세계의 농업용 드론 시장 전망 : 용도, 제품 유형, 지역별 분석, 예측(2025-2035년)

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Introduction to the Future of Agri-Drones Market

The future of agri-drones market is shaped by trends such as the rapid adoption of precision agriculture driven by the need for input optimization and higher crop efficiency. Climate-smart farming is accelerating demand for drones that offer real-time monitoring, adaptive spraying, and early pest detection, aligning with global sustainability goals. Automation is gaining ground amid widespread labor shortages, with autonomous drones reducing the need for manual labor in the field. Furthermore, innovations such as swarm technology enable coordinated, large-scale operations, while integration with IoT and big data systems facilitates predictive analytics and informed decision-making.

Additionally, evolving regulatory frameworks are beginning to formalize drone operations, introducing standardized airspace usage and certification protocols. Together, these trends reflect a convergence of technology, sustainability, and data intelligence, positioning agri-drones as a cornerstone of next-generation farming.

Market Overview

The future of agri-drones market's revenue was $3,936.2 million in 2024, and it is expected to reach $67,557.6 million by 2035, advancing at a CAGR of 29.53% during the forecast period (2025-2035). The market is growing due to the surging demand for climate-resilient agricultural decision support systems, the integration of drone data into crop insurance and credit systems, and the expansion of UAVs in land use mapping and resource planning.

Crop insurance protects farmers from financial losses due to crop failure caused by natural disasters or other unforeseen events. This enables insurers and lenders to make informed decisions with greater accuracy and reduced turnaround time. For instance, companies such as Skymet are collaborating with state governments in India, including Maharashtra and Rajasthan, to validate crop damage using drone imagery, resulting in expedited claim disbursements under the Pradhan Mantri Fasal Bima Yojana (PMFBY).

Industrial Impact

Agri-drones are having a significant industrial impact by reshaping the way farming inputs, machinery, and services are delivered and utilized. Their precision in spraying, scouting, and seeding reduces the dependency on heavy machinery for every field pass, thereby cutting fuel use, soil compaction, and chemical wastage. This shift is driving the crop protection and fertilizer industries toward developing "drone-ready" formulations with ultra-low volumes and tailored droplet technologies, which will open premium product lines, especially in high-value horticulture. For machinery OEMs and agri-dealers, drones are less of a replacement and more of an expansion, adding new service revenues such as training, maintenance, and drone-as-a-service models that cover hard-to-reach terrains and specialized crops.

Upstream, industrial demand now extends to drone-specific components, including multi-spectral cameras, GNSS/RTK modules, chemical-resistant tanks, and high-density batteries, thereby strengthening local manufacturing ecosystems and aftermarket opportunities. Data platforms and farm-management systems also integrate drone-captured insights, building value in compliance, sustainability, and traceability reporting. Beyond agriculture, telecom and navigation sectors benefit from increased demand for rural connectivity and reliable positioning systems, while insurance, financing, and training industries adapt with customized products and certification programs. Overall, the market is accelerating cross-industry innovation and services, with its greatest industrial impact seen in reducing operational costs, driving input efficiency, and enabling digital farming ecosystems at scale.

Market Segmentation:

Segmentation 1: by Application

• Crop Monitoring/Scouting
• Soil Health Assessment and Carbon Tracking
• Precision Spraying
• Livestock Monitoring
• Insurance and Claim Assessment
• Others

Precision Spraying to Lead the Market (by Application)

Precision spraying is poised to become the leading application in the future of agri-drones market, driven by the urgent need to reduce agrochemical wastage, enhance crop yields, and address rising environmental concerns. According to FAO and AgFunder reports, the use of precision spraying results in a 90% reduction in chemical usage and a 30% increase in efficiency.

As agricultural inputs become more expensive and regulations around pesticide usage tighten, farmers are turning to precision spraying to achieve sustainable intensification. In high-value crops and regions with labor shortages, such as Japan, the U.S., and parts of Europe, drone-based spraying is not only cost-effective, but it is also becoming essential. Moreover, drones can access terrains that are challenging for tractors or manual labor, expanding their utility in hillside farming or waterlogged areas.

