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Agricultural Robots: Market Shares, Strategies, and Forecasts, Worldwide, 2014 to 2020

Winter Green Research
Published Date » 2014-01-29
No. Of Pages » 430
 
   
 WinterGreen Research announces that it has published a new study Agricultural Robots Market Shares, Strategy, and Forecasts, Worldwide, 2014 to 2020. The 2014 study has 430 pages, 236 tables and figures. Worldwide markets are poised to achieve significant growth as the agricultural robots are used in every aspect of farming, milking, food production, and animal control to implement automated process for the industry. 
   
 Weed control is able to achieve crop-yield increases. Robot technology is deploying machines for weed control, promising to improve crop yields. Robots make the crops safer by eliminating or virtually eliminating herbicides. Downstream processing system solutions and robots achieve automation of process. Robots meet stringent hygiene and safety regulations,...
Table of Contents

Agricultural Robot Market Executive Summary
Agricultural Robot Market Driving Forces
Agricultural Robot Target Markets
Robotic Agriculture Trends
Agricultural Robot Market Shares
Agricultural Robot Market Forecasts

1. Market Agricultural Robot Description and Market Dynamics
1.1 Agricultural Markets
1.1.1 Automation Potential In The Agricultural Industry
1.1.2 Robots Find A Place in the Agriculture Industry
1.1.3 Agricultural Robots Make Production More Efficient
1.1.4 Use Of Industrial Robots for Agriculture
1.1.5 Agricultural Robotics and Automation
1.2 RAS Agricultural Robotics and Automation (AgRA) Technical Committee
1.3 Farm Bots Pick, Plant and Drive
1.3.1 Relying On Illegal Immigrants Can Be A Legal Liability
1.4 Nursery & Greenhouse Sector
1.4.1 Harvest Automation Labor Process Automation
1.4.2 The Growing Season Is Also The Shipping Season
1.5 Improving Nursery Efficiency
1.5.1 Small Mobile Robot for Plants and Shrubs
1.6 Agricultural Producers Seek To Improve Operations
1.6.1 Increasing Cows Days Of Grazing
1.7 cRops (Clever Robots for Crops) Robots To Harvest High Value Crops
1.8 European Union Seventh Framework Program
1.9 Strawberries
1.9.1 Strawberries in the US
1.10 Transformational Agricultural Robots

2 Agricultural Robots Market Share and Market Forecasts
2.1 Agricultural Robot Market Driving Forces
2.1.1 Agricultural Robot Target Markets
2.1.2 Robotic Agriculture Trends
2.2 Agricultural Robot Market Shares
2.2.1 Lely Group Revenue
2.2.2 Use Of Standard Industrial Robots In Agriculture
2.2.3 Kuka
2.2.4 Fanuc
2.2.5 Agrobot High Value Crop Robotic Automation
2.2.6 John Deere Autonomous Tractors
2.2.7 Harvest Automation
2.2.8 Vision Robotics
2.3 Agricultural Robot Market Forecasts
2.3.1 Agricultural Robot Market Segments
2.3.2 Agricultural Robotics Key Economic Enabler
2.3.3 High Value Fruit Crops: Strawberries
2.3.4 Nursery And Garden Products
2.3.5 Ornamental Plant Markets
2.3.6 Golf courses Robotic Mowing
2.3.7 Crop Dusting With Remote-Controlled Helicopters
2.3.8 Distributed Robotics Garden
2.3.9 Cultibotics
2.3.10 Agricultural Robot Vision Pruning Systems
2.4 Agricultural Robot Pricing
2.4.1 Harvest Automation
2.4.2 Shibuya Seiko Co. Strawberry Picking Robot
2.4.3 Wall-Ye V.I.N. Robot Functions
2.4.4 iRobot Automated Lawn Mowing
2.5 Agricultural Robots TCO / ROI
2.5.1 Cost Structures and Roles of Agricultural Robots
2.6 Agricultural Robot Regional Analysis
2.6.1 Production of Agricultural Robotics in China
2.6.2 Chinese Agricultural Machinery
2.6.3 Agricultural Robots in Africa

3 Agricultural Robots Product Description
3.1 John Deere Autonomous Tractor
3.1.1 John Deere Crop Spraying
3.2 Kuka
3.2.1 Kuka Robots in the Agricultural Industry
3.2.2 Kuka Robots in the Food Processing Industry
3.2.3 Kuka Automation in Agriculture
3.3 FANUC
3.3.1 Fanuc Vegetable Sorting Robot
3.3.2 FANUC Robodrill DiA5 Series
3.4 ABB Robots
3.4.1 ABB Symphony Plus
3.5 Yaskawa
3.5.1 Yaskawa Industrial AC Drives 1/8 thru 1750 Horsepower
3.5.2 Yaskawa Specialty Pump Drives 3/4 thru 500 Horsepower
3.5.3 Yaskawa Servo Systems and Motion Controllers
3.5.4 Motoman Robot Handling and Palletizing Bags of Livestock Feed
3.5.5 Motoman Agriculture Robotics Palletizing Bags Solution
3.5.6 Motoman Robotics Agricultural Robot Palletizing Bags Fixtures / Tooling Details
3.5.7 Motoman Agricultural Grain Bin Dryer Fan Wheels
3.5.8 Motoman Robotics Fixtures/Tooling Details
3.5.9 Motoman Agricultural Irrigation Pipe
3.5.10 Motoman Robotics Fixtures/Tooling Details
3.5.11 Motoman Agricultural Equipment
3.5.12 Motoman Robotics Fixtures/Tooling Details
3.5.13 Motoman Round Baler Pickup Frames for Agricultural Equipment
3.5.14 Motoman Robotics Fixtures/Tooling Details
3.5.15 Motoman Skid Steer Loader Mount Plates
3.5.16 Motoman Bags of Livestock Feed
3.5.17 Motoman Robotics Fixtures/Tooling Details
3.6 Harvest Automation
3.6.1 Harvest Automation Technology
3.6.2 Harvest Automation Behavior-Based Robotics
3.7 Robotic Harvesting
3.7.1 Robotic Harvesting Strawberry Harvester
3.8 Agrobot SW 6010
3.8.1 Agrobot AGB: Harvesting High Level System
3.8.2 Agrobot AG Vision
3.9 Blue River Technology
3.9.1 Blue River Precision Lettuce Thinning - 40/42" Beds
3.9.2 Blue River Precision Lettuce Thinning - 80/84" Beds
3.9.3 Lettuce Bot, Blue River Technology
3.10 cRops (Clever Robot for Crops)
