Multi-constraint improved RS path planning method for unmanned rice direct seeding machine

• Published in: Computers and electronics in agriculture Vol. 224; p. 109236
• Main Authors: Hu, Lian, Hou, Kang, He, Jie, Man, Zhongxian, Xie, Jiasheng, Wang, Pei, Tu, Tuanpeng, Gao, Ruitao, Zi, Le, Huang, Yufeng, Li, Mingjin, Ding, Shuaiqi, Zhang, Hong, Liu, Shanqi, Yue, Mengdong, Luo, Xiwen, Feng, Dawen
• Format: Journal Article
• Language: English
• Published: Elsevier B.V 01.09.2024
• Subjects: Agricultural machinery; agricultural machinery and equipment; agriculture; algorithms; China; Coverage rate; direct seeding; electronics; Encircling and edging; modernization; paddies; Path planning; Reeds–Shepp; rice; Unmanned; China; Unmanned; Agricultural machinery; Reeds–Shepp; Encircling and edging; Path planning; Coverage rate
• ISSN: 0168-1699; 1872-7107
• DOI: 10.1016/j.compag.2024.109236

•The direct-seeding path for rice covers the entire field.•Rice direct-seeding path includes the encircling path around the field blocks.•Encircling path planning algorithm is applicable to different shapes fields.•The path planning encompasses various patterns and path sequences. Path planning is one of the key technologies that determines the efficiency and quality of field operations using autonomous agricultural machinery. To date, there has been extensive research on global coverage path planning for unmanned agricultural machinery within the working area; however, the issue of “encircling and edging” left by the machinery during headland turns is often overlooked. This study focuses on the operational conditions of unmanned agricultural machinery in the rice fields of southern China. The path planning problem is abstracted under physical constraints, such as the space at the field headland, the agricultural environment (e.g., types of field ridges), the turning characteristics of the machinery, turning radius, working width, and minimum safety distance, into mathematical constraints. This yields an optimized path planning model and sequence combination. Based on the improved Reeds–Shepp curve, an en-circling and edging path planning algorithm is designed. The planned path for the unmanned agricultural machinery from start to finish consists only of arcs and straight lines, suitable for the right-angle turning, reversing, and 180° U-turn operations required for rice field machinery, thus significantly improving the coverage of field edges and missed areas at the headland. A rice direct-seeding machine was used as a test subject for encircling and edging field trials, with tests conducted in rectangular, trapezoidal, and irregular quadrilateral rice fields. The results show that, for rectangular plots, the full-field coverage rate of rice direct-seeding operations can reach 96.44%; for trapezoidal plots, the coverage rate is 95.47%; and for irregular quadrilateral fields, the coverage rate is 95.69%. These results are promising, indicating that the encircling and edging path planning based on the improved Reeds–Shepp curve can effectively increase the full-field coverage rate of unmanned agricultural machinery, improving work quality and meeting the needs of modernized, intelligent agricultural machinery operations.