Segmentation 2: by Drone Type

• Fixed-Wing Drones
• Multi-Rotor Drones
• Single-Rotor Drones
• Hybrid Drones (Fixed + Rotary)

Multi-Rotor Drones to Dominate the Market (by Drone Type)

Multi-rotor drones are expected to continue dominating the market due to their versatility, affordability, and ease of use. Their ability to take off and land vertically, hover in place, and maneuver effectively in confined or obstructed environments makes them ideal for farm applications that require precision and agility.

Unlike fixed-wing drones, which are better suited for large-scale, high-altitude surveying, multi-rotors are optimized for lower-altitude, high-resolution tasks such as targeted spraying, close-up crop monitoring, and spot-level pest detection. Their relatively low cost and simpler flight controls significantly reduce the learning curve and upfront investment for farmers, especially on small to mid-sized farms across the Asia-Pacific and Latin America regions, where cost sensitivity is high.

Additionally, advances in payload capacity, battery life, and automation are expanding the operational capabilities of multi-rotor drones, making them increasingly viable for tasks that previously required larger systems. As farming digitization accelerates, multi-rotor drones are set to lead due to their flexibility, scalability, and alignment with precision agriculture needs.

Segmentation 3: by Payload

• Small Payload (<2 kg)
• Medium Payload (2-20 kg)
• Large Payload (20-50 kg)
• Heavy Payload (>50 kg)

Medium Payload to Dominate the Market (by Drone Type)

Medium payload drones are projected to lead the future of agri-drones market by payload class over the forecast period, driven by their strong alignment with key operational requirements in precision agriculture. This segment offers an optimal balance between load-carrying capability and cost-efficiency, enabling practical deployment across a broad spectrum of farm sizes and crop types. These drones are particularly well-suited for high-impact use cases such as targeted spraying, seed dispersal, and multi-spectral imaging, where sufficient payload capacity is essential but heavy-lift systems may be cost-prohibitive or operationally complex.

Medium payload platforms also support modularity, allowing for integration of advanced sensors and spraying systems without compromising flight endurance or maneuverability. Medium payload drones lower the entry barrier for commercial-scale usage while providing a path for scalable expansion. This makes them highly attractive in both mature markets (North America and Europe) and emerging regions (Asia-Pacific and South America).

Segmentation 4: by Region

• North America
• Europe
• Asia-Pacific
• Rest-of-the-World

North America to Lead the Market (by Region)

The future of agri-drones market in North America is expected to grow steadily in the future due to factors such as environmental pressures, demand for precision in crop management, and increased support from both private and public sectors. Manufacturers in the region include U.S.-based companies such as Hylio, Pegasus Robotics (exclusive North American distributor of XAG drones), Draganfly, PrecisionHawk, and UAV-IQ, as well as Canadian innovators such as Aeryon Labs and Ukko Agro. In North America, DJI Agras is the dominant player.

In the U.S., the advancing IoT for Precision Agriculture Act (part of the 2022 CHIPS and Science Act) spurred federal investment in precision tools, including drone-based precision spraying and spreading technologies, coordinated through USDA and GAO programs.

Recent Developments in the Future of Agri-Drones Market

• In 2022, Quantum Systems, a German drone manufacturer, released the Trinity F90+ drone, designed for large-scale agricultural operations. The Trinity F90+ features a modular payload system that enables the integration of high-precision sensors for various agricultural applications, including crop analysis, mapping, and environmental monitoring.
• In 2024, the Federal Aviation Administration (FAA) of the U.S. granted approval to ZenaDrone for commercial agricultural operations. This approval, under FAA 14 CFR Part 137, permits ZenaDrone to utilize its ZenaDrone 1000 model for spraying pesticides, herbicides, fungicides, fertilizers, and seeds. The ZenaDrone 1000 drone is equipped with advanced AI capabilities, allowing for precise and efficient application of agricultural inputs.
• In 2024, Farmonaut announced APIs and drone platform support for crop loan and insurance verification in the U.S. market. Their system integrates drone and satellite imagery into loan applications and underwriting workflows to reduce fraud and speed approval processes.
• In June 2025, DJI, the Chinese drone manufacturer, announced plans to perform drone swarming in Brazil in the near future. The company has chosen the country due to its relaxed legal requirements in recent years.