3.10.1 cRops European Project, Made Up Of Universities And Labs
3.11 Jaybridge Robotics Agriculture
3.11.1 Jaybridge Robotics Kinze Partnering, Autonomous Vehicle Row Crop Harvesting
3.11.2 Jaybridge Software Expertise
3.12 Nano Ganesh
3.13 Aqua Spy
3.14 8 Villages
3.15 IBM / Bari Fishing Market App
3.16 M Farm
3.17 Sustainable Harvest
3.18 Tractor Harvesting
3.19 Spensa Technology Pest Control
3.20 The Pebble Watch
3.21 Louisiana State University AgBot
3.21.1 AgBot Uses Autonomous, Advanced GPS System
3.21.2 Agbot Small Robots Versatility
3.21.3 Delivery Robot
3.22 Harvard Robobee
3.22.1 Harvard Robobee Practical Applications
3.22.2 Harvard Robobee Vision and Aims
3.22.3 Harvard Robobee Body, Brain, and Colony
3.22.4 Harvard Robobee Body
3.22.5 Harvard Robobee Flexible Insect Wings And Flight Stability In Turbulent Airflow
3.22.6 Harvard Robobee Sensor Networks
3.22.7 Harvard Robobee Colony
3.22.8 Harvard Robobee Sensor Network Development
3.23 iRobot s Automatic Lawn Mower
3.24 MIT Autonomous Gardener Equipment Mounted On The Base of a Roomba
3.25 Carnegie Mellon University s National Robotics Engineering Center
3.25.1 Carnegie Mellon. Self-Guided Farm Equipment
3.26 Cesar the LettuceBot
3.27 Universidad Politicnica de Madrid Rosphere
3.27.1 Rosphere Spherical Shaped Robot
3.28 Shibuya Seiko Co.
3.28.1 Shibuya Seiko Co. Strawberry Picking Robot
3.28.2 Shibuya Seiko Robot Can Pick Strawberry Fields
3.29 University of California, Davis Robots For Harvesting Strawberries
3.30 Wall-Ye V.I.N. Robot
3.30.1 Wall-Ye V.I.N. Robot Functions
3.30.2 Wall-Ye V.I.N. Robot Security System
3.30.3 Wall-Ye V.I.N. Robot Prunes 600 Vines Per Day
3.31 Vision Robotics
3.31.1 Vision Robotics Automated Tractors
3.32 Nogchui Autonomous Tractor
3.32.1 Professor Nogchui Agricultural Tractor Robot Uses Navigation Sensor Called AGI-3 GPS Compass Made by TOPCON
3.32.2 Professor Nogchui Agricultural Tractor Robot Mapping System
3.32.3 Nogchui Autonomous Tractor Robot Management Systems
3.33 Microsoft Agricultural Robot Software
3.34 Australian Centre for Field Robotics Herder Robot
3.34.1 Robotic Rover Herds Cows
3.35 Chinese Agricultural Robots
3.36 Oracle Robot
3.37 3D Robotics
3.38 Lely Automatic Milking Robots
3.38.1 Lely Astronaut Milking Robots
3.38.2 Lely Concept and Management
3.38.3 Lely Correct Feed Management
3.38.4 Lely Milk Robots At Large Dairy Farms
3.38.5 Lely Free Cow Traffic
3.39 Kyoto University Tomato Harvesting Robot
3.40 Yamaha Crop Dusting Drones
3.41 RHEA Robot Fleets for Accuracy
3.41.1 RHEA Synchronoized Weeding
3.41.2 Synchronized Spraying
3.42 Precise Path Robotics

4. Agricultural Robots Technology
4.1 Harvest Automation Proprietary Sensor Technology
4.1.1 Harvest Automation Robot System Architecture
4.1.2 Harvest Automation Technology
4.1.3 Behavior-Based Robotics
4.1.4 Proprietary Sensor Technology
4.1.5 System Design & Architecture
4.2 Welding Robots
4.3 Material Handling Robots:
4.4 Plasma Cutting Robots:
4.5 Agricultural Robotics and Automation Scope:
4.5.1 IEEE Standards Initiatives
4.5.2 Delft Robotics Institute
4.6 Robotics and Automation
4.7 An Electronic System Improves Different Agriculture Processes

