arxiv_cv 90% Match Research Paper Agricultural engineers,Robotics developers for agriculture,Farmers,Agronomists 1 day ago

Image-based ground distance detection for crop-residue-covered soil

robotics › manipulation

📄 Abstract

Abstract: Conservation agriculture features a soil surface covered with crop residues, which brings benefits of improving soil health and saving water. However, one significant challenge in conservation agriculture lies in precisely controlling the seeding depth on the soil covered with crop residues. This is constrained by the lack of ground distance information, since current distance measurement techniques, like laser, ultrasonic, or mechanical displacement sensors, are incapable of differentiating whether the distance information comes from the residue or the soil. This paper presents an image-based method to get the ground distance information for the crop-residues-covered soil. This method is performed with 3D camera and RGB camera, obtaining depth image and color image at the same time. The color image is used to distinguish the different areas of residues and soil and finally generates a mask image. The mask image is applied to the depth image so that only the soil area depth information can be used to calculate the ground distance, and residue areas can be recognized and excluded from ground distance detection. Experimentation shows that this distance measurement method is feasible for real-time implementation, and the measurement error is within plus or minus 3mm. It can be applied in conservation agriculture machinery for precision depth seeding, as well as other depth-control-demanding applications like transplant or tillage.

Authors (6)

Baochao Wang

Xingyu Zhang

Qingtao Zong

Alim Pulatov

Shuqi Shang

Dongwei Wang

Submitted

November 1, 2025

arXiv Category

eess.IV

arXiv PDF

Key Contributions

This paper presents an image-based method for detecting ground distance on crop-residue-covered soil, overcoming the limitations of traditional sensors. By combining depth and color images from a 3D camera and RGB camera, respectively, it segments the soil area and applies this mask to the depth image, providing accurate ground distance information for precise seeding depth control in conservation agriculture.

Business Value

Enables more efficient and effective farming practices in conservation agriculture, leading to improved crop yields, reduced water usage, and better soil health through precise seeding.

Paper Metadata

Innovation Type

Novel Sensor Fusion/Methodology

Deployment Feasibility

High. The system uses standard camera sensors and image processing techniques, suitable for integration into agricultural machinery.

Limitations Addressed

Inability of traditional distance sensors to penetrate crop residues,Need for precise seeding depth control in conservation agriculture,Difficulty in distinguishing soil from residue cover

Technical Tags

Ground Distance DetectionCrop ResiduesConservation AgricultureSeeding Depth Control3D CameraRGB CameraDepth ImageColor ImageMask ImageImage Segmentation

Research Topics

Agricultural RoboticsPrecision AgricultureComputer VisionSensor FusionRobotics Control

Methods & Architectures

3D camera depth sensingRGB camera for segmentationMasking depth image based on color segmentationImage processing pipeline Image-based distance detection system

Applications & Tasks

Agriculture Farming Robotics Precisely controlling seeding depth on crop-residue-covered soilInability of traditional sensors (laser, ultrasonic) to differentiate residue from soilObtaining accurate ground distance information Ground distance detectionSoil surface identificationSeeding depth adjustment

Related Fields

Agricultural EngineeringRoboticsComputer VisionPrecision AgricultureSensor Technology

Keywords

Ground DistanceCrop ResiduesConservation AgricultureSeeding Depth3D CameraRGB CameraImage SegmentationPrecision AgricultureAgricultural RoboticsSensor Fusion

Academic Context

#Agricultural Robotics#Precision Agriculture#Computer Vision#Sensor Fusion#Robotics Control

Commercial Potential

Potential Products

Smart seeding machinery with integrated ground distance sensorsAgricultural robotics systems for precision plantingSoftware for analyzing soil surface conditions

Target Industries

AgricultureAgri-techFarm Equipment Manufacturing

Use Case Examples

A planter automatically adjusting its depth based on residue coverA robotic planter precisely placing seeds in conservation tillage systemsMonitoring soil conditions for optimal planting strategies

Competitive Edge

Provides a vision-based solution for ground distance detection that overcomes the limitations of traditional sensors in residue-covered environments, offering a more accurate and adaptable approach.

Market Opportunity

Growing market for precision agriculture technologies and smart farming solutions.

Revenue Models

Integration into agricultural machinerylicensing of the technology to equipment manufacturers.

Resource Requirements

Compute Needs

Moderate, for real-time image processing on agricultural machinery.

Data Requirements

Paired depth and RGB images of crop-residue-covered soil.

Deployment Constraints

Durability of sensors in harsh agricultural environments, calibration requirements, integration with existing farm equipment.

Scalability

The method is inherently scalable as it relies on camera sensors and image processing.

Production Readiness

Maturity Level

Research/Prototype

Time to Market

2-3 years for integration into commercial agricultural equipment.

Patent Potential

Moderate, for the specific method of combining depth and color segmentation for ground distance detection in this context.

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