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All Journal KLIK (Kumpulan jurnaL Ilmu Komputer) (e-Journal) ILKOM Jurnal Ilmiah
saharis, risky
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Computer Science & IT

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Pemanfaatan Internet of Things Pada Pintu Dan Kipas Angin Otomatis Di Rumah Kos wiwi, muhammad hibrian; saharis, risky
KLIK- KUMPULAN JURNAL ILMU KOMPUTER Vol 11, No 1 (2024)
Publisher : Lambung Mangkurat University

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.20527/klik.v11i1.668

Abstract

The growth of society and students is getting higher from year to year, this is because it is inseparable from the development of the world of education, where people tend to control their home electrical appliances using switches manually that must be operated with human power. The use of technology that can be utilized from this internet network is to be able to access electronic equipment such as lights, fans, air conditioners and other electronic equipment in a room that can be turned on and off via smartphone.  A prototype or model of a door that can be controlled remotely, meaning that the door can be opened and closed via a smartphone connected to a mobile phone. So the electronic devices that have been carried out research can be controlled via smartphones connected to the internet successfully carried out.Keywords: IoT, Wemos D1 Mini, Selonoid,
Low Power Consumption IoT Weather Monitoring System for Coastal Areas Wiwi, Muhammad Hibrian; Awaluddin, Muhammad; Saharis, Risky
ILKOM Jurnal Ilmiah Vol 17, No 2 (2025)
Publisher : Prodi Teknik Informatika FIK Universitas Muslim Indonesia

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.33096/ilkom.v17i2.2456.120-130

Abstract

This research aims to design and develop a real-time weather monitoring system in coastal areas using weather sensors integrated with Internet of Things (IoT) technology. This system wants to provide accurate weather information that fishermen can access directly through web-based platforms or mobile devices. Fishermen can make the right and safe decisions before going to sea, improving fishing activities' safety and efficiency. How to overcome the limitations of traditional weather monitoring methods that are manual, non-real-time, and discontinuous, and how to design systems that can transmit weather data automatically and in real-time in coastal areas that are often difficult to reach by power grids and stable internet. Another essential issue formulated is how to optimize the power consumption of sensor and communication systems so that they can operate efficiently using battery power resources for an adequate period. This study confirms the importance of energy efficiency in battery-based monitoring systems, especially in sensor nodes installed in remote locations without a fixed power source. The test results show the difference between the estimated operating time based on theoretical calculations and the results of simulations or real tests in the field. In idle mode, theoretical calculations estimate the system can last up to about 12.8 hours, but actual simulations show an endurance of about 7.3 hours. Meanwhile, in active mode, the estimated calculation is around 5.5 hours, while the simulation shows a slightly longer endurance, which is about 7.2 hours.
Co-Authors Muhammad Awaluddin, Muhammad Muhammad Hibrian Wiwi