5 Agricultural Robots Company Description
5.1 ABB Robotics
5.1.1 ABB Revenue
5.1.2 ABB Strategy
5.1.3 ABB Global Leader In Power And Automation Technologies
5.1.4 ABB and IO Deliver Direct Current-Powered Data Center Module
5.1.5 ABB / Validus DC Systems DC Power Infrastructure Equipment
5.1.6 ABB Technology
5.1.7 ABB Global Lab Power
5.1.8 ABB Global Lab Automation
5.2 Agile Planet
5.3 AgRA: RAS Agricultural Robotics and Automation (AgRA
5.4 Agrobot
5.4.1 Agrobot Innovation and Technology for Agribusiness
5.5 Astronaut
5.6 Australian Centre for Field Robotics
5.7 Blue River Technology
5.7.1 Blue River /  Khosla Ventures
5.8 CNH Industrial / Fiat / Case IH
5.8.1 Case IH Customers Work Directly With Design Engineers
5.9 cRops
5.10 Fanuc
5.10.1 FANUC Corporation
5.10.2 Fanuc Revenue
5.11 Georgia Tech Agricultural Robots
5.12 Google
5.12.1 Google / Boston Dynamics
5.12.2 Boston Dynamics LS3 - Legged Squad Support Systems
5.12.3 Boston Dynamics CHEETAH - Fastest Legged Robot
5.12.4 Boston Dynamics Atlas - The Agile Anthropomorphic Robot
5.12.5 Boston Dynamics BigDog
5.12.6 Boston Dynamics LittleDog - The Legged Locomotion Learning Robot
5.12.7 Google Robotic Division
5.12.8 Google Self-Driving Car
5.12.9 Google Cars Address Vast Majority Of Vehicle Accidents Due To Human Error
5.12.10 Google Business
5.12.11 Google Corporate Highlights
5.12.12 Google Search
5.12.13 Google Revenue
5.12.14 Google Second Quarter 2013 Results
5.12.15 Google Revenues by Segment and Geography
5.12.16 Google / Motorola Headcount
5.12.17 Google / Motorola
5.13 Harvard Robobee
5.13.1 Harvard Robobee Funding
5.13.2 Harvard Robobee Main Area Of Research
5.13.3 Harvard Robobee OptRAD is used as an Optimizing Reaction-Advection-Diffusion system.
5.13.4 Harvard Robobee The Team
5.14 Harvest Automation
5.14.1 Harvest Automation Ornamental Horticulture
5.14.2 Harvest Automation M Series C Financing
5.14.3 Harvest Robotic Solutions For The Agricultural Market
5.14.4 Harvest Automation Robots
5.15 IBM
5.15.1 IBM Strategy
5.15.2 IBM Business Partners
5.15.3 IBM Messaging Extension for Web Application Pattern
5.15.4 IBM MobileFirst
5.15.5 IBM Business Analytics and Optimization Strategy
5.15.6 IBM Growth Market Initiatives
5.15.7 IBM Business Analytics and Optimization
5.15.8 IBM Strategy
5.15.9 IBM Smarter Planet
5.15.10 IBM Cloud Computing
5.15.11 IBM Business Model
5.15.12 IBM Business Revenue Segments And Capabilities
5.16 iRobot
5.16.1 iRobot Home Robots:
5.16.2 iRobot Defense and Security: Protecting Those in Harm s Way
5.16.3 iRobot Role In The Robot Industry
5.16.4 iRobot SPARK (Starter Programs for the Advancement of Robotics Knowledge)
5.16.5 iRobot Revenue
5.16.6 iRobot Acquires Evolution Robotics, Inc.
5.16.7 iRobot / Evolution Robotics
5.17 Jaybridge Robotics
5.17.1 Jaybridge Robotics Software Solutions
5.17.2 Jaybridge Systems Integration for Autonomous Vehicles
5.17.3 Jaybridge Robotics Rigorous Quality Processes
5.17.4 Jaybridge Robotics Professional, Experienced Team
5.17.5 Jaybridge Robotics Seamless Working Relationship with Client Teams
5.18 Kuka
5.18.1 Kuka Revenue
