Agricultural Tractor Robots: Market Shares, Strategies, and Forecasts, Worldwide, 2018 to 2024

Published by WinterGreen Research | On May-2018 | Pages : 210 | Report ID : 717237

Agricultural Tractor Robots Market Driving Forces

Agricultural Robot Self Driving Tractor Market Forecasts Dollars, Worldwide, 2018-2024

1 Agricultural Robot Market Description and Market Dynamics

1.1. Digitization of Agricultural Markets

1.1.1. Shift to Digital Agriculture

1.1.2. Digital Farms a Reality

1.2. Challenges of Agricultural Robots

1.3. Automation In The Agricultural Industry

1.3.1. Robots Find A Place in the Agriculture Industry

1.3.2. Agricultural Robots Make Production More Efficient

1.3.3. Use Of Industrial Robots for Agriculture

1.3.4. Agricultural Robotics and Automation

1.3.5. Precision Agriculture Info, Analysis, Tools

1.3.6. Automatic Guidance

1.3.7. Autonomous Machines

1.3.8. Drones

1.3.9. Breeding + Sensors + Robots

1.4. Swarms of Precision Agriculture Robots

1.5. RAS Agricultural Robotics and Automation (AgRA) Technical Committee

1.6. Farm Bots Pick, Plant and Drive

1.6.1. Relying On Illegal Immigrants Can Be A Legal Liability

1.6.2. Harvest Automation Labor Process Automation

1.6.3. The Growing Season Is Also The Shipping Season

2.Robotic Agricultural Self- Driving Tractors Market Shares and Market Forecasts

2.1. Agriculture And Turf Automation Market Driving Forces

2.2. Agricultural Tractors with Self Driving Features Market Shares

2.2.1. John Deere

2.2.2. Case IH

2.2.3. New Holland

2.3. Agricultural Robot Self Driving Tractor Market Forecasts Dollars, Worldwide, 2018-2024

2.3.1. Small, Medium and Large Agricultural Tractors with Self-Driving Features and Tractor Robot Market Forecasts,

2.3.2. Agricultural Tractors with Self-Driving Features and Tractor Robot Market Segments

2.3.3. Agricultural Tractors Installed Base and Self-Driving Tractor Robot Installed Base Market Forecasts, Percent Penetration

2.4. Agricultural Internet of Things (IoT)

2.4.1. Agriculture IoT Food Production Increases

2.4.2. Agriculture IoT: Global Shift to Use of Sensors

2.4.3. Agriculture Internet of Things: Venture Investment

2.4.4. Agriculture Internet of Things (IoT) Technology

2.4.5. IoT Crop Water Management

2.5. Agricultural Robotics

2.6. Harvests and Crop Production

2.7. Digital Farming

2.8. Robotic Agricultural Self Driving Tractor Regional Market Segments

2.8.1. Tractor Units with Self-Driving Features 2,4,1. Planting Equipment

Agricultural Tractor Robots Pricing 2.10. Agricultural Tractor Robots Regional Market Segments 2.10.1. AGCO 2.10.2. Japan 2.10.3. Sicily Tractor Harvesting

