Global Agricultural Robots Market 2017 : Focus on Industry, Growth, Size, Share, Dynamic Research Analysis, Trend, Forecast – Acute Market Reports

“Acute Market Reports” has Published New Research Report Title “Agricultural Robots: Market Shares, Strategies, and Forecasts, 2017 to 2023″Market Research report to their Database

WinterGreen Research announces that it has published a new module Agricultural Robots: Market Shares, Strategies, and Forecasts, 2017 to 2023.  The 2017 study has 668 pages and 362 tables and figures.  The study addresses the efficiencies gained when robots can work 24 x 7 without getting tired from leveraging the fact that they do not make mistakes.  The robots are able to perform repetitive tasks effectively, with cameras they can discern whether fruit is ripe or not and pick only the ripe fruit that can be sold.  The robots can go back several times to pick fruit, while human pickers generally make one pass, two at the most.  The robots can pick more fruit because they can get more ripe fruit from a tree.  

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Agriculture is the second greatest source of employment worldwide, and the least automated of all industries.  Agriculture is the largest remaining opportunity for automation.  Agriculture has become more mechanized so that many crops are harvested using machinery worldwide.  Agricultural continues its declining employment trend as robotics are adopted.  

Lely robotic cow milking systems target large dairy farms implement innovation in agriculture.   Successful robotic milking on farms with more than 500 cows is supported.  Agriculture faces enormous challenges over the coming decades.  Agricultural entrepreneurs have to keep pace with rapid population growth and the need to deliver food at progressively more competitive prices. 

Lely supports technical revolutions that help evolve automated process, ranging from forage harvesting machines to milking, feeding and barn equipment. Lely equipment allows successfully increasing the scale of operations.

Safeguarding optimum animal welfare and return on investment is the aim. By partnering with Lely on the milking automation journey, creates benefit from a unique set of management instruments to monitor milk quality, feed/milk conversion ratio for the individual cow or the complete herd.  Lely continues to develop knowledge and products for the future.  A basic requirement for profitable robotic milking includes attention to feed/milk efficiency.

Freedoms include permitting cows to achieve well-being by achieving more freedom, making it so that the farmers get the most out of their herd.  Lely discovered that farmers who use free cow traffic are more successful with robotic milking.  

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According to Susan Eustis, principal author of the study, “Using cow milking systems, ore milk per cow and more milk per robot is being achieved.  Systems work with less difficulty and with the possibility of working more sociable hours.  Many farmers who used to use forced systems have changed over to free cow traffic flow in order to benefit from the advantages of robotic milking.”

Robots are used for harvesting.  High value crops are a target of agricultural robotic development.  What could be tastier than a strawberry, perfectly formed, and perfectly ripened?  New agricultural robots are able to improve the delivery of consistent quality food, and to implement efficiency in managing food production.  Strawberries are a high profit crop.  

A new generation of machines has just been born. Strawberry harvesters with the world’s most advanced technology to give maximum performance to a farm.  Harvesting robots can optimize the productivity of the farming business.  Growers can get the best results in a berry farm using automated process.  Automated picking collection systems improve labor productivity, give speed and agility to harvest operations.  

Employment opportunity will come from human implementation of digitation, building APIs that make digital connections and building algorithms that make sense of digital data collected.  There is plenty of work for humans to figure out how to react to alerts generated by digital algorithms.  

The market for agricultural robots at $1.7 billion in 2016 is expected to grow to  $27.1 billion by 2023.  Agricultural Robots: users harness robots to plow, plant, spray, prune, milk, pick, shear, and harvest.  As economies of scale are achieved, markets will grow rapidly.  

WinterGreen Research is an independent research organization funded by the sale of market research studies all over the world and by the implementation of ROI models that are used to calculate the total cost of ownership of equipment, services, and software.  The company has 35 distributors worldwide, including Global Information Info Shop, Market, Research and Markets,, and Thompson Financial.  It conducts its business with integrity.  

The increasingly global nature of science, technology and engineering is a reflection of the implementation of the globally integrated enterprise.  Customers trust wintergreen research to work alongside them to ensure the success of the participation in a particular market segment.