5.18.2 Kuka Competition
5.18.3 Kuka Innovative Technology
5.18.4 Kuka Well Positioned With A Broad Product Portfolio In Markets With Attractive Growth Prospects
5.18.5 Kuka Strategy
5.18.6 Kuka Corporate Policy
5.19 KumoTek
5.19.1 KumoTek Robotics Software Specialists
5.20 Kyoto University
5.21 Lely
5.21.1 Lely Group Business Concepts
5.21.2 Lely Group Revenue
5.22 Millennial Net
5.22.1 Millennial Net Wireless Sensor Network:
5.22.2 Millennial Net 1000-Node MeshScape GO Wireless Sensor Network (WSN) Agricultural Sensors
5.22.3 Millennial Net s MeshScape GO WSN Technology
5.23 National Agriculture and Food Research Organization
5.23.1 NARO, a Japanese Incorporated Administrative Agency
5.23.2 National Agriculture and Food Research Organization (NARO) third mid-term plan (from 2011 to 2015)
5.23.3 National Agriculture and Food Research Organization Stable Food Supply
5.23.4 National Agriculture and Food Research Organization Development For Global-Scale Issues And Climate Change
5.23.5 National Agriculture and Food Research Organization Development To Create Demand For New Food Products
5.23.6 National Agriculture and Food Research Organization Development For Utilizing Local Agricultural Resources
5.23.7 Japanese National Agriculture and Food Research Organization
5.24 Ossian Agro Automation / Nano Ganesh
5.25 Precise Path Robotics
5.26 Robotic Harvesting
5.27 Sicily Tractor Harvesting
5.28 Shibuya Seiki
5.28.1 Shibuya Kogyo Pharmaceutical Application Examples
5.28.2 Shibuya Kogyo Robotic System For Handling Soft Infusion Bags
5.28.3 Shibuya Kogyo Robotic Cell Culture System "CellPRO"
5.28.4 Shibuya Kogyo Robotic System For Leaflet & Spoon Placement
5.28.5 Shibuya Kogyo Robotic Collating System
5.28.6 Shibuya Kogyo Automated Aseptic Environmental Monitoring System
5.29 Universidad Politicnica de Madrid
5.30 University of California, Davis
5.31 Wall-Ye V.I.N. Robot
5.32 Yamaha
5.33 Yaskawa
5.33.1 Yaskawa Revenue
5.33.2 Yaskawa Business
5.33.3 YASKAWA Electric Motion Control
5.33.4 YASKAWA Electric Robotics
5.33.5 YASKAWA Electric System Engineering
5.33.6 YASKAWA Electric Information Technology
5.33.7 Yaskawa / Motoman
5.34 Agricultural Robotic Research Labs
5.34.1 Outdated links
5.34.2 Agricultural Robotic Companies
5.34.3 IEEE Agricultural Technical Committee
5.34.4 Agricultural Robotic Conferences
5.34.5 Agricultural Robotic Publications
5.34.6 Selected VC Funding In Robotics

List of Tables


Figure ES-1 Agrobot Strawberry Picker
Table ES-2 Agricultural Robot Market Driving Forces
Table ES-3 Agricultural Robot Target Markets
Table ES-4 Robotic Agricultural Trends
Table ES-5 Agriculture Robotic Activities
Table ES-6 Market Forces for Agricultural Modernization
Table ES-7 Robotics   State of the Art Advantages
Table ES-8 Agricultural Robot Challenges
Figure ES-9 Agricultural Robot Market Shares, Dollars, Worldwide, 2013
Figure ES-10 Agricultural Robot Market Forecasts Dollars, Worldwide, 2014-2020
Table 1-1 Aspects of Agricultural Sector Modernization
Figure 1-2 Agricultural Robotics Positioned To Meet The Increasing Demands For Food And Bioenergy Source: John Deere.