3. Agricultural Tractor Robots Research and Technology 92

3.1. Farm Tractor Auto-Steer Technology

3.1.1. The Future of Swarms

3.2. Technologies In Precision Agriculture

3.2.1. Robotic Tractor Advanced Sensors and Guidance Systems

3.2.2. Precise Control Provided by Autonomous Tractors

3.2.3. Autonomous Tractor Connectivity Made Practical

3.2.4. Mobile Devices

3.2.5. Robotics

3.3. Agricultural Robot Technologies

3.4. An Electronic System Improves Different Agriculture Processes

4. Agricultural Tractor Robots Company Profiles

4.1. Adigo Field Flux Robot

4.2. AGCO

4.2.1. AGCO Brands

4.2.2. AGCO Fendt GuideConnect System

4.2.3. AGCO Fendt Technology Ahead of The Legislation

4.2.4. AGCO Revenue

4.2.5. Arco Regional

4.2.6. 2017 Global Harvest

4.2.7. ARCO Sales by Product

4.2.8. ARCO GuideConnect

4.2.9. ARCO Fendt GuideConnect

4.2.10. ARCO Future of Swarms

4.2.11. ARCO Fendt Farm Equipment

4.2.12. AGCO Agricultural Tractor Challenges

4.2.13. ARCO Valtra

4.3. Autonomous Tractor Corp. (ATC)

4.4. AutoProbe

4.4.1. AutoProbe Precision Agriculture High Quality Soil Sample

4.5. CNH Global (Case IH)

4.5.1. Case IH Seedbed

4.5.2. Case IH Seedbed, From Surface to Floor

4.5.3. Case IH Greater Convenience And Durability

4.5.4. Case IH Precision Disk

4.6. Chinese Agricultural Robots

4.7. Claas

4.8. Clearpath Robotics Grizzly RUV

4.9. John Deere

4.9.1. Deere & Company Revenue

4.9.2. John Deere Combines with Self-Driving Features

4.9.3. John Deere Commercially-Available Tractor Machines With Autonomous Features

4.9.4. John Deere Autonomous Mower

4.9.5. Deere Smaller Tractors Autonomous Driving in Groups

4.9.6. John Deere Autonomous Tractor

4.9.7. John Deere Crop Spraying

4.9.8. John Deere Autonomous Tractors

4.9.9. John Deere Acquires ‘See & Spray' Robotics Startup Blue River Technology for $305m

4.9.10. John Deere / Blue River Technology

4.9.11. Blue River Remote Sensing Technology

4.9.12. Blue River Technology High-Throughput, Field-Based Phenotyping

4.9.13. Blue River Technology Zea

4.9.14. Blue River Technology Drone-Based Phenotyping

4.9.15. Blue River Technology Agricultural Robot

4.9.16. Blue River Precision Lettuce Thinning - 80/84" Beds

4.9.17. Lettuce Bot, Blue River Technology

4.9.18. Blue River Technology Investors

4.9.19. Blue River Technology Revenue

4.10. Iseki & Co

4.11. Kubota Tractor

4.12. Lovol

4.13. Mahindra Tractors

4.14. Bayer / Monsanto / Precision Planting

4.15. New Holland

4.14.1. EZ-Pilot

4.16. Nogchui Autonomous Tractor

4.16.1. Professor Nogchui Agricultural Tractor Robot Uses Navigation Sensor Called AGI-3 GPS Compass Made by TOPCON

4.16.2. Professor Nogchui Agricultural Tractor Robot Mapping System

4.16.3. Nogchui Autonomous Tractor Robot Management Systems

4.29. Sicily Tractor Harvesting

4.30. Yanmar

4.31. Agricultural Tractor Companies

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List of Figures

Abstract: Agricultural Equipment Robots: Markets Growing Through Implementation of Digital Farming

Figure 1. Agricultural Robot Self Driving Tractor Market Forecasts Dollars, Worldwide, 2018-2024

Figure 2. Agricultural Robots Functions

Figure 3. Agricultural Robot Market Driving Forces Employment Opportunity

Figure 4. Digital Farms a Reality

Figure 5. Transitioning To Precision Agricultural Methods

Figure 6. Precision Agricultural Functions

Figure 7. Precision Agricultural Vehicles

Figure 8. Digital Farm Characteristics

Figure 9. Precision Agriculture Data Types

Figure 10. Aspects of Agricultural Sector Modernization

Figure 11. Agricultural Robotics Positioned To Meet The Increasing Demands For Food And Bioenergy

Figure 12. Autonomous Orchard Vehicle

Figure 13. Automated Picker Machine

Figure 14. Equipment That Is Configured to be Used with Self-Driving Tractors

Figure 15. Robotic Agricultural Tractors with Self Driving Features Market Shares, Dollars, Worldwide, 2017

Figure 16. Robotic Agricultural Tractors with Self Driving Features Market Shares, Dollars, Worldwide, 2017

Figure 17. Robotic Agricultural Tractors with Self Driving Features Description, Companies, Worldwide, 2017

Figure 18. Agricultural Robot Self Driving Tractor Market Forecasts Dollars, Worldwide, 2018-2024

Figure 19. Agricultural Tractors with Self-Driving Features and Tractor Robot Market Forecasts, Dollars, Worldwide, 2018-2024

Figure 20. Agricultural Tractors with Self-Driving Features and Tractor Robot Market Forecasts, Units, Worldwide, 2018-2024

Figure 21. Large Agricultural Tractors with Self-Driving Features and Tractor Robot Market Forecasts, Dollars, Worldwide, 2018-2024

Figure 22. Mid-size Agricultural Tractors with Self-Driving Features and Tractor Robot Market Forecasts, Dollars, Worldwide, 2018-2024

Figure 23. Small Agricultural Tractors with Self-Driving Features and Tractor Robot Market Forecasts, Dollars, Worldwide, 2018-2024

Figure 24. Small, Medium, and Large Agricultural Tractors with Self-Driving Features and Tractor Robot Market Forecasts, Percent, Worldwide, 2018-2024

Figure 25. Agricultural Tractors with Self-Driving Features and Tractor Robot Market Segments, Dollars, Worldwide, 2018-2024

Figure 26. Agricultural Tractors with Self-Driving Features and Tractor Robot Market Segments, Percent, Worldwide, 2018-2024

Figure 27. Agricultural Tractors Installed Base and Self-Driving Tractor Robot Installed Base Market Forecasts, Percent Penetration, Worldwide, 2018-2024

Figure 28. Agricultural Tractors with Self-Driving Features and Tractor Robot Market Forecasts, Units, Worldwide, 2018-2024

