Abstract
In this study, an image registration algorithm was applied to calculate the rotation angle of objects when matching images. Some commonly used image feature detection algorithms such as features from accelerated segment test (FAST), speeded up robust features (SURF) and maximally stable extremal regions (MSER) algorithms were chosen as feature extraction components. Comparing the running time and accuracy, the image registration algorithm based on SURF has better performance than the other algorithms. Accurately obtaining the roll angle is one of the key technologies to improve the positioning accuracy and operation quality of agricultural equipment. To acquire the roll angle of agriculture machinery, a roll angle acquisition model based on the image registration algorithm was built. Then, the performance of the model with a monocular camera was tested in the field. The field test showed that the average error of the rolling angle was 0.61°, while the minimum error was 0.08°. The field test indicated that the model could accurately obtain the attitude change trend of agricultural machinery when it was working in irregular farmlands. The model described in this paper could provide a foundation for agricultural equipment navigation and autonomous driving.
Highlights
With the development of computer technology, currently, smart cameras are widely used in navigation, positioning, tracking, obstacle avoidance, monitoring, etc. [1,2]
This paper presents a method for obtaining feature points with a monocular camera
Image registrations algorithm based on common image feature detection algorithms, such as from accelerated segment test (FAST), speeded up robust features (SURF)
Summary
With the development of computer technology, currently, smart cameras are widely used in navigation, positioning, tracking, obstacle avoidance, monitoring, etc. [1,2]. With the development of computer technology, currently, smart cameras are widely used in navigation, positioning, tracking, obstacle avoidance, monitoring, etc. Visual measurement is becoming a research hotspot, which uses a camera to capture the static single frame image or dynamic sequence images of the target [3,4]. Image processing and analysis technologies are used to measure the target structural parameters and motion parameters. It has the advantages of non-contact, fast dynamic response and high efficiency [5]. It has been widely used in the field of industrial pose measurement. Intelligent agricultural machinery equipment is one of the important technologies of modern agriculture, and its working width has gradually broadened
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