Figure 1-3 Autonomous Orchard Vehicle
Figure 1-4 Automated Picker Machine
Table 1-5 Nursery Robot Benefits
Figure 1-6 Cows Grazing
Figure 1-7 European Union Seventh Framework Program crops (Clever Robots for Crops) Focus On Harvesting High Value Crops
Figure 1-8 Transformational Agricultural Robots
Figure 2-1 Agrobot Strawberry Picker
Table 2-2 Agricultural Robot Market Driving Forces
Table 2-3 Agricultural Robot Target Markets
Table 2-4 Robotic Agricultural Trends
Table 2-5 Agriculture Robotic Activities
Table 2-6 Market Forces for Agricultural Modernization
Table 2-7 Robotics   State of the Art Advantages
Table 2-8 Agricultural Robot Challenges
Figure 2-9 Agricultural Robot Market Shares, Dollars, Worldwide, 2013
Table 2-10 Agricultural Robot Market Shares, Dollars, Worldwide, 2013
Figure 2-11 Agrobot Strawberry Picker
Figure 2-12 John Deere Autonomous Tractors
Figure 2-13 Agricultural Robot Market Forecasts Dollars, Worldwide, 2014-2020
Table 2-14 Agricultural Robot Market Forecast, Shipments, Dollars, Worldwide, 2014-2020
Table 2-15 Agricultural Robot Market Industry Segments, Cow Milking and Barn Systems, Strawberries and High Value Crops, Wheat, Rice, Corn Harvesting, Grape Pruning and Harvesting, Nursery Management, Golf Course and Lawn Mowing, Drone Crop Dusting Segments, Dollars, Worldwide, 2014-2020
Table 2-16 Agricultural Robot Market Industry Segments, Cow Milking and Barn Systems, Strawberries  and High Value Crops, Wheat, Rice, Corn Harvesting, Grape Pruning and Harvesting, Nursery  Management, Golf Course and Lawn Mowing, Drone Crop Dusting Segments, Percent , Worldwide, 2014-2020
Figure 2-17 Multiple Small Intelligent Machines Replace Large Manned Tractors
Table 2-18 Agricultural Robots for Ornamental Plant Handling Benefits
Figure 2-19 UC Davis Using Yahama Helicopter Drones For Crop Dusting
Figure 2-20 Yahama Crop Duster
Figure 2-21 Distributed Robotics Garden
Figure 2-22 Modernized Agriculture Telegarden, As Installed At Ars Electronica
Table 2-23 Voluntary Cow Traffic Benefits
Table 2-24 Cow Traffic System Cubicles ROI Metrics
Table 2-25 Lely Example of Herd Size and Robots / Farm Worker
Table 2-26 Roles of Agricultural Robots
Figure 2-27 Cost Structures and Roles of Agricultural Robots
Figure 2-28 Agricultural Robotic Regional Market Segments, 2013
Table 2-29 Agricultural Robot Regional Market Segments, 2013
Figure 3-1 John Deere Autonomous Tractors
Figure 3-2 John Deere Autonomous Tractor Flexible Uses
Figure 3-3 John Deere Crop Spraying
Figure 3-4 Kuka Agricultural Robots
Figure 3-5 Kuka Material Handling Robots
Figure 3-6 Kuka Industry Standard Robots Used in Agriculture
Figure 3-7 Kuka Welding Robots in the Agricultural Industry
Figure 3-8 Kuka Robots in the Agricultural Industry
Figure 3-9 Kuka Robots in the Food Processing Industry
Figure 3-10 Kuka Agricultural Robots
Figure 3-11 Kuka Plasma Cutting Robot
Figure 3-12 Fanuc M-3iA Robots Sorting Boxes
Figure 3-13 FANUC Robodrill DiA5 Series
Figure 3-14 FANUC Welding Robots
Figure 3-15 FANUC Material Handling Robots
Figure 3-16 FANUC Plasma Cutting Robot
Figure 3-17 ABB Welding Robots
Figure 3-18 ABB Material Handling Robots
Figure 3-19 Yaskawa Plasma Cutting Robot
Figure 3-20 Yaskawa Robots Used in Agriculture
Figure 3-21 Yaskawa Industrial AC Drives 1/8 thru 1750 Horsepower
Figure 3-22 Yaskawa Specialty Pump Drives 3/4 thru 500 Horsepower
Figure 3-23 Motoman Robot Handling and Palletizing Bags of Livestock Feed