Figure 29. Two Billion Sensors in Farms Globally by 2024

Figure 30. Agriculture Internet of Things: Venture Investment

Figure 31. Agricultural Sector The Technological Development of Internet of Things 65

Figure 32. Challenges Brought by Tractors Doing Automation

Figure 33. Modernized Agriculture Telegarden, As Installed At Ars Electronica

Figure 34. Precision Farming Market Forecasts, Dollars and Percent, Worldwide, 2018-2024

Figure 35. Digital Farming Functions

Figure 36. Robotic Agricultural Self Driving Tractor Regional Market Segments, 2017

Figure 37. Robotic Agricultural Self Driving Tractor Regional Market Segments, 2017

Figure 38. Transitioning To Precision Agricultural Methods

Figure 39. Autonomous Tractor System Benefits:

Figure 40. Tractor Robot Factors Driving Sales

Figure 41. Factors Affecting New Agricultural Equipment Sales

Figure 42. Tractor Systems

Figure 43. Small Tractor Used For Manual Artichokes Harvesting

Figure 44. Agricultural Robot Applications 1. GPS/GNSS

Figure 45. Robotic Tractor Advanced Sensors and Guidance System Uses

Figure 46. Autonomous Tractor Connectivity Functions

Figure 47. Agricultural Autonomous Equipment Market Driving Forces

Figure 48. Long-Term Global Agricultural Tractor Market Forecast Factors

Figure 49. Follow Me Robotic Tractors

Figure 50. Agricultural Robot Technologies

Figure 51. Adigo Field Flux Robot

Figure 52. Adigo Field Flux Robot Features

Figure 53. AGCO Revenue Highlights

Figure 54. AGCO Regional Revenue of Independent Dealers and Distributors

Figure 55. ARCO Sales by Product

Figure 56. Fendt GuideConnect

Figure 57. AGCO Large Tractor

Figure 58. Challenger Precision Farming

Figure 59. AGCO Agricultural Products

Figure 60. Autonomous Tractors Traverse Fields

Figure 61. Soil Samples and Phosphorus

Figure 62. Case IH High-Speed Precision Planting Market

Figure 63. Case IH Cabless Row Crop Tractor

Figure 64. Case IH Seedbed

Figure 65. Case IH Precision Disk™ 500T

Figure 66. Case IH Autonomous Tractor

Figure 67. Chinese Farmbot Tractor Image

Figure 68. Clearpath Robotics Grizzly RUV

Figure 69. Clearpath Robotics Grizzly Robot

Figure 70. Clearpath Robotics Grizzly Robot Workhorse Functions

Figure 71. Deere & Company Revenue

Figure 72. John Deere Combine with Self-Driving Features

Figure 73. John Deere's Intelligent Solutions Group Functional Development

Figure 74. John Deere Autonomous Mower

Figure 75. John Deere Automated Seed Planting High-Speed Precision Planting Market 155

Figure 76. John Deere Autonomous Tractors

Figure 77. John Deere Autonomous Flexible Use Tractor

Figure 78. John Deere Crop Spraying

Figure 79. John Deere Autonomous Tractor

Figure 80. Blue River Technology Agricultural Tractor Robots:

Figure 81. Blue River Technology Visualization Spray Tractor Can Identify Plants And Weeds To Spray Chemicals

Figure 82. John Deere / Blue River Technologies:

Figure 83. Blue River Technology High-Throughput, Field-Based Phenotyping Functions 165

Figure 84. Blue River Technology Zea Measurement Functions

Figure 85. Blue River Technology Drone-Based Phenotyping Functions

Figure 86. Blue River All-In-One Drone Service Functions

Figure 87. Blue River All-In-One Drone Measurement Functions

Figure 88. Blue River Technology Agricultural Robot

Figure 89. Blue River Precision Lettuce Thinning 40/42" Beds Agricultural Robot 171

Figure 90. Blue River Technology Agricultural Robot Functions

Figure 91. Blue River Precision Lettuce Thinning - 80/84" beds

Figure 92. Blue River Technology Delicate Crop Weeding And Harvesting Machine Functions 175

Figure 93. Blue River Technology Delicate Crop Weeding And Harvesting Machine Benefits 176

Figure 94. Blue River Technology Investors

Figure 95. Kubota Self Driving Tractor

Figure 96. Kubota Self Driving Tractor Functions

Figure 97. Lovol

Figure 98. Loval Tractors

Figure 99. New Holland Autonomous Tractor

Figure 100. New Holland Assisted Hands Free Steering System

Figure 101. Nogchui Autonomous Tractor Grading, Japan

Figure 102. Nogchui Autonomous Tractor Working Field

Figure 103. Hokkaido University Prof Shin Noguchi Robotics Research, Includes Automated Tractors and Aerial Sensing By Drones

Figure 104. At Least 1 Tractor In A Swarm Will Be Manned

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