How can this report add value to an organization?

Product/Innovation Strategy: This report provides a detailed analysis of the future of agri-drones market, segmented by application, drone type, and payload. It covers various agri-drones, such as fixed-wing drones, multi-rotor drones, single-rotor drones, and hybrid drones (fixed + rotary), of different payloads, such as small payload (<2 kg), medium payload (2-20 kg), large payload (20-50 kg), and heavy payload (>50 kg) for several applications such as crop monitoring/scouting, soil health assessment and carbon tracking, precision spraying, livestock monitoring, insurance and claim assessment, and others. The report helps innovators identify gaps in the current offering landscape and adapt product roadmaps to deliver differentiated, scalable, and regulatory-compliant solutions.

Growth/Marketing Strategy: The future of agri-drones market has been rapidly evolving, with major players engaging in capacity expansion, strategic alliances, and pilot deployments to strengthen their market position. This report tracks those developments and provides insights into how key companies are entering or expanding into application segments. It supports marketing teams in identifying high-growth sectors, aligning value propositions with end-user expectations, and crafting targeted go-to-market strategies based on regional dynamics and technological readiness.

Competitive Strategy: A thorough competitive landscape is provided, profiling leading players based on their product offerings, innovation pipelines, partnerships, and expansion plans. Competitive benchmarking enables readers to evaluate how companies are positioned across drone types, payloads, and application areas.

Research Methodology

Data Sources

Primary Data Sources

The primary sources involve industry experts from the future of agri-drones market and various stakeholders in the ecosystem. Respondents, including CEOs, vice presidents, marketing directors, and technology and innovation directors, have been interviewed to gather and verify both qualitative and quantitative aspects of this research study.

The key data points taken from primary sources include:

• validation and triangulation of all the numbers and graphs
• validation of report segmentations and key qualitative findings
• understanding the competitive landscape
• validation of the numbers in several categories
• percentage split of individual markets for geographical analysis

Secondary Data Sources

This research study involves the usage of extensive secondary research, directories, company websites, and annual reports. It also utilizes databases, such as Hoover's, Bloomberg, Businessweek, and Factiva, to collect useful and effective information for an extensive, technical, market-oriented, and commercial study of the global market. In addition to core data sources, the study referenced insights from reputable organizations and websites, such as the Food and Agriculture Organization (FAO), United States Department of Agriculture (USDA), National Institute of Food and Agriculture (NIFA), Farm Bureau Federation (FBF), Canadian Agri-Food Automation and Intelligence Network (CAAIN), Smart Agriculture Council Mexico, Ministry of Agriculture, Food and Rural Affairs (MAFRA), Korea National Agricultural Cooperative Federation (NACF), Ministry of Agriculture and Rural Affairs (MARA), International Cooperative Agricultural Organization (ICAO), and others, to understand trends in the adoption of agri-drones.

Secondary research has been done to obtain crucial information about the industry's value chain, revenue models, the market's monetary chain, the total pool of key players, and the current and potential use cases and applications.

The key data points taken from secondary research include:

• segmentations and percentage shares
• data for market value
• key industry trends of the top players in the market
• qualitative insights into various aspects of the market, key trends, and emerging areas of innovation
• quantitative data for mathematical and statistical calculations

Data Triangulation

This research study utilizes extensive secondary sources, including certified publications, articles by recognized authors, white papers, company annual reports, directories, and major databases, to collect useful and effective information for a comprehensive, technical, market-oriented, and commercial study of the future of agri-drones market.

The process of market engineering involves the calculation of the market statistics, market size estimation, market forecast, market crackdown, and data triangulation (the methodology for such quantitative data processes has been explained in further sections). A primary research study has been undertaken to gather information and validate market numbers for segmentation types and industry trends among key players in the market.

Key Market Players and Competition Synopsis

The competitive landscape of the future of agri-drones market is increasingly dynamic, marked by the presence of global OEMs, agriculture technology providers, and emerging startups competing to address the growing demand for smart farming solutions.

