Global Autonomous Agriculture Robots Market Overview
According to SPER Market Research, the Global Autonomous Agriculture Robots Market is estimated to reach USD 34.87 billion by 2032 with a CAGR of 19.53%.
The evolution of technology has had a significant impact on many industries, including packaging, food and beverage, healthcare, agriculture, and construction. Consumer appetite for food is rapidly increasing as the population grows. This has contributed in the agricultural industry gradually adopting technological solutions to catalyse agriculture production. Agricultural robots are gaining popularity among farmers due to the need to produce food products efficiently while also ensuring sustainability. These robots are used to speed up farming processes while requiring minimal human involvement. Agricultural robots are programmed to perform a variety of farming tasks, including field farming, dairy farming, seed sorting, soil management, and others. The global agricultural robots market is expected to be driven by a high demand for modernised and sustainable farming processes that produce higher yields.
The agricultural production robots market is being driven by a large number of agriculture-related technology firms that are developing, testing, and going to launch a diverse range of automated devices intended for various agricultural purposes. Increased inhabitants, increased demand for food and water supply, increase in popularity of indoor farming, frequent atmospheric temperature, and growing usage of automated systems are expected to drive future growth in the global agricultural robots market. However, the global agricultural robots industry is expected to face a few hurdles, such as farmers' lack of awareness of agricultural equipment and the robots' loss of the ability to match living thing dexterity. Adoption of telematics sensors may represent a global marketing opportunity.
Impact of COVID-19 on the Global Autonomous Agriculture Robots Market
COVID-19 is expected to have a wide range of effects across different regions, as well as among producers, agricultural producers, and the supply chain. The primary reason for the halting of agricultural robot expenditures during this period is farmers inability to access markets for their produce due to operational and transportation challenges. Farmers who supply commercial customers like food processing plants, hotels, and restaurants are expected to be hit the hardest by the pandemic. To address labor shortages, increased use of automated technologies such as sensors, data analytics, robotics, and others has been introduced into the manufacturing system. Each country has continued to push for policies aimed at increasing the adoption of agriculture autonomous robots, which have proven to be an effective solution. The use of agricultural robots is expected to increase significantly in developed regions beginning in 2021.
Scope of the Report:
Report Metric | Details |
Market size available for years | 2019-2032 |
Base year considered | 2021 |
Forecast period | 2022-2032 |
Segments covered | By Farm Produce, By Farming Environment, By Application, By Type
|
Regions covered | Asia-Pacific, Europe, Middle East and Africa, North America, Latin America
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Companies Covered | AGCO Corporation, Agrobot, BouMatic, DAIRYMASTER, Deere & Company, Ecorobotix SA, GEA Group Aktiengesellschaft, KUBOTA Corporation, Lely, Naio Technologies, Robert Bosch GmbH, Saga Robotics AS, Uniseed, Verdant Robotics, Trabotyx
|
Target Audience
- Farmers
- Agricultural Equipment Manufacturers
- Investors
- Governments
- Research and Development Organizations
- End-Users
Global Autonomous Agriculture Robots Market Segmentation:
1. By Farm Produce:
- Field Crops
- Fruits & Vegetables
- Dairy & Livestock
2. By Farming Environment:
3. By Application:
- Harvest management
- Field Farming
- Dairy & Livestock Management
- Soil & Irrigation Management
4. By Type:
- Milking Robots
- UAVs/Drones
- Automated Harvesting Systems
- Driverless Tractors
5. By Region:
- Asia-Pacific
- Europe
- Middle East & Africa
- North America
- Latin America
Key Topics Covered in the Report:
- Global Autonomous Agriculture Robots Market Size (FY’2019-FY’2032)
- Overview of Global Autonomous Agriculture Robots Market
- Segmentation of Global Autonomous Agriculture Robots Market By Farm Produce (Field Crops, Fruits & Vegetables)
- Segmentation of Global Autonomous Agriculture Robots Market By Farming Environment (Indoor, Outdoor)
- Segmentation of Global Autonomous Agriculture Robots Market By Application (Harvest Management, Field Farming, Dairy & Livestock Management, Soil & Irrigation Management)
- Segmentation of Global Autonomous Agriculture Robots Market By Type (Milking Robots, UAVs/Drones, Automated Harvesting Systems, Driverless Tractors, Others)
- Statistical Snap of Global Autonomous Agriculture Robots Market
- Growth Analysis of Global Autonomous Agriculture Robots Market
- Problems and Challenges in Global Autonomous Agriculture Robots Market
- Competitive Landscape in the Global Autonomous Agriculture Robots Market
- Impact of COVID-19 and Demonetization on Global Autonomous Agriculture Robots Market
