With the rapid advancement of information technology, digital technology has comprehensively permeated all fields of oral implantology, giving rise to a "digital planting" model centered on the principles of precision, efficiency, and predictability. This paper systematically elaborates on the connotation and technical system of digital planting, providing a detailed analysis of its application across the entire workflow---from preoperative diagnosis and planning, to surgical guide-guided implantation, and finally to the fabrication of the definitive prosthesis. The focus is on how key technologies, including cone-beam computed tomography (CBCT), intraoral scanning (IOS), three-dimensional design software, and 3D printing/milling technology, collaborate to achieve precision and personalization in implant therapy. Furthermore, this paper objectively analyzes the current challenges facing digital planting, such as cost, the technical learning curve, and data fusion accuracy issues. It also prospects future development directions, including the application of artificial intelligence (AI), bioprinting, and telemedicine. The conclusion affirms that digital planting represents the future direction of oral implantology, and its comprehensive application will significantly enhance medical quality, patient experience, and clinical efficiency.