To gain market share, major agri-drone developers have been making various kinds of strategic moves. Acquisitions and partnerships of businesses are among the key strategies adopted by manufacturers to enhance their competitiveness and market shares in the future of agri-drones market. DJI, XAG Co., Ltd., and Parrot Drones SAS are some of the key manufacturers operating in the market. Startups across India, China, and Israel are expanding rapidly, offering cost-effective UAVs tailored to smallholder farmers, while established agricultural machinery companies are investing heavily in drone partnerships and acquisitions to strengthen their digital farming strategies.

The competition is shaped by rapid advancements in AI-based analytics, swarm technology, extended flight endurance, and integration with IoT platforms, driving differentiation among players. Additionally, government subsidies, regulatory relaxations, and rising venture capital funding are fueling the market entry of niche players, making the sector highly fragmented but innovation-driven, with intense rivalry expected to continue as drones transition from a niche precision tool to a mainstream component of modern agriculture.

Some prominent names established in this market are:

• DJI
• XAG Co., Ltd.
• Parrot Drones SAS
• Yamaha Motor Co., Ltd.
• Delair
• Hylio, Inc.
• AgEagle Aerial Systems Inc.
• Sentera
• Kray Technologies
• Garuda Aerospace Pvt. Ltd.
• ABZ Innovation
• Nileworks Inc.
• DroneVolt
• Marut Dronetech Pvt. Ltd.
• Suzhou Eavision Robotics Co., Ltd.

Table of Contents

Executive Summary

Scope and Definition

1 Market: Industry Outlook

• 1.1 Market Dynamics
  • 1.1.1 Trends, Drivers, Challenges, and Opportunities: Current and Future Impact Assessment
• 1.2 Trends
  • 1.2.1 Advanced Flight Control Systems for Terrain Adaptive, GPS-Denied Agricultural Environments
  • 1.2.2 Next-Generation UAV Architectures for Precision Farming: Modular Payloads and AI Integration
• 1.3 Regulatory and Policy Impact Analysis
• 1.4 Patent Analysis
• 1.5 Market Dynamics Overview
  • 1.5.1 Market Drivers
    • 1.5.1.1 Need for Climate-Resilient Agricultural Decision Support Systems
    • 1.5.1.2 Integration of Drone Data into Crop Insurance and Credit Systems
    • 1.5.1.3 Expansion of UAVs in Land Use Mapping and Resource Planning
  • 1.5.2 Market Restraints
    • 1.5.2.1 Navigating Regulatory Hurdles and Mitigating Security Risks in Agri-Drone Deployment
    • 1.5.2.2 Cost and Infrastructure Barrier for Smallholders
    • 1.5.2.3 Scaling Data Management and Technical Capabilities for Agri-Drone Integration
  • 1.5.3 Market Opportunities
    • 1.5.3.1 Drone Swarming for Agricultural Operations
    • 1.5.3.2 Surge in Adoption of Drone-as-a-Service
    • 1.5.3.3 Drone Modules for Vertical and Indoor Farming
• 1.6 Start-Up Landscape
• 1.7 Technology Adoption Matrix
• 1.8 Cost Analysis of Drone Adoption
• 1.9 Case Study

2 Application

• 2.1 Application Summary
• 2.2 Future of Agri-Drones Market (by Application)
  • 2.2.1 Crop Monitoring/Scouting
  • 2.2.2 Soil Health Assessment and Carbon Tracking
  • 2.2.3 Precision Spraying
  • 2.2.4 Livestock Monitoring
  • 2.2.5 Insurance and Claim Assessment
  • 2.2.6 Others

3 Product

• 3.1 Future of Agri-Drones Market (by Drone Type)
  • 3.1.1 Fixed-Wing Drones
  • 3.1.2 Multi-Rotor Drones
  • 3.1.3 Single-Rotor Drones
  • 3.1.4 Hybrid Drones (Fixed + Rotary)
• 3.2 Future of Agri-Drones Market (by Payload)
  • 3.2.1 Small Payload (<2 kg)
  • 3.2.2 Medium Payload (2-20 kg)
  • 3.2.3 Large Payload (20-50 kg)
  • 3.2.4 Heavy Payload (>50 kg)

