TY  - JOUR
JF  - BMC Plant Biology
AV  - public
KW  - Deep learning; polyphagous shot hole borer; plant disease detection;
hybrid model; Fourier transform
Y1  - 2026/04//
UR  - http://doi.org/10.1186/s12870-026-08847-6
A1  - Younas, Rabbiya
A1  - ur Rehman, Hafiz Muhammad Raza
A1  - Choi, Gyu Sang
A1  - Kuc Castilla, Ángel Gabriel
A1  - Uc Ríos, Carlos Eduardo
A1  - Ashraf, Imran
TI  - An attention-based deep learning model for early detection of polyphagous shot hole borer infestations in plants
SN  - 1471-2229
N2  - The Polyphagous Shot Hole Borer (PSHB) is a highly invasive beetle that has been spreading like an epidemic across agricultural and forestry landscapes in recent years. Its rapid and destructive spread has turned it into a major global threat, causing widespread damage that continues to grow with time. Countries like South Africa, the United States, and Australia have implemented extensive measures to control the spread of PSHB, including the establishment of specialized agricultural support centers for early detection. However, there is still a strong need to make PSHB detection more accessible, allowing even non-experts to easily identify infections at an early stage. Artificial Intelligence (AI) has shown great promise in plant disease detection, but a major challenge in the case of PSHB was the lack of a suitable dataset for training AI models. In the proposed work, we first created a dedicated dataset by collecting images of trees infected with PSHB. We applied a range of preprocessing techniques to refine the dataset and prepare it for AI applications. Building on this, we developed a novel AI-based method, where we trained a deep learning model using a multi-convolutional layer network combined with a Fourier transformation layer. Additionally, an attention mechanism and advanced feature extraction techniques were incorporated to further boost model performance. As a result, the proposed approach achieved an impressive top accuracy of 92.3% in detecting PSHB infections, showing the potential of AI to offer a simple, efficient, and highly accurate solution for early disease detection.
ID  - uninipr28569
ER  -