Bumanglag, Matthew Hence D. <br/><br/>
Prediction of moisture content loss in garlic (Allium sativum Linn.) through machine learning / 
Matthew Hence D. Bumanglag, John Christian N. Corpuz 
 - City of Batac :  MMSU,  2024. 
 - xv, 114 leaves :  29 cm 
<br/><br/> UTHESIS (Bachelor of Science in Agricultural and Biosystems Engineering) 
<br/><br/>Bibliography: leaves 63-64 
<br/><br/> Machine learning involves the examination and computational simulation of  various manifestations of learning processes. ML has emerged as an effective method  for predicting agricultural crop moisture content loss using microclimate parameters  such as temperature and relative humidity. The experiments consist of daily  observations made twice a day from 9 a.m. to 4 p.m.—using a data logger. The garlic  was divided into two treatment groups: inside the structure and shade. These groups  had two plots of laid out garlic and two plots of garlic hanged by the stem. The garlic  was left to cure for a period of time.  Results reveal that the RF model had the highest level of prediction accuracy  based on R2 = 0.70, 0.71, 0.29, and 0.24 for Structure Hanged, Structure Laid, Shade  Hanged, and Shade Laid, respectively. Also, RSME = 0.60, 0.68, and 0.79, Structure  Laid, Shade Hanged, and Shade Laid, respectively. In addition, MSE = 0.61 and 0.46  for Structure Laid and Shade Hanged. Lastly, MAE = 0.41, 0.39, and 0.51 for Structure  Laid, Shade Hanged, and Shade Laid, respectively. An accurate prediction of moisture  content in field measurement data can mitigate the effects of agricultural, industrial,  and urban practices, as well as drying, weather conditions, and storage practices.