep method on NodeMCU 8266 for power efficiency in IoT system Achmad Zuchriadi; Fajar Rahayu; Hollanda Arief Kusum; Irga Irga
Jurnal Mantik Vol. 7 No. 4 (2024): February: Manajemen, Teknologi Informatika dan Komunikasi (Mantik)
Publisher : Institute of Computer Science (IOCS)

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.35335/mantik.v7i4.4442

Abstract

The Internet of Things has been implemented in various fields. The implementation of the Internet of Things is mostly carried out in remote areas that use batteries and solar panels as power sources. However, the efficiency of solar panels is still low while battery capacity is limited. For this reason, it is necessary to find a way so that an Internet of Things system only requires low power. One way is to use deep sleep mode on the microcontroller. This research was conducted by designing an IoT System for agriculture using the Nodemcu 8266 microcontroller. Furthermore, measurements of voltage, current and power consumption of the system were carried out using normal mode and deep sleep mode. Furthermore, a comparison was made between the measurement results between normal mode and deep sleep mode. Based on the measurement results, it is obtained that the voltage consumption of both normal mode and deep sleep mode results are the same, while the current consumption and power consumption of deep sleep mode are only 20% of the current consumption and power consumption of normal mode. This illustrates that deep sleep mode is more efficient in electrical power consumption, so it is very suitable for use for an IoT system implemented in remote areas
Co-Authors Achmad Zuchriadi Fajar Rahayu Hollanda Arief Kusum Muchamad Oktaviandri Muhamad Alif Razi RAHAYU, FAJAR Silvia Anggraeni