WinterGreen Research supports various market segment programs; provides trusted technical services to the marketing departments.  It carries out accurate market share and forecast analysis services for a range of commercial and government customers globally.  These are all vital market research support solutions requiring trust and integrity.

1. Agricultural Robot Market Description and Market
Dynamics 61
1.1 Digitization of Agricultural Markets 61
1.1.1 Shift to Digital Agriculture 62
1.1.2 Digital Farms a Reality 63
1.2 Challenges of Agricultural Robots 69
1.3 Automation In The Agricultural Industry 70
1.3.1 Robots Find A Place in the Agriculture Industry 72
1.3.2 Agricultural Robots Make Production More Efficient 73
1.3.3 Use Of Industrial Robots for Agriculture 74
1.3.4 Agricultural Robotics and Automation 74
1.3.5 Precision Agriculture Info, Analysis, Tools 76
1.3.6 Automatic Guidance 76
1.3.7 Autonomous Machines 76
1.3.8 Drones 77
1.3.9 Breeding + Sensors + Robots 78
1.4 Swarms of Precision Agriculture Robots 79
1.5 Agricultural Robots and Drones: Technologies, Markets, Forecasts 79
1.6 RAS Agricultural Robotics and Automation (AgRA) Technical Committee 80
1.7 Farm Bots Pick, Plant and Drive 82
1.7.1 Relying On Illegal Immigrants Can Be A Legal Liability 82
1.7.2 Harvest Automation Labor Process Automation 83
1.7.3 The Growing Season Is Also The Shipping Season 83
1.8 Improving Nursery Efficiency 85
1.8.1 Small Mobile Robot for Plants and Shrubs 85
1.9 Agricultural Producers Seek To Improve Operations 86
1.9.1 Increasing Cows Days Of Grazing 88
1.10 Inexpensive Robots For Farm Jobs 90
1.11 cRops (Clever Robots for Crops) Robots To Harvest High Value Crops 90
1.12 Strawberries 92
1.12.1 Strawberries in the US 92
1.13 Transformational Agricultural Robots 95

2. Agricultural Robots Market Shares and Market

Forecasts 97
2.1 Agricultural Robot Market Driving Forces 97
2.1.1 Agricultural Robot Target Markets 102
2.1.2 Robotic Agriculture Trends 103
2.1.3 Agriculture as Part of the Global Economy 107
2.1.4 Role of Agricultural Robots 108
2.1.5 Agricultural Robot Technologies 110
2.1.6 Agricultural Robotic Use of Global Positioning 111
2.2 Agricultural Robot Market Shares 112
2.2.1 Lely Group Revenue 114
2.2.2 Kuka Use Of Standard Industrial Robots In Agriculture 116

3. Agricultural Robots Product Description 191
3.1 John Deere 191
3.1.1 John Deere Autonomous Mower 191
3.1.2 Deere Smaller Tractors Autonomous Driving in Groups 193
3.1.3 John Deere Autonomous Tractor 194
3.1.4 John Deere Crop Spraying 196
3.1.5 John Deere Autonomous Tractors 197
3.2 AGCO 198
3.3 CNH Industrial Case IH Tractors 199
3.4 Kuka 201
3.4.1 Kuka Robots in the Agricultural Industry 203
3.4.2 Kuka Robots in the Food Processing Industry 205
3.5 FANUC 208
3.5.1 Fanuc Vegetable Sorting Robot 208
3.5.2 FANUC Robodrill DiA5 Series 210

4.1 Harvest Automation Proprietary Sensor Technology 457
4.1.1 Harvest Automation Robot System Architecture 457
4.1.2 Harvest Automation Technology 458
4.1.3 Behavior-Based Robotics 458
4.1.4 Proprietary Sensor Technology 459
4.1.5 System Design & Architecture 459
4.2 Technologies In Precision Agriculture 460
4.2.1 Mobile Devices 461
4.2.2 Robotics 462
4.3 Irrigation 463
4.4 Internet Of Things 465
4.5 Sensors 466
4.5.1 Variable Rate Seeding 468

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