Table of Content

1. Overview of Autonomous Agricultural Machinery

1.1 Agriculture Development Stages
1.2 Agricultural Machinery Types and Development Importance
1.3 Development of Intelligent Agriculture is Inseparable from Intelligent and Automated Agricultural Machinery
1.3.1 Overview of Autonomous Agricultural Machinery Technology
1.3.2 Industrial Chain of Autonomous Agricultural Machinery Industry
1.3.3 Pain points of Traditional Agriculture and Value of Autonomous Agricultural Machinery


2. Situation and Trend of Autonomous Agricultural Machinery Market

2.1 Industry Policies and Standards
2.1.1 Policies
2.1.2 Standardization Policy
2.1.3 Subsidy Standard
2.1.4 Beidou Satellite Networking Facilitates the Development of Autonomous Agricultural Machinery

2.2 Development History and Status Quo of Autonomous Agricultural Machinery
2.2.1 Development History of Global Autonomous Agricultural Machinery
2.2.2 Status Quo of Autonomous Agricultural Machinery Development: USA
2.2.3 Status Quo of Autonomous Agricultural Machinery Development: Japan
2.2.4 Development Stage of Autonomous Agricultural Machinery in China
2.2.5 Status Quo of Autonomous Agricultural Machinery Development: China

2.3 Market Size of Autonomous Agricultural Machinery System in China
2.3.1 Ownership of Agricultural Machinery
2.3.2 Sales Volume of Autonomous Agricultural Machinery System
2.3.3 Market Size of Autonomous Agricultural Machinery System
2.3.4 Penetration of Autonomous Agricultural Machinery System
2.3.5 Cost Calculation of Autonomous Agricultural Machinery System
2.3.6 Distribution of Autonomous Agricultural Machinery System by Region
2.3.7 Sales Volume of Autonomous Agricultural Machinery System by Players
2.3.8 Sales Volume of Autonomous Agricultural Machinery Products
2.3.9 Price Comparison of Autonomous Agricultural Machinery Products

2.4 Competitive Landscape of Autonomous Agricultural Machinery in China
2.4.1 Competitive Landscape
2.4.2 Financing and Cooperation
2.4.3 Project Landing
2.4.4 Comparison of Major Products

2.5 Restrictions on Landing of Autonomous Agricultural Machinery
2.6 Technology Development Trend
2.7 Market Development Trend


3. Autonomous Agricultural Machinery Technology Solutions

3.1 Technology Solution
3.1.1 Autonomous Agricultural Machinery System: double antenna RTK-GNSS positioning?based system architecture
3.1.2 Autonomous Agricultural Machinery Players: control and manage connected agricultural machinery by platform service mode

3.2 Perception Solution
3.2.1 Autonomous Agricultural Machinery System: Navigation Positioning and Environment Perception Technology Based on Multi-source Information Fusion
3.2.2 Satellite Positioning System
3.2.3 Machine Vision Navigation
3.2.4 Obstacle Detection and Recognition

3.3 Decision Solution
3.3.1 Path Planning
3.3.2 Path Tracking and Control
3.3.3 Assembly Integration Technology
3.3.4 Agricultural IoT

3.4 Execution Solution
3.4.1 Controller Solution
3.4.2 Comparison of Controlling Modes
3.4.3 Competitive Landscape of Controlling Modes

3.5 Infrastructure of Autonomous Agricultural Machinery
3.5.1 Base Station
3.5.2 CORS
3.5.3 System Composition of CORS
3.5.4 Working Principle of CORS
3.5.5 Development Advantages of CORS
3.5.6 High-standard Farmlands

3.6 Comparison of Major Autonomous Agricultural Machinery Solutions


4. Application Cases of Autonomous Agricultural Machinery in China

4.1 Unmanned Farm Projects
4.1.1 Teaching and Research Base of South China Agricultural University in Zengcheng District, Guangzhou
4.1.2 Great Northern Wilderness Unmanned Jiansanjiang Farm Projects
4.1.3 Pilot Project of Unmanned Operation in the Whole Process of Agriculture in Xinghua, Jiangsu

4.2 Application Scenarios of Autonomous Agricultural Machinery System: Planting
4.2.1 Tractor Farming
4.2.2 Cotton Planting
4.2.3 Rice Transplanting

4.3 Application Scenarios of Autonomous Agricultural Machinery System: Ground Plant Protection Operations
4.4 Application Scenarios of Autonomous Agricultural Machinery System: Harvesting

4.5 OEM and AM System Application of Autonomous Agricultural Machinery
4.5.1 OEM
4.5.2 AM System


5. Autonomous Agricultural Machinery Manufacturers

5.1 Zoomlion
5.1.1 Profile
5.1.2 Smart Agriculture and Autonomous Driving
5.1.3 Autonomous Agricultural Machinery System Architecture
5.1.4 Main Autonomous Agricultural Machinery Technologies
5.1.5 Unmanned Agricultural Machinery Products
5.1.6 Autonomous Driving Application
5.1.7 Smart Agriculture Demonstration Base Construction and Industry-University-Research Cooperation Project in Wuhu City, Anhui
5.1.8 Industry-University-Research Cooperation: Joint Research of Intelligent Agricultural Machinery