Table 3-24 Motoman Robot Handling and Palletizing Bags of Livestock Feed Proje ct Challenges
Table 3-25 Motoman Agriculture Robotics Palletizing Bags Solution
Table 3-26 Motoman Agricultural Grain Bin Dryer Fan Wheels Project Challenges
Table 3- 27 Motoman Agricultural Grain Bin Dryer Fan Wheels Robotics Solution
Figure 3-28 Motoman Agricultural Irrigation Pipe
Table 3-29 Motoman Agricultural Irrigation Pipe Project Challenges
Table 3-30 Motoman Agricultural Irrigation Pipe Robotics Solution
Figure 3-31 Motoman Agricultural Equipment
Table 3-32 Motoman Agricultural Equipment Project Challenges
Table 3-33 Motoman Agricultural Equipment Robotics Solution
Figure 3-34 Motoman Round Baler Pickup Frames for Agricultural Equipment
Table 3-35 Motoman Round Baler Pickup Frames for Agricultural Equipment Project Challenges
Table 3-36 Motoman Round Baler Pickup Frames for Agricultural Equipment Robotics Solution
Figure 3-37 Motoman Skid Steer Loader Mount Plates
Table 3-38 Motoman Skid Steer Loader Mount Plates Project Challenges
Table 3-39 Motoman Skid Steer Loader Mount Plates Robotics Solution
Figure 3-40 Motoman Bags of Livestock Feed
Table 3-41 Motoman Bags of Livestock Feed Project Challenges
Table 3-42 Motoman Bags of Livestock Feed Robotics Solution
Figure 3-43 Harvest Automation Shrub Robot
Figure 3-44 Harvest Automation Shrub Robot In Garden
Figure 3-45 Harvest Automation Robot Provides Marketplace Sustainability
Table 3-46 Harvest Automation Shrub Robot Features:
Table 3-47 Harvest Automation Shrub Robot Functions:
Figure 3-48 Robotic Harvesting of Strawberries
Figure 3-49 Agrobot SW 6010
Figure 3-50 Agrobot AGB: Harvesting High Level System
Figure 3-51 Agrobot AG Vision
Figure 3-60 Blue River Technology Agricultural Robot
Figure 3-61  Blue River Precision Lettuce Thinning Agricultural Robot
Table 3-62 Blue River Technology Agricultural Robot Functions
Figure 3-63 Blue River Precision Lettuce Thinning - 80/84" beds
Table 3-64 cRops Robotic Platform Functions
Table 3-65 cRops Robot System European Project Supporters
Figure 3-66 cRops Robot System
Figure 3-67 cRops Robot Target System
Figure 3-68 Jaybridge Robotics Driverless Tractor
Figure 3-69 IBM / Bari Fishing Market App
Figure 3-70 IBM / Bari Real Time Fishing Market App
Figure 3-71 IBM / Bari Fishing Market Need Matching App
Figure 3-72 Small Tractor Used For Manual Artichokes Harvesting
Figure 3-73 LSU AgBot
Table 3-74 Harvard Robobee Robot Applications
Table 3-75 Nature-Inspired Robotic Research Aims
Figure 3-76 Robobee Boby, Brain, Colony
Figure 3-77 Harvard Robobee Propulsive Efficiency
Figure 3-78 Robobee Boby, Brain, Colony
Figure 3-79 Harvard Robobee Studies of Stability And Control In Unsteady, Structured Wakes
Table 3-80 Harvard Robobee Sensor Networks
Figure 3-81 Harvard Robobee Computationally-Efficient Control System
Table 3-82 Harvard Robobee Sensor Network Design Challenges
Table 3-83 Harvard Robobee Challenges In Development Of A Sensor Network
Table 3-84 Harvard Robobee Sensor Network Context Challenges
Table 3-85 Harvard Robobee Sensor Network Elements
Table 3-86 Harvard Robobee Sensor Network Limitations
Table 3-87 Harvard Robobee Software Language Limitations
Table 3-88 Harvard Robobee Software Language Current Efforts
Figure 3-89  Robomow RL850 Automatic Lawn Mower
Figure 3-90 MIT smart gardener robot
Figure 3-91 Carnegie Mellon Self-Guided Farm Equipment
Figure 3-92  Carnegie Mellon Self-Guided Equipment Running on Farm
Figure -3-93 Cesar the LettuceBot
