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All Journal Transformasi Innovation, Technology, and Entrepreneurship Journal
Azizah, Isnaini Nurul
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Computer Science & IT Decision Sciences, Operations Research & Management Education Electrical & Electronics Engineering Engineering Languange, Linguistic, Communication & Media Mathematics Social Sciences

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PERANCANGAN USER INTERFACE APLIKASI MOBILE START-UP KOS.KU MENGGUNAKAN METODE USER CENTERED DESIGN Mahasinul Akhlak, Muhammad Lutfi; Azizah, Isnaini Nurul; Nastiti, Putri -; Wulan, Retno -
TRANSFORMASI Vol 20, No 2 (2024): TRANSFORMASI
Publisher : STMIK BINA PATRIA

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.56357/jt.v20i2.408

Abstract

So far, students have looked for information about boarding houses in conventional ways, including by visiting boarding houses directly to carry out surveys about the conditions, prices and facilities of boarding houses. The digital start-up Kos.ku is designed to find solutions and bridge these difficulties by connecting boarding house seekers and boarding house partners who are able to provide the housing that students (boarding house seekers) want. In this research, the method used is user centered design, analysis using SWOT and feasibility study analysis using TELOS. The testing process was carried out through prototype tools in the Figma software, everything ran according to user flow with test results of 87% (see table 3). This proves that the digital start-up designed has answered user needs.
The IoT Simulation of Watering System for Vanilla Cultivation using DHT11 and Soil Moisture Sensors with Fuzzy Logic Control Akhlak, Muhammad Lutfi Mahasinul; Azizah, Isnaini Nurul; Nataliya, Desi; Maghfiroh, Fatiya; Febriani, Yeza
Innovation, Technology, and Entrepreneurship Journal Vol 2 No 2 (2025)
Publisher : Universitas Muhammadiyah Magelang

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.31603/itej.14435

Abstract

The primary objective of this study is to design and simulate an automatic watering system utilizing a DHT11 sensor and a soil moisture sensor for vanilla cultivation, incorporating fuzzy logic control. The system can effectively adjust watering frequency based on soil moisture and ambient temperature, ensuring optimal plant care and maintaining ideal growth conditions for vanilla without manual intervention. Using the ADDIE development model, this system was designed to meet the needs of users, including farmers. Testing using MATLAB software using Rule Viewer and Simulink, as well as Arduino IDE software running with Proteus, yielded the same output values when the input values were also identical. Therefore, the IoT simulation of vanilla cultivation using fuzzy logic control can be effectively implemented in accordance with the research objectives. The results of this study demonstrate the great potential of applying IoT technology to support efficiency and effectiveness in plant maintenance. This system also provides an efficient and accurate monitoring solution compared to manual methods, operating automatically without requiring human intervention.
Co-Authors Maghfiroh, Fatiya Muhammad Lutfi Mahasinul Akhlak Nastiti, Putri - Nataliya, Desi Wulan, Retno - Yeza Febriani