“…The development of artificial pollination technologies is driven by the need to address challenges such as declining bee populations, environmental factors and the increasing demand for efficient and reliable pollination in agriculture. By using the VOS viewer mapping software and the Scopus bibliographic database based on the search strategy criteria "Artificial and Pollination and Technologies" (Figure 1), the above mentioned technologies show promise but they are still in the early stages of development (Co-keyword: artificial intelligence, Figure 1), and may vary in effectiveness (Co-keyword: optimization, Figure 1), depending on the specific crop, environmental conditions and probably other parameters such as the disease inoculum [35][36][37][38][39]. Furthermore, it's important to note that while artificial pollination can be a useful tool in certain situations such as for walnut trees, apart robotics (Co-keyword: artificial robots, Figure 2), modeling (Co-keyword: Matlab, Figure 2) or the agriculture drones (Co-keyword: agriculture drones, Figure2), the pollen germination (Co-keyword: pollen germination, Figure 2), and the knowledge of pollen as a possible pathway for the dissemination of bacterial diseases of other crops such as pear of kiwifruit plant (Co-keywords: pear and Actinidia deliciosa, Figure 2), remain crucial for maintaining information for design and manufacture of aerial pollinator robot for walnut trees.…”