Figure 3-94 Benefits of Lettuce Harvesting Robot
Figure 3-95 Rosphere
Figure 3-96 Rosphere Induction Of Forward/Backward And Turning Movements
Figure 3-97 University of California, Davis Robot For Harvesting Strawberries
Table 3-98 Wall-Ye V.I.N. Robot Functions
Table 3-99 Wall-Ye V.I.N. Robot Technology
Table 3-100 Wall-Ye V.I.N. Robot Features
Figure 3-101 Vision Robotics Snippy Robotic Vine Pruner
Figure 3-102 Nogchui Autonomous Tractor Grading
Figure 3-103 Nogchui Autonomous Tractor Working Field
Figure 3-104 Professor Nogchui Autonomous Tractor Navigation Map Information
Figure 3-105 Microsoft Agricultural Robot Software
Figure 3-106 Herder Robotic Rover
Figure 3-107 Chinese Farmbot Tractor Image
Figure 3-108 3D Robotics
Figure 3-109 3D Robotics Drone Spray Application
Figure 3-110 3D Robotics Uses Pesticides And Fungicides Only When Needed
Figure 3-111 3D Robotics Data For Marketing
Figure 3-112 3D Robotics Aerial Views of Crops
Figure 3-113 3D Robotics Aerial Views Multicopter To Fly Over Vineyards
Figure 3-114 Lely Automatic Milking
Figure 3-115 Astronaut Milking Robot
Figure 3-116 Lely Milking System Farm
Figure 3-117 Lely Cattle Feeding System Farm
Figure 3-118 Lely Automated Process for Managing Milking and Farm
Figure 3-119 Lely Correct Cattle Feeding Management
Figure 3-120 Lely Automated Process Cattle Feeding Management
Figure 3-121 Lely Multi-Barn Cattle Feeding Management
Figure 3-122 Lely Cattle Milking Management
Figure 3-123 Kyoto University Tomato Harvesting Robot
Figure 3-124 Kyoto University Fruit Harvesting Robots In Greenhouse
Figure 3-125 Kyoto University Tomato Cluster Harvesting Robot
Figure 3-126 Kyoto University Strawberry Harvesting Robot In Plant Factory
Figure 3-127 RHEA Robot Fleets for Seeding
Figure 3-128 RHEA Robot Fleet Mapping for Seeding
Figure 3-129 Robot Fleet Deterministic Route Planning for Seeding
Figure 3-130 Orthogonal Inter Row Mechanical Weeding for Organic Farming
Table 3-131 HGCA Laser Weeding
Figure 3-132 RHEA Laser Weeding
Figure 3-133 RHEA Horibot Cutter and Sprayer
Figure 3-134 RHEA Broad leafed Weed Sensing And Spraying
Table 3-135 RHEA Broad Leafed Weed Sensing And Spraying
Figure 3-136 RHEA Multiple Small Intelligent Machines Replace Large Manned Tractors
Figure 3-137 RHEA Cooperative Fleet Of Robots
Figure 3-138 RHEA Hexacopter (Aerial Mobile Unit)
Table 4-1 Harvest Automation Proprietary Sensor Technology Functions
Table 4-2 Harvest Automation Robot System Architecture
Table 4-3 Proprietary Sensor Technology
Table 4-4 System Design & Architecture
Table 4-5 Tight Scientific Collaboration Between Different Disciplines
Figure 4-6 IEEE Agricultural Robots
Figure 4-7 IEEE Orchard Robots
Figure 4-8 IEEE Automated Agricultural Robot
Table 5-1 ABB Product Launches
Table 5-2 ABB Global Lab Target Technologies
Table 5-3 ABB's Global Lab Automation Target Solutions
Table 5-4 ABB Active Current Research Areas
Figure 5-5 Agrobot Strawberry Picker
Figure 5-6 Agrobot Strawberry Picker
Figure 5-7 Agrobot Robot for Agriculture
Table 5-8 Agrobot Innovation and Technology for Agribusiness
Figure 5-9 Agrobot Innovation and Technology for Agribusiness
Table 5-10 Agrobot SW6010 Support
Table 5-11 cRops technology Functions
Table 5-12 cRops Intelligent Tools
Table 5-13 cRops Target Markets
Table 5-14 cRops Robotic Platform Customized Automated Processes
Figure 5-15 Fanuc Revenue
Figure 5-16 Fanuc Revenue
Figure 5-17 Boston Dynamic LS3
Figure 5-18 Boston Dynamic CHEETAH
