Agriculture Drone Market Assessment, By Product Type [Fixed Wing Drone, Rotary Wing Drone, Hybrid Drone], By Component [Hardware, Software, Services], By Farming Environment [Indoor, Outdoor], By Application [Field Mapping and Monitoring, Variable Rate Ap

Agriculture Drone Market Assessment, By Product Type [Fixed Wing Drone, Rotary Wing Drone, Hybrid Drone], By Component [Hardware, Software, Services], By Farming Environment [Indoor, Outdoor], By Application [Field Mapping and Monitoring, Variable Rate Application, Precision Farming, Livestock Monitoring, Others], By Region, Opportunities and Forecast, 2017-2031F



Global agriculture drone market is projected to witness a CAGR of 22.70% during the forecast period 2024-2031, growing from USD 3.12 billion in 2023 to USD 16.03 billion in 2031. The market has experienced significant growth in recent years and is expected to maintain a strong pace of expansion in the coming years.

The agriculture drone market is growing quickly because of its various advantages and innovations. These drones are reforming conventional cultivating techniques by improving accuracy and productivity. The fundamental explanations behind this development incorporate the requirement for additional exact cultivation, cost efficiency, and decreased labor needs.

Agricultural drones further promote precision farming by yielding precise data on crop health parameters, soil conditions, and weather conditions. They can distinguish explicit regions that need consideration, analyzing for designated utilization of pesticides or manures. This limits the abuse of synthetic substances, advancing more economical cultivating practices.

Drones minimize the requirement for ground-based gadgets, eliminating fuel and upkeep costs. For instance, a solitary drone can treat up to 80 hectares in a day, saving time and work compared with conventional techniques. Drones can likewise get into hard-to-reach areas, guaranteeing comprehensive field management. Drones can productively deal with operations like planting, watering, and pest control, allowing specialists to do other significant operations. They can sow up to 1,000 seeds each hour and spread pest control estimates of more than 2,000 hectares per day, displaying their proficiency.

Nations like Japan, the United States, and Poland are driving the trend of embracing drone innovation, showing its capacity to support efficiency and monetary worth in agriculture. Despite a few administrative obstacles, the rising number of licenses and consistent technical enhancements recommend a promising future for agricultural drones, making them a vital part of modern farming.

For instance, in April 2024, DJI Technology Co., Ltd., the world leader in regular citizen drones and imaginative camera innovation, launched the Agras T50 and T25 drones. The T50 is an expansion of the Agras drone line, which offers unparalleled effectiveness for bigger scope developing tasks, while the lightweight T25 is intended to be more versatile for more modest fields.

Rising Pressure on Food Supply Drives Market Growth

The rising pressure on food supply is a huge driver for the agriculture drone market. There is a developing interest in higher agricultural efficiency and proficiency as the worldwide population rises and cultivable land reduces. Agricultural drones play an urgent role by empowering accurate cultivating methods that boost crop yields while preserving assets. Drones give continuous information on crop conditions, permitting farmers to screen and oversee enormous regions more precisely. They work with the exact use of composts, pesticides, and water, advancing information sources and decreasing wastage. This ability helps fulfill the rising need for food by improving agricultural results per unit region. Subsequently, the adoption of drones in agriculture is driven by the critical need to sustainably enhance food production to take care of a developing worldwide population amid contracting agricultural resources.

For example, in March 2024, DJI unveiled DJI Dock 2 to the global market which offers the solely planned DJI Matrice 3D/3TD drone, this lightweight ""drone in a box"" is financially savvy and easy to introduce and convey.

Precision Farming Revolutionizing Global Agriculture Drone Market Trends

Precision farming fundamentally adds to the worldwide agriculture drone market by upgrading effectiveness, supportability, and efficiency. Drones furnished with cutting-edge sensors and imaging innovation give constant information on crop conditions, soil conditions, and pest infestations, empowering designated interventions. This precision minimizes input costs, limits natural effects, and increases crop yield. For instance, in Germany, precision farming has prompted more significant returns per hectare and diminished herbicide and diesel use by 10% and 20%, respectively. Moreover, drones work with the exact use of harvest security items, improving their utilization and diminishing farmer exposure. This collaboration of advanced innovation and precision farming drives interest in the agricultural drone market around the world. It holds the highest position in the global agricultural drone market share in the forecasted period.

For example, in September 2022, AeroVironment, Inc., a worldwide forerunner in clever, multi-space mechanical frameworks, released the cutting-edge Fume Helicopter automated airplane framework (UAS), Fume 55 MX. It offers new degrees of functional execution with a totally overhauled secluded independence system; Fume 55 MX empowers expanded perseverance and extended payload ability to meet current and arising needs of protection, agricultural, and modern clients.

Government Initiatives Acting as Catalyst

Governments are upgrading the agriculture drone market through progressive policies, subsidies, and administrative frameworks. For instance, the United States Government Aeronautics Organization (FAA) has facilitated guidelines permitting more straightforward coordination of drones in farming. In India, the ""Kisan Drone"" drive gives monetary incentives and subsidies to drone used in agriculture. The European Association finances research and development tasks to propel drone innovation for precision farming. Japan, perceiving the advantages since the 1980s, has effectively advanced drone utilization in agriculture. These endeavors by governments overall are making drone innovation more open, supporting its reception, and modernizing agricultural practices.