4 Region

• 4.1 Regional Summary
• 4.2 North America
  • 4.2.1 Regional Overview
  • 4.2.2 Driving Factors for Market Growth
  • 4.2.3 Factors Challenging the Market
  • 4.2.4 North America Market
    • 4.2.4.1 Application
    • 4.2.4.2 Product
  • 4.2.5 U.S.
    • 4.2.5.1 Application
    • 4.2.5.2 Product
  • 4.2.6 Canada
    • 4.2.6.1 Application
    • 4.2.6.2 Product
  • 4.2.7 Mexico
    • 4.2.7.1 Application
    • 4.2.7.2 Product
• 4.3 Europe
  • 4.3.1 Regional Overview
  • 4.3.2 Driving Factors for Market Growth
  • 4.3.3 Factors Challenging the Market
  • 4.3.4 Europe Market
    • 4.3.4.1 Application
    • 4.3.4.2 Product
  • 4.3.5 Germany
    • 4.3.5.1 Application
    • 4.3.5.2 Product
  • 4.3.6 France
    • 4.3.6.1 Application
    • 4.3.6.2 Product
  • 4.3.7 U.K.
    • 4.3.7.1 Application
    • 4.3.7.2 Product
  • 4.3.8 Italy
    • 4.3.8.1 Application
    • 4.3.8.2 Product
  • 4.3.9 Spain
    • 4.3.9.1 Application
    • 4.3.9.2 Product
  • 4.3.10 Russia
    • 4.3.10.1 Application
    • 4.3.10.2 Product
  • 4.3.11 Rest-of-Europe
    • 4.3.11.1 Application
    • 4.3.11.2 Product
• 4.4 Asia-Pacific
  • 4.4.1 Regional Overview
  • 4.4.2 Driving Factors for Market Growth
  • 4.4.3 Factors Challenging the Market
  • 4.4.4 Asia-Pacific Market
    • 4.4.4.1 Application
    • 4.4.4.2 Product
  • 4.4.5 China
    • 4.4.5.1 Application
    • 4.4.5.2 Product
  • 4.4.6 Japan
    • 4.4.6.1 Application
    • 4.4.6.2 Product
  • 4.4.7 India
    • 4.4.7.1 Application
    • 4.4.7.2 Product
  • 4.4.8 South Korea
    • 4.4.8.1 Application
    • 4.4.8.2 Product
  • 4.4.9 Rest-of-Asia-Pacific
    • 4.4.9.1 Application
    • 4.1.1.1 Product
• 4.5 Rest-of-the-World
  • 4.5.1 Regional Overview
  • 4.5.2 Driving Factors for Market Growth
  • 4.5.3 Factors Challenging the Market
  • 4.5.4 Rest-of-the-World Market
    • 4.5.4.1 Application
    • 4.5.4.2 Product
  • 4.5.5 South America
    • 4.5.5.1 Application
    • 4.5.5.2 Product
  • 4.5.6 Middle East and Africa
    • 4.5.6.1 Application
    • 4.5.6.2 Product

