I. Introduction

Weeds have a significant impact on the yield and quality of crops, making weed removal an essential aspect of agricultural production. The advancement of machine vision technology has demonstrated great potential in replacing human eye recognition for weed detection. Through image processing and analysis techniques, machine vision can quickly and accurately identify field weeds for targeted weed control. Louargant et al. successfully achieved early weed detection in row crops by integrating spatial and spectral information. Wang et al. utilized various features such as biological ecology, spectral characteristics, visual texture, and spatial background to develop different classification methods based on color index, thresholding, and learning for effective weed detection. Furthermore, modern sensors with excellent temporal, spatial, and spectral resolution are widely employed in weed identification. Khan et al. relied on hyperspectral imaging technology using spectral cameras to capture field images; Lammie et al. implemented weed image acquisition and AI acceleration based on FPGA (Field Programmable Gate Arrays)^[1].