For example, in February 2022, the Indian government launched the National Agricultural Development Mission (NADM) to promote the use of drones in agriculture. The mission provides subsidies for the purchase of drones and training for farmers on how to use them effectively.

North America Dominates the Agriculture Drone Market

North America drives the agriculture drone market owing to critical interest in drone innovation and high reception rates by farmers. The region benefits from major areas of strength for a framework and broad innovative work endeavors. The United States Department of Agriculture (USDA) has supported drone-based examination to develop crop monitoring and planning further. However, organizations like John Deere and DJI have created advanced drones explicitly for precision farming. The wide utilization of precision agriculture in the United States and Canada, alongside strong government policies and regulations, adds to North America's predominance in the agriculture drone market, which drives the growth of the global agricultural drone market in the region.

For instance, in April 2023, the United States Department of Agriculture (USDA) and the National Institute of Food and Agriculture (NIFA) announced support grants and funding opportunities to leverage the use of drones in farming practices in the country.

Future Market Scenario (2024-2031F)

Drones will incorporate advanced AI and machine learning for real-time data analysis, allowing more precise farming decisions.

Governments will ease regulations and provide incentives, facilitating farmers' adoption of drone technology.

Drones will be used more for environmental monitoring, accurately tracking soil health, water usage, and pest infestations.

Fully autonomous drones will perform complex farming tasks with minimal human intervention.

Drones will integrate with other IoT devices on farms, creating a highly connected and efficient agricultural system.

Key Players Landscape and Outlook

The global agriculture drone market size is set for robust growth as farmers worldwide increasingly embrace precision farming. This shift is fueled by advancements in drone technology, including AI and machine learning, which empower farmers with better data for smarter decisions. Regulatory changes are also making it easier for drones to be used in agriculture, supporting market expansion. Improved battery life and cost-effectiveness are making drones accessible to farms of all sizes, while environmental concerns drive demand for drones that can monitor crops efficiently and sustainably. Innovations in sensors and integration with IoT are transforming farms into smarter, interconnected systems. Together, these trends highlight a future where drones play a vital role in modernizing agriculture, making farming more precise, efficient, and environmentally friendly.

In May 2023, DJI set a new standard for any commercial drone operator with the launch of the DJI Matrice 350 RTK (M350 RTK). The M350 RTK is an upgraded flagship drone platform that is more adaptable, safer and efficient for any aerial operation in public safety, energy, mapping, infrastructure or forestry.