5 Competitive Benchmarking and Company Profiles

• 5.1 DJI
  • 5.1.1 Overview
  • 5.1.2 Top Products/Product Portfolio
  • 5.1.3 Top Competitors
  • 5.1.4 Target Customers
  • 5.1.5 Key Personal
  • 5.1.6 Analyst View
  • 5.1.7 Market Share, 2024
• 5.2 XAG Co., Ltd.
  • 5.2.1 Overview
  • 5.2.2 Top Products/Product Portfolio
  • 5.2.3 Top Competitors
  • 5.2.4 Target Customers
  • 5.2.5 Key Personal
  • 5.2.6 Analyst View
  • 5.2.7 Market Share, 2024
• 5.3 Parrot Drones SAS
  • 5.3.1 Overview
  • 5.3.2 Top Products/Product Portfolio
  • 5.3.3 Top Competitors
  • 5.3.4 Target Customers
  • 5.3.5 Key Personal
  • 5.3.6 Analyst View
  • 5.3.7 Market Share, 2024
• 5.4 Yamaha Motor Co., Ltd.
  • 5.4.1 Overview
  • 5.4.2 Top Products/Product Portfolio
  • 5.4.3 Top Competitors
  • 5.4.4 Target Customers
  • 5.4.5 Key Personal
  • 5.4.6 Analyst View
  • 5.4.7 Market Share, 2024
• 5.5 Delair
  • 5.5.1 Overview
  • 5.5.2 Top Products/Product Portfolio
  • 5.5.3 Top Competitors
  • 5.5.4 Target Customers
  • 5.5.5 Key Personal
  • 5.5.6 Analyst View
  • 5.5.7 Market Share, 2024
• 5.6 Hylio, Inc.
  • 5.6.1 Overview
  • 5.6.2 Top Products/Product Portfolio
  • 5.6.3 Top Competitors
  • 5.6.4 Target Customers
  • 5.6.5 Key Personal
  • 5.6.6 Analyst View
  • 5.6.7 Market Share, 2024
• 5.7 AgEagle Aerial Systems Inc.
  • 5.7.1 Overview
  • 5.7.2 Top Products/Product Portfolio
  • 5.7.3 Top Competitors
  • 5.7.4 Target Customers
  • 5.7.5 Key Personal
  • 5.7.6 Analyst View
  • 5.7.7 Market Share, 2024
• 5.8 Sentera
  • 5.8.1 Overview
  • 5.8.2 Top Products/Product Portfolio
  • 5.8.3 Top Competitors
  • 5.8.4 Target Customers
  • 5.8.5 Key Personal
  • 5.8.6 Analyst View
  • 5.8.7 Market Share, 2024
• 5.9 Kray Technologies
  • 5.9.1 Overview
  • 5.9.2 Top Products/Product Portfolio
  • 5.9.3 Top Competitors
  • 5.9.4 Target Customers
  • 5.9.5 Key Personal
  • 5.9.6 Analyst View
  • 5.9.7 Market Share, 2024
• 5.1 Garuda Aerospace Pvt. Ltd.
  • 5.10.1 Overview
  • 5.10.2 Top Products/Product Portfolio
  • 5.10.3 Top Competitors
  • 5.10.4 Target Customers
  • 5.10.5 Key Personal
  • 5.10.6 Analyst View
  • 5.10.7 Market Share, 2024
• 5.11 ABZ Innovation
  • 5.11.1 Overview
  • 5.11.2 Top Products/Product Portfolio
  • 5.11.3 Top Competitors
  • 5.11.4 Target Customers
  • 5.11.5 Key Personal
  • 5.11.6 Analyst View
  • 5.11.7 Market Share, 2024
• 5.12 Nileworks Inc.
  • 5.12.1 Overview
  • 5.12.2 Top Products/Product Portfolio
  • 5.12.3 Top Competitors
  • 5.12.4 Target Customers
  • 5.12.5 Key Personal
  • 5.12.6 Analyst View
  • 5.12.7 Market Share, 2024
• 5.13 Dronevolt
  • 5.13.1 Overview
  • 5.13.2 Top Products/Product Portfolio
  • 5.13.3 Top Competitors
  • 5.13.4 Target Customers
  • 5.13.5 Key Personal
  • 5.13.6 Analyst View
  • 5.13.7 Market Share, 2024
• 5.14 Marut Dronetech Pvt. Ltd.
  • 5.14.1 Overview
  • 5.14.2 Top Products/Product Portfolio
  • 5.14.3 Top Competitors
  • 5.14.4 Target Customers
  • 5.14.5 Key Personal
  • 5.14.6 Analyst View
  • 5.14.7 Market Share, 2024
• 5.15 Suzhou Eavision Robotic Technologies Co., Ltd.
  • 5.15.1 Overview
  • 5.15.2 Top Products/Product Portfolio
  • 5.15.3 Top Competitors
  • 5.15.4 Target Customers
  • 5.15.5 Key Personal
  • 5.15.6 Analyst View
  • 5.15.7 Market Share, 224

6 Research Methodology

• 6.1 Data Sources
  • 6.1.1 Primary Data Sources
  • 6.1.2 Secondary Data Sources
  • 6.1.3 Data Triangulation
• 6.2 Market Estimation and Forecast