J. Imaging, Vol. 10, Pages 72: Analyzing Data Modalities for Cattle Weight Estimation Using Deep Learning Models

J. Imaging, Vol. 10, Pages 72: Analyzing Data Modalities for Cattle Weight Estimation Using Deep Learning Models

Journal of Imaging doi: 10.3390/jimaging10030072

Authors: Hina Afridi Mohib Ullah Øyvind Nordbø Solvei Cottis Hoff Siri Furre Anne Guro Larsgard Faouzi Alaya Cheikh

We investigate the impact of different data modalities for cattle weight estimation. For this purpose, we collect and present our own cattle dataset representing the data modalities: RGB, depth, combined RGB and depth, segmentation, and combined segmentation and depth information. We explore a recent vision-transformer-based zero-shot model proposed by Meta AI Research for producing the segmentation data modality and for extracting the cattle-only region from the images. For experimental analysis, we consider three baseline deep learning models. The objective is to assess how the integration of diverse data sources influences the accuracy and robustness of the deep learning models considering four different performance metrics: mean absolute error (MAE), root mean squared error (RMSE), mean absolute percentage error (MAPE), and R-squared (R2). We explore the synergies and challenges associated with each modality and their combined use in enhancing the precision of cattle weight prediction. Through comprehensive experimentation and evaluation, we aim to provide insights into the effectiveness of different data modalities in improving the performance of established deep learning models, facilitating informed decision-making for precision livestock management systems.