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The research aims to develop a non-destructive system for detecting fruit ripening stages using gas sensing technology.

April 15, 2026Open Access

E Nose Fruit for Ripening Detection

Puntos clave

The research aims to develop a non-destructive system for detecting fruit ripening stages using gas sensing technology.
Developed an electronic nose system using MQ-135, MQ-3, and VOC sensors.
Utilized an Arduino Uno microcontroller for data processing.
Classified fruits into unripe, ripe, and overripe based on VOC detection.
Displayed data on a 16×2 LCD screen.
The system accurately detects fruit ripeness stages in real-time.
Demonstrated faster and cost-effective detection compared to conventional methods.
Reduced post-harvest losses and improved decision-making in agriculture.

Resumen

Fruit ripening detection plays a crucial role in agriculture, storage, and supply chain management. Conventional methods such as visual inspection and chemical analysis are often subjective, time-consuming, and destructive. This research presents the development of an Electronic Nose (E-Nose) system for non-destructive and real-time detection of fruit ripening stages. The system utilizes gas sensors such as MQ-135, MQ-3, and a VOC sensor to detect volatile organic compounds (VOCs) like ammonia, ethanol, and ethylene released during fruit ripening. The sensor data is processed using an Arduino Uno microcontroller and displayed on a 16×2 LCD screen. The system classifies fruits into unripe, ripe, and overripe categories based on predefined thresholds. Experimental results demonstrate that the proposed system provides accurate, fast, and cost-effective ripeness detection. This technology can significantly reduce post-harvest losses and improve decision-making in agriculture and food industries.

E Nose Fruit for Ripening Detection

Puntos clave

Resumen

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