Global Agricultural Robots Market Forecast 2022-2030

Global Agricultural Robots Market Forecast 2022-2030

KEY FINDINGS

The global agricultural robots market is expected to project a CAGR of 19.63% during the forecast period, 2022-2030. The market growth is attributed to labor shortage, crop protection from pesticide over-use, and growing demand for cost-effective solutions.

MARKET INSIGHTS

Agricultural robots help automate dull, repetitive, and slow tasks for farmers, enabling them to focus on enhancing the overall production yields. These robots are commonly used for weed control, harvesting & picking, phenotyping, etc.

The requirement of different machines like a rotary tiller, combine harvester, ripper machine, tractor, etc., for completing the agricultural process has made the process expensive. Also, labor costs are high. The incorporation of robotics in agriculture is evaluated to eliminate challenges faced by commercial farming organizations. This is because robots will offer dual services that include automation and independent operation, thereby minimizing the need for skilled farmers. Such aspects further facilitate cost-efficiency. Accordingly, market players are increasingly investing in the research and development of robotics, enabling the launch of innovative products. As a result, the increasing demand for cost-effective solutions propels the global agricultural robots market growth. However, the technological limitations hinder the market growth.

REGIONAL INSIGHTS

The global agricultural robots market growth assessment includes the geographical analysis of North America, Europe, Asia-Pacific, and Rest of World. North America is the largest revenue-generating region in the global market, accredited to the rising demand for dairy products, the increasing disposable income, and the growing population.

COMPETITIVE INSIGHTS

The market rivalry is moderately high, with most companies offering a varied range of products equipped with modern technologies. Some of the leading market players include AGCO Corporation, Autonomous Solutions Inc, Agrobot, BouMatic Robotics BV, etc.

Our report offerings include:
Explore key findings of the overall market
Strategic breakdown of market dynamics (Drivers, Restraints, Opportunities, Challenges)
Market forecasts for a minimum of 9 years, along with 3 years of historical data for all segments, sub-segments, and regions
Market Segmentation caters to a thorough assessment of key segments with their market estimations
Geographical Analysis: Assessments of the mentioned regions and country-level segments with their market share
Key analytics: Porter’s Five Forces Analysis, Vendor Landscape, Opportunity Matrix, Key Buying Criteria, etc.
Competitive landscape is the theoretical explanation of the key companies based on factors, market share, etc.
Company profiling: A detailed company overview, product/services offered, SCOT analysis, and recent strategic developments


1. Research Scope & Methodology
1.1. Study Objectives
1.2. Scope Of Study
1.3. Methodology
1.4. Assumptions & Limitations
2. Executive Summary
2.1. Market Size & Estimates
2.2. Market Overview
3. Market Dynamics
3.1. Key Drivers
3.1.1. Shortage Of Labor
3.1.2. Protecting Crops From Over-use Of Pesticides
3.1.3. Increased Demand For Cost-effective Solutions
3.2. Key Restraints
3.2.1. High Costs Of Robot Maintenance
3.2.2. High-priced Robotics Software
3.2.3. Technical Limitations
4. Key Analytics
4.1. Impact Of Covid-19 On Agricultural Robots Market
4.2. Key Market Trends
4.3. Porter’s Five Forces Analysis
4.3.1. Buyers Power
4.3.2. Suppliers Power
4.3.3. Substitution
4.3.4. New Entrants
4.3.5. Industry Rivalry
4.4. Opportunity Matrix
4.5. Vendor Landscape
4.6. Value Chain Analysis
4.7. Key Buying Criteria
4.7.1. Cost-efficient
4.7.2. Durability
4.7.3. Time-consumption
4.7.4. Technology
4.8. Regulatory Framework
5. Market By Type
5.1. Uavs/Drones
5.2. Milking Robots
5.3. Automated Harvesting System
5.4. Driverless Tractor
5.5. Other Types
6. Market By Application
6.1. Harvest Management
6.2. Dairy And Livestock Management
6.3. Crop Production
6.4. Other Applications
7. Geographical Analysis
7.1. North America
7.1.1. Market Size & Estimates
7.1.2. Key Growth Enablers
7.1.3. Key Challenges
7.1.4. Key Players
7.1.5. Country Analysis
7.1.5.1. United States
7.1.5.2. Canada
7.2. Europe
7.2.1. Market Size & Estimates
7.2.2. Key Growth Enablers
7.2.3. Key Challenges
7.2.4. Key Players
7.2.5. Country Analysis
7.2.5.1. United Kingdom
7.2.5.2. Germany
7.2.5.3. France
7.2.5.4. Italy
7.2.5.5. Spain
7.2.5.6. Nordic Countries
7.2.5.7. Rest Of Europe
7.3. Asia-pacific
7.3.1. Market Size & Estimates
7.3.2. Key Growth Enablers
7.3.3. Key Challenges
7.3.4. Key Players
7.3.5. Country Analysis
7.3.5.1. China
7.3.5.2. Japan
7.3.5.3. India
7.3.5.4. South Korea
7.3.5.5. Indonesia
7.3.5.6. Australia & New Zealand
7.3.5.7. Rest Of Asia-pacific
7.4. Rest Of World
7.4.1. Market Size & Estimates
7.4.2. Key Growth Enablers
7.4.3. Key Challenges
7.4.4. Key Players
7.4.5. Regional Analysis
7.4.5.1. Latin America
7.4.5.2. Middle East & Africa
8. Competitive Landscape
8.1. Key Strategic Developments
8.1.1. Mergers & Acquisitions
8.1.2. Product Launches & Developments
8.1.3. Partnerships & Agreements
8.2. Company Profiles
8.2.1. Agco Corporation
8.2.2. Agrobot
8.2.3. Autonomous Solutions Inc
8.2.4. Boumatic Robotics Bv
8.2.5. Cnh Industrial
8.2.6. Deere & Company
8.2.7. Ecorobotix
8.2.8. Harvest Automation
8.2.9. Lely Holdings S.A.R.L.
8.2.10. Naio Technologies
8.2.11. Precision Ai
8.2.12. Precisionhawk Inc
8.2.13. Robotics Plus Ltd
8.2.14. Rowbot
8.2.15. Trimble Inc

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