Figure 5-19 Boston Dynamic Atlas
Figure 5-20 Boston Dynamic BigDog
Figure 5-21 Boston Dynamics LittleDog -
Table 5-22 Google Autonomous Vehicles Technology
Table 5-23 Harvard Robobee Project Characteristics
Figure 5-24 Harvard Robobee Kilobot Robot Group
Table 5-25 Harvest Automation Robot Navigation
Table 5-26 Harvest Automation Robot Sensor Network Functions
Table 5-27 IBM Systems Target Industries
Table 5-28 Jaybridge Robotics Software Solutions
Table 5-29 Jaybridge Robotics Software Functions
Figure 5-30 Kuka Positioning with Smart Tools
Figure 5-31 Lely s Astronaut A4 Milking Robot
Table 5-32 Millennial Net s MeshScape System Functions
Table 5-33 MeshScape GO Deployment Components:
Table 5-34 National Agriculture and Food Research Organization (NARO) Plan Goals
Figure 5-35 Precise Path Robotics
Figure 5-36 Sicily Small Tractor Used For Manual Artichoke Harvesting
Figure 5-37 Shibuya Kogyo Robotic System For Leaflet & Spoon Placement
Figure 5-38 Shibuya Kogyo Robotic Collating System
Figure 5-39 Shibuya Kogyo Automated Aseptic Environmental Monitoring System
Table 5-40 Universidad Politicnica de Madrid Projects
Figure 5-41 UC Davis Using Yahama Helicopter Drones For Crop Dusting
Figure 5-42 Yamaha Crop Dusting Initiatives
Figure 5-43 ASKAWA Electric Group Businesses

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Cogeneration Equipment Market - Global Industry Size, Market Share, Trends, Analysis, And Forecasts 2012 - 2018
By - Transparency Market Research
Increasing fuel costs and economic recession have encouraged demand for more efficient power cogeneration equipments that can improve profitability. Technological trends in the cogeneration equipment market emphasize on increasing efficiency, portability, and quality of these equipments. Product innovations and sustained research and developments in this field are some important factors contributing to the growth of cogeneration equipment market. One of the major challenges faced by this market is its inconsistency in orders. Many manufacturers are finding it difficult to deal with...
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By - Transparency Market Research
Dermatophytic onychomycosis also referred to as ringworm of the nail is one of the most common fungal infections of the nails. This infection results in the change in appearance of the nails such as, increased opaqueness and whitening along with increased thickening and fragility. Tinea unguium specifically describes the dermatophytic invasion of the nail plates and is the most common in cases when an artificial nail is applied as the nails are abraded with the help of an emery board and these boards have a probability of carrying infection and also water collection under the nail results...
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This report presents a comprehensive overview of the combed cotton yarn market in Greece and its state as of January 2014. It provides detailed analysis of the industry, its dynamics and structure. The purpose of the report is to describe the state of the combed cotton yarn market in Greece, to present actual and retrospective information about the volumes and dynamics of production, imports, exports and consumption, the characteristics of the market for the period 2008-2012 and to build a forecast for the market development until 2018. In the same way, the report presents an elaborate...

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