- Details on Recent Investment in Global Autonomous Agriculture Robots Market
- Competitive Analysis of Global Autonomous Agriculture Robots Market
- Global Autonomous Agriculture Robots Market Key Players
- SWOT Analysis of Global Autonomous Agriculture Robots Market
- Global Autonomous Agriculture Robots Market Future Outlook and Projections (FY’2019-FY’2032)
- Recommendations from Analyst
1. Introduction
1.1. Scope of the report
1.2. Market segment analysis
2. Research Methodology
2.1 Research data source
2.1.1 Secondary data
2.1.2 Primary data
2.1.3 SPER’s internal database
2.1.4 Premium insight from KOL’s
2.2 Market size estimation
2.2.1 Top-down and Bottom-up approach
2.3 Data triangulation
3. Executive Summary
4. Market Dynamics
4.1. Driver, Restraint, Opportunity and Challenges analysis
4.1.1 Drivers
4.1.2 Restraints
4.1.3 Opportunities
4.1.4 Challenges
4.2. COVID-19 Impacts of the Global Autonomous Agriculture Robots Market
5. Market variables and outlook
5.1. SWOT analysis
5.1.1 Strengths
5.1.2 Weaknesses
5.1.3 Opportunities
5.1.4 Threats
5.2. PESTEL analysis
5.2.1 Political landscape
5.2.2 Economic landscape
5.2.3 Social landscape
5.2.4 Technological landscape
5.2.5 Environmental landscape
5.2.6 Legal landscape
5.3. PORTER’S five forces analysis
5.3.1 Bargaining power of suppliers
5.3.2 Bargaining power of Buyers
5.3.3 Threat of Substitute
5.3.4 Threat of new entrant
5.3.5 Competitive rivalry
5.4. Heat map analysis
6. Competitive Landscape
6.1 Global Autonomous Agriculture Robots Manufacturing Base Distribution, Sales Area, Product Type
6.2 Mergers & Acquisitions, Partnerships, Product Launch, and Collaboration in Global Autonomous Agriculture Robots Market
7. Global Autonomous Agriculture Robots Market, By Farm Produce, 2019-2032 (USD Million)
7.1 Field Crops
7.2 Fruits & Vegetables
7.3 Dairy & Livestock
7.4 Others
8. Global Autonomous Agriculture Robots Market, By Farming Environment, 2019-2032 (USD Million)
8.1 Indoor
8.2 Outdoor
9. Global Autonomous Agriculture Robots Market, By Application, 2019-2032 (USD Million)
9.1 Harvest management
9.2 Field Farming
9.3 Dairy & Livestock Management
9.4 Soil & Irrigation Management
10. Global Autonomous Agriculture Robots Market, By Type, 2019-2032 (USD Million)
10.1 Milking Robots
10.2 UAVs/Drones
10.3 Automated Harvesting Systems
10.4 Driverless Tractors
10.5 Others
11. Global Commercial Washing Market, By Region, 2019-2032 (USD Million)
11.1 Global Autonomous Agriculture Robots Market and Market Share by Region (2019-2025)
11.2 Global Autonomous Agriculture Robots Market and Market Share by Region (2026-2032)
11.3 Asia-Pacific
11.3.1 Australia
11.3.2 China
11.3.3 India
11.3.4 Japan
11.3.5 South Korea
11.3.6 Rest of Asia-Pacific
11.4 Europe
11.4.1 France
11.4.2 Germany
11.4.3 Italy
11.4.4 Spain
11.4.5 United Kingdom
11.4.6 Rest of Europe
11.5 Middle East and Africa
11.5.1 Kingdom of Saudi Arabia
11.5.2 United Arab Emirates
11.5.3 Rest of Middle East & Africa
11.6 North America
11.6.1 Canada
11.6.2 Mexico
11.6.3 United States
11.7 Latin America
11.7.1 Argentina
11.7.2 Brazil
11.7.3 Rest of Latin America
12.Company Profiles
12.1 AGCO
12.1.1 Company details
12.1.2 Financial outlook
12.1.3 Product summary
12.1.4 Recent developments
12.2 Autonomous Solution Inc,
12.2.1 Company details
12.2.2 Financial outlook
12.2.3 Product summary
12.2.4 Recent developments
12.3 Autonomous Tractors Corporation
12.3.1 Company details
12.3.2 Financial outlook
12.3.3 Product summary
12.3.4 Recent developments
12.4 Clearpath Robotics
12.4.1 Company details
12.4.2 Financial outlook
12.4.3 Product summary
12.4.4 Recent developments
12.5 Deepfield Robotics
12.5.1 Company details
12.5.2 Financial outlook
12.5.3 Product summary
12.5.4 Recent developments
12.6 DeLaval
12.6.1 Company details
12.6.2 Financial outlook
12.6.3 Product summary
12.6.4 Recent developments
12.7 GEA Group
12.7.1 Company details
12.7.2 Financial outlook
12.7.3 Product summary
12.7.4 Recent developments
12.8 Harvest Automation
12.8.1 Company details
12.8.2 Financial outlook
12.8.3 Product summary
12.8.4 Recent developments
12.9 John Deere
12.9.1 Company details
12.9.2 Financial outlook
12.9.3 Product summary
12.9.4 Recent developments
12.10 Lely
12.10.1 Company details
12.10.2 Financial outlook
12.10.3 Product summary
12.10.4 Recent developments
13.List of Abbreviations
14.Reference Links
15.Conclusion
16.Research Scope
SPER Market Research’s methodology uses great emphasis on primary research to ensure that the market intelligence insights are up to date, reliable and accurate. Primary interviews are done with players involved in each phase of a supply chain to analyze the market forecasting. The secondary research method is used to help you fully understand how the future markets and the spending patterns look likes.
The report is based on in-depth qualitative and quantitative analysis of the Product Market. The quantitative analysis involves the application of various projection and sampling techniques. The qualitative analysis involves primary interviews, surveys, and vendor briefings. The data gathered as a result of these processes are validated through experts opinion. Our research methodology entails an ideal mixture of primary and secondary initiatives.