5.2 Lovol
5.2.1 Profile
5.2.2 R&D System
5.2.3 Autonomous Agricultural Machinery Layout
5.2.4 Arbos Tractor
5.2.5 Development Route of Arbos Tractor
5.2.6 Unmanned Harvester Technology Solution
5.2.7 Autonomous Agricultural Machinery System
5.2.8 Cooperation with Baidu: Mass Production of Autonomous Agricultural Machinery

5.3 FJ Dynamics
5.3.1 Profile
5.3.2 Unmanned Farm Solution
5.3.3 Unmanned Agricultural Machinery Products Line
5.3.4 Autonomous Agricultural Machinery System
5.3.5 Operation of Jiangyu Autonomous Navigation System
5.3.6 Application of Autonomous Agricultural Machinery System
5.3.7 5G Intelligent Harvester
5.3.8 Cooperation with Microsoft Azure
5.3.9 Cooperation with Jiangsu Provincial Agricultural Reclamation and Development Co., Ltd.

5.4 China YTO
5.4.1 Profile
5.4.2 Autonomous Agricultural Machinery System
5.4.3 Autonomous Agricultural Machinery Layout
5.4.4 Dongfanghong LX904 Autonomous Tractor
5.4.5 China YTO "Super Tractor I" Appears in Shanghai Chongming "5G + Smart Farm" Demonstration Zone
5.4.6 Cooperation

5.5 John Deere
5.5.1 Profile
5.5.2 Autonomous Agricultural Machinery System
5.5.3 ATU Automatic Navigation Device

5.6 AGCO+ Tianjin Ztron Beyond Intelligent Technology Co., Ltd.
5.6.1 Profile
5.6.2 Autonomous Agricultural Machinery System

5.7 Iseki
5.7.1 Profile
5.7.2 Unmanned Agricultural Machinery Development Planning
5.7.3 Manned Surveillance Robot Tractor
5.7.4 Unmanned Tractor
5.7.5 Unmanned Rice Transplanter
5.7.6 Unmanned Driving Demonstration Project

5.8 Kubota
5.8.1 Profile
5.8.2 Smart Agriculture System
5.8.3 Unmanned Agricultural Machinery Development
5.8.4 Unmanned Agricultural Machinery Planning
5.8.5 Autopilot Function of Tractor
5.8.6 Cooperation with Nvidia

5.9 Yanmar Agricultural Equipment
5.9.1 Profile
5.9.2 Autonomous Agricultural Machinery Products

5.10 XAG
5.10.1 Profile
5.10.2 Smart Agriculture Product Lines
5.10.3 Autonomous Agricultural Machinery System
5.10.4 Agricultural Machinery Self-driving Instrument

6. Autonomous Agricultural Machinery System Suppliers

6.1 Lianshi Navigation
6.1.1 Profile
6.1.2 Beidou Precision Agriculture Solution
6.1.3 Automatic Navigation Driving System
6.1.4 Application Projects of AF300 Series
6.1.5 Sales and Business Model of Automatic Navigation Driving System

6.2 Kalman
6.2.1 Profile
6.2.2 Autonomous Agricultural Machinery System
6.2.3 Application Cases of Autonomous Agricultural Machinery System
6.2.4 Sales and Business Model of Autonomous Agricultural Machinery System

6.3 UniStrong
6.3.1 Profile
6.3.2 Development Course
6.3.3 Farm Information Solution
6.3.4 Autonomous Agricultural Machinery System
6.3.5 Satellite Navigation Assisted Driving System
6.3.6 Application of Autonomous Agricultural Machinery System
6.3.7 Major Clients of Autonomous Agricultural Machinery System

6.4 CHC Navigation
6.4.1 Profile
6.4.2 Autonomous Agricultural Machinery Solution
6.4.3 Autonomous Agricultural Machinery System
6.4.4 Autonomous Driving System of Transplanter
6.4.5 Agricultural Machinery Navigation Light Target Guidance System and Agricultural Machinery Operation Monitoring Intelligent Terminal
6.4.6 Application of Autonomous Agricultural Machinery System

6.5 Comnav Technology Ltd.
6.5.1 Profile
6.5.2 Autonomous Agricultural Machinery System
6.5.3 Application of Autonomous Agricultural Machinery System

6.6 Huida Technology
6.6.1 Profile
6.6.2 Autonomous Agricultural Machinery System
6.6.3 Parameters of Autonomous Agricultural Machinery System
6.6.4 Application Case of Autonomous Agricultural Machinery System

6.7 Topcon+ Xingtu Navigation
6.7.1 Profile
6.7.2 Topcon System 150 Precision Automatic Navigation and Driving System
6.7.3 Autonomous Agricultural Machinery System

6.8 Trimble Autonomous Driving Navigation System
6.9 Qianxun SI-Qianyun Beidou Autonomous Agricultural Machinery System