Automatic Clothes Folder With Three Folding Modes Based on Microcontroller

Authors

  • Desi Institut Teknologi dan Bisnis Indonesia
  • Ella Andini Br Ginting Institut Teknologi dan Bisnis Indonesia
  • Mutiara Damarani Institut Teknologi dan Bisnis Indonesia
  • Ratna Anzani Institut Teknologi dan Bisnis Indonesia
  • Sumarlin Institut Teknologi dan Bisnis Indonesia
  • Ita Margaretta Br Tarigan Institut Teknologi dan Bisnis Indonesia

DOI:

https://doi.org/10.64810/jceit.v2i1.33

Keywords:

Automatic Clothes Folder, Arduino Uno, microcontroller, Servo Library
Abstract Views: 34 | File Views: 60

Abstract

In the digital era and increasingly rapid automation, technological innovation continues to penetrate various aspects of life, including household work. One household task that is often considered boring and time-consuming is folding clothes. Even though it looks simple, this activity can be a burden, especially in the context of modern society, where time is limited. The main feature of this system is its ability to fold clothes with three different folding modes. This provides the flexibility to handle different types of clothing or different fold preferences. The folding mechanism is implemented using a Tower Pro MG995 servo motor, which is programmed to move precisely using the Servo library. The design of an automatic system for folding clothes in three different modes is to build a tool that will use the Arduino Uno R3 microcontroller as a control center that coordinates all system operations. Next, the folding mechanism is implemented using a Tower Pro MG 995 servo motor, which is programmed to move precisely using a servo library.

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Published

30-11-2025

How to Cite

Desi, Ella Andini Br Ginting, Mutiara Damarani, Ratna Anzani, Sumarlin, & Ita Margaretta Br Tarigan. (2025). Automatic Clothes Folder With Three Folding Modes Based on Microcontroller. JCEIT: Journal of Computer Engineering and Information Technology, 2(1). https://doi.org/10.64810/jceit.v2i1.33

Issue

Vol. 2 No. 1 (2025): JCEIT: Journal of Computer Engineering and Information Technology (Nov 2025)

Section

Articles