TY - JOUR AU - Muhammad Nazuli AU - Muhammad Fachrurrozi AU - Muhammad Rizqie AU - Abdiansah Abdiansah AU - Muhammad Ikhsan PY - 2025/03/17 Y2 - 2025/04/03 TI - A Image Classification of Poisonous Plants Using the MobileNetV2 Convolutional Neural Network Model Method JF - MATRIK : Jurnal Manajemen, Teknik Informatika dan Rekayasa Komputer JA - matrik VL - 24 IS - 2 SE - Articles DO - https://doi.org/10.30812/matrik.v24i2.4284 UR - https://journal.universitasbumigora.ac.id/index.php/matrik/article/view/4284 AB - Poisonous plants can be dangerous for many people, but some can be used as medicines or as pest killers. Some people, especially those in environments with a wide variety of plants, can take advantage of this poisonous plant. Lack of knowledge and information causes the use of this poisonous plant to be inappropriate. This research aims to develop software to classify images of poisonous plants using the Convolutional Neural Network method with the MobileNetV2 model and to compare the accuracy of classification results with various dataset configurations and varying parameters. The research method used is a Convolutional Neural Network, which has relatively high accuracy in classifying various digital images. The data used in this research consists of eight poisonous plants and several non-poisonous plants. The research results on 153 test data show that the accuracy value was 99.34%, precision was 99%, recall was 99%, and F1-Score was 99%. This research contributes to developing software that can quickly provide information and knowledge about poisonous plants, offering a high-accuracy solution for classifying poisonous plants using image data. Furthermore, implementing MobileNetV2 provides an efficient and lightweight model suitable for deployment on mobile devices, enhancing accessibility and usability in the field. The potential applications of this software extend beyond individual use, potentially benefiting agricultural, medical, and educational sectors. Future work will expand the dataset to include more plant species and refine the model to improve its robustness against diverse environmental conditions and image qualities. ER -