1. Research Methodology
2. Project Scope and Definitions
3. Executive Summary
4. Voice of Customer
4.1. Product and Market Intelligence
4.2. Mode of Brand Awareness
4.3. Factors Considered in Purchase Decisions
4.3.1. Features and Other Value-Added Service
4.3.2. IT Infrastructure Compatibility
4.3.3. Efficiency of Solutions
4.3.4. After-Sales Support
4.4. Consideration of Privacy and Regulations
5. Global Agriculture Drone Market Outlook, 2017-2031F
5.1. Market Size & Forecast
5.1.1. By Value
5.1.2. By Volume
5.2. By Product Type
5.2.1. Fixed Wing Drone
5.2.2. Rotary Wing Drone
5.2.3. Hybrid Drone
5.3. By Component
5.3.1. Hardware
5.3.1.1. Frames
5.3.1.2. Flight Control Systems
5.3.1.3. Navigation Systems
5.3.1.4. Propulsion Systems
5.3.1.5. Cameras
5.3.1.6. Sensors
5.3.1.7. Others
5.3.2. Software
5.3.2.1. Imaging Software
5.3.2.2. Data Management Software
5.3.2.3. Data Analytics Software
5.3.2.4. Others
5.3.3. Services
5.3.3.1. Professional Services
5.3.3.2. Managed Services
5.4. By Farming Environment
5.4.1. Indoor
5.4.2. Outdoor
5.5. By Application
5.5.1. Field Mapping and Monitoring
5.5.2. Variable Rate Application
5.5.3. Precision Farming
5.5.4. Livestock Monitoring
5.5.5. Others
5.6. By Region
5.6.1. North America
5.6.2. Europe
5.6.3. Asia-Pacific
5.6.4. South America
5.6.5. Middle East and Africa
5.7. By Company Market Share (%), 2023
6. Global Agriculture Drone Market Outlook, By Region, 2017-2031F
6.1. North America*
6.1.1. Market Size & Forecast
6.1.1.1. By Value
6.1.1.2. By Volume
6.1.2. By Product Type
6.1.2.1. Fixed Wing Drone
6.1.2.2. Rotary Wing Drone
6.1.2.3. Hybrid Drone
6.1.3. By Component
6.1.3.1. Hardware
6.1.3.1.1. Frames
6.1.3.1.2. Flight Control Systems
6.1.3.1.3. Navigation Systems
6.1.3.1.4. Propulsion Systems
6.1.3.1.5. Cameras
6.1.3.1.6. Sensors
6.1.3.1.7. Others
6.1.3.2. Software
6.1.3.2.1. Imaging Software
6.1.3.2.2. Data Management Software
6.1.3.2.3. Data Analytics Software
6.1.3.2.4. Others
6.1.3.3. Services
6.1.3.3.1. Professional Services
6.1.3.3.2. Managed Services
6.1.4. By Farming Environment
6.1.4.1. Indoor
6.1.4.2. Outdoor
6.1.5. By Application
6.1.5.1. Field Mapping and Monitoring
6.1.5.2. Variable Rate Application
6.1.5.3. Precision Farming
6.1.5.4. Livestock Monitoring
6.1.5.5. Others
6.1.6. United States*
6.1.6.1. Market Size & Forecast
6.1.6.1.1. By Value
6.1.6.1.2. By Volume
6.1.6.2. By Product Type
6.1.6.2.1. Fixed Wing Drone
6.1.6.2.2. Rotary Wing Drone
6.1.6.2.3. Hybrid Drone
6.1.6.3. By Component
6.1.6.3.1. Hardware
6.1.6.3.1.1. Frames
6.1.6.3.1.2. Flight Control Systems
6.1.6.3.1.3. Navigation Systems
6.1.6.3.1.4. Propulsion Systems
6.1.6.3.1.5. Cameras
6.1.6.3.1.6. Sensors
6.1.6.3.1.7. Others
6.1.6.3.2. Software
6.1.6.3.2.1. Imaging Software
6.1.6.3.2.2. Data Management Software
6.1.6.3.2.3. Data Analytics Software
6.1.6.3.2.4. Others
6.1.6.3.3. Services
6.1.6.3.3.1. Professional Services
6.1.6.3.3.2. Managed Services
6.1.6.4. By Farming Environment
6.1.6.4.1. Indoor
6.1.6.4.2. Outdoor
6.1.6.5. By Application
6.1.6.5.1. Field Mapping and Monitoring
6.1.6.5.2. Variable Rate Application
6.1.6.5.3. Precision Farming
6.1.6.5.4. Livestock Monitoring
6.1.6.5.5. Others
6.1.7. Canada
6.1.8. Mexico
*All segments will be provided for all regions and countries covered
6.2. Europe
6.2.1. Germany
6.2.2. France
6.2.3. Italy
6.2.4. United Kingdom
6.2.5. Russia
6.2.6. Netherlands
6.2.7. Spain
6.2.8. Turkey
6.2.9. Poland
6.3. Asia-Pacific
6.3.1. India
6.3.2. China
6.3.3. Japan
6.3.4. Australia
6.3.5. Vietnam
6.3.6. South Korea
6.3.7. Indonesia
6.3.8. Philippines
6.4. South America
6.4.1. Brazil
6.4.2. Argentina
6.5. Middle East and Africa
6.5.1. Saudi Arabia
6.5.2. UAE
6.5.3. South Africa
7. Market Mapping, 2023
7.1. By Product Type
7.2. By Component
7.3. By Farming Environment
7.4. By Application
7.5. By Region
8. Macro Environment and Industry Structure
8.1. Demand Supply Analysis
8.2. Import Export Analysis
8.3. Supply Chain Analysis
8.4. PESTEL Analysis
8.4.1. Political Factors
8.4.2. Economic System
8.4.3. Social Implications
8.4.4. Technological Advancements
8.4.5. Environmental Impacts
8.4.6. Legal Compliances and Regulatory Policies (Statutory Bodies Included)
8.5. Porter’s Five Forces Analysis
8.5.1. Supplier Power
8.5.2. Buyer Power
8.5.3. Substitution Threat
8.5.4. Threat From New Entrants
8.5.5. Competitive Rivalry
9. Market Dynamics
9.1. Growth Drivers
9.2. Growth Inhibitors (Challenges and Restraints)
10. Key Players Landscape
10.1. Competition Matrix of Top Five Market Leaders
10.2. Market Revenue Analysis of Top Five Market Leaders (By Value, 2023)
10.3. Mergers and Acquisitions/Joint Ventures (If Applicable)
10.4. SWOT Analysis (For Five Market Players)
10.5. Patent Analysis (If Applicable)
11. Pricing Analysis
12. Case Studies
13. Key Players Outlook
13.1. 3DR, Inc.
13.1.1. Company Details
13.1.2. Key Management Personnel
13.1.3. Products and Services
13.1.4. Financials (As Reported)
13.1.5. Key Market Focus and Geographical Presence
13.1.6. Recent Developments
13.2. AeroVironment, Inc.
13.3. AgEagle Aerial Systems, Inc.
13.4. Agribotix LLC
13.5. ATOMS UAV (FLARM Technology AG)
13.6. HeliDroid AutoCopter
13.7. DELAIR SASSZ DJI Technology Co., Ltd.
13.8. DJI Technology Co., Ltd.
13.9. Draganfly Innovations Inc.
13.10. DroneDeploy, Inc.
*Companies mentioned above DO NOT hold any order as per market share and can be changed as per information available during research work.
14. Strategic Recommendations
15. About Us and Disclaimer

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